NZ718490B2 - Acylated glucagon analogues - Google Patents
Acylated glucagon analogues Download PDFInfo
- Publication number
- NZ718490B2 NZ718490B2 NZ718490A NZ71849014A NZ718490B2 NZ 718490 B2 NZ718490 B2 NZ 718490B2 NZ 718490 A NZ718490 A NZ 718490A NZ 71849014 A NZ71849014 A NZ 71849014A NZ 718490 B2 NZ718490 B2 NZ 718490B2
- Authority
- NZ
- New Zealand
- Prior art keywords
- isoglu
- carboxy
- ac4c
- heptadecanoyl
- aib
- Prior art date
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- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P9/00—Drugs for disorders of the cardiovascular system
- A61P9/10—Drugs for disorders of the cardiovascular system for treating ischaemic or atherosclerotic diseases, e.g. antianginal drugs, coronary vasodilators, drugs for myocardial infarction, retinopathy, cerebrovascula insufficiency, renal arteriosclerosis
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P9/00—Drugs for disorders of the cardiovascular system
- A61P9/12—Antihypertensives
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/575—Hormones
- C07K14/605—Glucagons
Abstract
The invention provides materials and methods for the treatment of obesity and excess weight, diabetes, and other associated metabolic disorders. In particular, the invention provides novel acylated glucagon analogue peptides effective in such methods. The peptides may mediate their effect by having increased selectivity for the GLP-1 receptor as compared to human glucagon. In particular, the acylated glucagon analogues are modified at a particular residue by addition of a side chain comprising a fatty acid having a polar group at one end, connected to the peptide backbone via a spacer. increased selectivity for the GLP-1 receptor as compared to human glucagon. In particular, the acylated glucagon analogues are modified at a particular residue by addition of a side chain comprising a fatty acid having a polar group at one end, connected to the peptide backbone via a spacer.
Description
ACYLATED GLUCAGON ANALOGUES
FIELD OF THE INVENTION
The present invention relates to acylated glucagon analogues and their medical use, for
example in the treatment of obesity and excess weight, diabetes, and other metabolic
disorders.
BACKGROUND OF THE INVENTION
Pre-proglucagon is a 158 amino acid precursor polypeptide that is differentially processed in
the tissues to form a number of structurally related proglucagon-derived peptides, including
glucagon (Glu), glucagon-like peptide-1 (GLP-1), glucagon-like peptide-2 (GLP-2), and
oxyntomodulin (OXM). These molecules are involved in a wide variety of physiological
functions, including glucose homeostasis, insulin secretion, gastric emptying and intestinal
growth, as well as regulation of food intake.
Glucagon is a 29-amino acid peptide that corresponds to amino acids 53 to 81 of pre-
proglucagon. Oxyntomodulin (OXM) is a 37 amino acid peptide which includes the complete
29 amino acid sequence of glucagon with an octapeptide carboxyterminal extension (amino
acids 82 to 89 of pre-proglucagon, and termed “intervening peptide 1” or IP-1. The major
biologically active fragment of GLP-1 is produced as a 30-amino acid, C-terminally amidated
peptide that corresponds to amino acids 98 to 127 of pre-proglucagon.
Glucagon helps maintain the level of glucose in the blood by binding to glucagon receptors on
hepatocytes, causing the liver to release glucose – stored in the form of glycogen – through
glycogenolysis. As these stores become depleted, glucagon stimulates the liver to synthesize
additional glucose by gluconeogenesis. This glucose is released into the bloodstream,
preventing the development of hypoglycemia.
GLP-1 decreases elevated blood glucose levels by improving glucose-stimulated insulin
secretion and promotes weight loss chiefly through decreasing food intake.
OXM is released into the blood in response to food ingestion and in proportion to meal calorie
content. OXM has been shown to suppress appetite and inhibit food intake in humans (Cohen
et al, Journal of Endocrinology and Metabolism, 88, 4696-4701, 2003; ). In
addition to those anorectic effects, which are similar to those of GLP-1, OXM must also affect
body weight by another mechanism, since rats treated with oxyntomodulin show less body
weight gain than pair-fed rats (Bloom, Endocrinology 2004, 145, 2687). Treatment of obese
rodents with OXM also improves their glucose tolerance (Parlevliet et al, Am J Physiol
Endocrinol Metab, 294, E142-7, 2008) and suppresses body weight gain ().
OXM activates both the glucagon and the GLP-1 receptors with a two-fold higher potency for
the glucagon receptor over the GLP-1 receptor, but is less potent than native glucagon and
GLP-1 on their respective receptors. Human glucagon is also capable of activating both
receptors, though with a strong preference for the glucagon receptor over the GLP-1 receptor.
GLP-1 on the other hand is not capable of activating glucagon receptors. The mechanism of
action of oxyntomodulin is not well understood. In particular, it is not known whether some of
the extrahepatic effects of the hormone are mediated through the GLP-1 and glucagon
receptors, or through one or more unidentified receptors.
Other peptides have been shown to bind and activate both the glucagon and the GLP-1
receptor (Hjort et al, Journal of Biological Chemistry, 269, 30121-30124, 1994) and to
suppress body weight gain and reduce food intake (see, for example, , WO
2007/100535, , , , ,
WO2010/070252, WO2010/070253, WO2010/070255, WO2010/070251, WO2011/006497,
WO2011/160630, WO2011/160633, WO2013/092703, WO2014/041195.
Obesity is a globally increasing health problem associated with various diseases, particularly
cardiovascular disease (CVD), type 2 diabetes, obstructive sleep apnea, certain types of
cancer, and osteoarthritis. As a result, obesity has been found to reduce life expectancy.
According to 2005 projections by the World Health Organization there are 400 million adults
(age > 15) classified as obese worldwide. In the US, obesity is now believed to be the
second-leading cause of preventable death after smoking.
The rise in obesity drives an increase in diabetes, and approximately 90% of people with type
2 diabetes may be classified as obese. There are 246 million people worldwide with diabetes,
and by 2025 it is estimated that 380 million will have diabetes. Many have additional
cardiovascular risk factors, including high/aberrant LDL and triglycerides and low HDL.
In this specification where reference has been made to patent specifications, other external
documents, or other sources of information, this is generally for the purpose of providing a
context for discussing the features of the invention. Unless specifically stated otherwise,
reference to such external documents is not to be construed as an admission that such
documents, or such sources of information, in any jurisdiction, are prior art, or form part of the
common general knowledge in the art.
Certain statements that appear below are broader than what appears in the statements of the
invention. These statements are provided in the interests of providing the reader with a better
understanding of the invention and its practice. The reader is directed to the accompanying
claim set which defines the scope of the invention.
SUMMARY OF THE INVENTION
In a first aspect, the invention provides a compound having the formula:
1 1 2 2
R -P -P -R
wherein
R is H, C1-4 alkyl, acetyl, formyl, benzoyl or trifluoroacetyl;
R is OH or NH ;
P is a peptide having the sequence:
H-X2-X3-GTFTSDYSKYLDSΨAAHDFVEWLLSA
wherein:
X2 is selected from Aib, Ala, D-Ala, Ser, N-Me-Ser, Ac3c, Ac4c and Ac5c;
X3 is selected from Gln and His;
P is absent or is a sequence of 1-20 amino acid units independently selected from the group
consisting of Ala, Leu, Ser, Thr, Tyr, Cys, Glu, Lys, Arg, Dbu, Dpr and Orn;
or a pharmaceutically acceptable salt or solvate thereof;
Ψ is a residue of Lys, Arg, Orn or Cys in which the side chain is conjugated to a substituent
having the formula –Z -Z ;
–Z is a fatty chain having a polar group at one end of the chain and a connection to Z , –X–
at the end of the chain distal from the polar group,
wherein the polar group comprises a carboxylic acid or a carboxylic acid bioisostere, a phos-
phonic acid, or a sulfonic acid group;
and –X– is a bond, –CO–, –SO–, or –SO –;
–Z – is a spacer of formula:
wherein:
each Y is independently –NH, –NR, –S or –O, where R is alkyl, a protecting group or forms a
linkage to another part of the spacer Z ;
each X is independently a bond, CO–, SO–, or SO2–;
with the proviso that when Y is –S, X is a bond;
each V is independently a bivalent organic moiety linking Y and X;
and n is 1-10;
or a pharmaceutically acceptable salt or solvate thereof.
P may have the sequence:
H-Aib-QGTFTSDYSKYLDSΨAAHDFVEWLLSA
e.g.
H-Aib-QGTFTSDYSKYLDS-K([15-carboxy-pentadecanoyl]-isoGlu)-AAHDFVEWLLSA.
The compound of the invention may be:
H-H-Aib-QGTFTSDYSKYLDSΨAAHDFVEWLLSA-NH2
e.g.
H-H-Aib-QGTFTSDYSKYLDS-K([15-carboxy-pentadecanoyl]-isoGlu)-AAHDFVEWLLSA-NH2.
In a second aspect, the invention provides a compound having the formula:
1 1 2 2
R -P -P -R
wherein
R is H, C alkyl, acetyl, formyl, benzoyl or trifluoroacetyl;
R is OH or NH ;
P is a peptide having the sequence:
His-X2-X3-GTFTSDYSKYL-X15-X16-X17-X18-A-X20-DFI-X24-WLE-X28-A
wherein:
X2 is selected from Aib, Ac3c, Ac4c and Ac5c;
X3 is selected from Gln and His;
X15 is selected from Asp and Glu;
X16 is selected from Glu and Ψ;
X17 is selected from Arg and Ψ;
X18 is selected from Ala and Arg;
X20 is selected from Lys and His;
X24 is selected from Glu and Ψ;
X28 is selected from Ser and Ψ;
and P is absent or is a sequence of 1-20 amino acid units independently selected from the
40 group consisting of Ala, Leu, Ser, Thr, Tyr, Cys, Glu, Lys, Arg, Dbu, Dpr and Orn;
wherein the compound contains one and only one Ψ
and wherein said Ψ is a residue of Lys, Arg, Orn or Cys in which the side chain is conjugated
to a substituent having the formula –Z -Z ;
–Z is a fatty chain having a polar group at one end of the chain and a connection to Z , –X–
at the end of the chain distal from the polar group,
wherein the polar group comprises a carboxylic acid or a carboxylic acid bioisostere, a phos-
phonic acid, or a sulfonic acid group;
and –X– is a bond, –CO–, –SO–, or –SO –;
–Z – is a spacer of formula:
wherein:
each Y is independently –NH, –NR, –S or –O, where R is alkyl, a protecting group or forms a
linkage to another part of the spacer Z ;
each X is independently a bond, CO–, SO–, or SO –;
with the proviso that when Y is –S, X is a bond;
each V is independently a bivalent organic moiety linking Y and X;
and n is 1-10;
or a pharmaceutically acceptable salt or solvate thereof.
In some embodiments of the second aspect:
X2 is selected from Aib and Ac4c;
X3 is Gln;
X15 is selected from Asp and Glu;
X16 is Ψ;
X17 is Arg;
X18 is Ala;
X20 is selected from Lys and His;
X24 is Glu;
X28 is Ser.
Useful combinations of residues include the following:
X2 is Ac4c and X20 is Lys;
X2 is Aib and X20 is His.
Additionally or alternatively, it may be desirable that X2 is Aib if X15 is E
or that X15 is D if X2 is Ac4c.
Particularly interesting substituents Z Z include [17-carboxy-heptadecanoyl]-isoGlu-Peg3-
Peg3 and [17-carboxy-heptadecanoyl]-isoGlu-GSGSGG.
P may have a sequence selected from:
H-Aib-QGTFTSDYSKYLDΨRAAKDFIEWLESA
H-Aib-QGTFTSDYSKYLEΨRAAKDFIEWLESA
H-Ac4c-QGTFTSDYSKYLDΨRAAKDFIEWLESA and
H-Aib-QGTFTSDYSKYLEΨRAAHDFIEWLESA
e.g. from
H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAAKDFIEWLESA
H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
RAAKDFIEWLESA
H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
RAAKDFIEWLESA
H-Ac4c-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
RAAKDFIEWLESA and
H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAAHDFIEWLESA
The compound of the invention may be selected from:
H-H-Aib-QGTFTSDYSKYLDΨRAAKDFIEWLESA-NH2
H-H-Aib-QGTFTSDYSKYLEΨRAAKDFIEWLESA-NH
H-H-Ac4c-QGTFTSDYSKYLDΨRAAKDFIEWLESA-NH and
H-H-Aib-QGTFTSDYSKYLEΨRAAHDFIEWLESA-NH
e.g. from
H-H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
40 RAAKDFIEWLESA-NH2
H-H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
RAAKDFIEWLESA-NH
H-H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
RAAKDFIEWLESA-NH2
H-H-Ac4c-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
RAAKDFIEWLESA-NH and
H-H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAAHDFIEWLESA-NH2
In alternative embodiments of the scond aspect:
X2 is selected from Aib and Ac4c;
X3 is selected from Gln and His;
X15 is Asp;
X16 is Glu;
X17 is selected from Arg and Ψ;
X18 is selected from Ala and Arg;
X20 is Lys;
X24 is selected from Glu and Ψ;
X28 is selected from Ser and Ψ;
In some embodiments, when X28 is Ψ, X2 is Ac4c.
In some embodiments, when X3 is His, X2 is Ac4c and X17 is Ψ.
In some embodiments, when X17 is Ψ, Z Z is [17-carboxy-heptadecanoyl]-isoGlu-Peg3-
Peg3 or [17-carboxy-heptadecanoyl]-isoGlu.
In some embodiments, when X24 or X28 is Ψ, Z Z is [17-carboxy-heptadecanoyl]-isoGlu-
GSGSGG.
P may have a sequence selected from:
H-Aib-QGTFTSDYSKYLDEΨAAKDFIEWLESA
H-Ac4c-QGTFTSDYSKYLDEΨRAKDFIEWLESA
H-Ac4c-HGTFTSDYSKYLDEΨRAKDFIEWLESA
H-Ac4c-QGTFTSDYSKYLDEΨAAKDFIEWLESA
H-Ac4c-QGTFTSDYSKYLDEΨRAKDFIEWLESA
H-Aib-QGTFTSDYSKYLDERAAKDFIΨWLESA
40 H-Ac4c-QGTFTSDYSKYLDERAAKDFIΨWLESA
H-Ac4c-QGTFTSDYSKYLDERRAKDFIΨWLESA
H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLEΨA and
H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLEΨA
e.g. from
H-Aib-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA
H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAKDFIEWLESA
H-Ac4c-HGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAKDFIEWLESA
H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA
H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-RAKDFIEWLESA
H-Aib-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
WLESA
H-Ac4c-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
WLESA
H-Ac4c-QGTFTSDYSKYLDERRAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
WLESA
H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu-
GSGSGG)-A and
H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu-
GSGSGG)-A-NH
The compound of the invention may be selected from:
H-H-Aib-QGTFTSDYSKYLDEΨAAKDFIEWLESA-NH
H-H-Ac4c-QGTFTSDYSKYLDEΨRAKDFIEWLESA-NH
H-H-Ac4c-HGTFTSDYSKYLDEΨRAKDFIEWLESA-NH2
H-H-Ac4c-QGTFTSDYSKYLDEΨAAKDFIEWLESA-NH2
H-H-Ac4c-QGTFTSDYSKYLDEΨRAKDFIEWLESA-NH
H-H-Aib-QGTFTSDYSKYLDERAAKDFIΨWLESA-NH
H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIΨWLESA-NH2
H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIΨWLESA-NH
H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLEΨA-NH and
H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLEΨA-NH
e.g. from
H-H-Aib-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA-NH
H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAKDFIEWLESA-NH
H-H-Ac4c-HGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAKDFIEWLESA-NH2
H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA-NH2
H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-RAKDFIEWLESA-
H-H-Aib-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
WLESA-NH2
H-H-Ac4c-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
WLESA-NH
H-H-Ac4c-QGTFTSDYSKYLDERRAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
WLESA-NH2
H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu-
GSGSGG)-A-NH and
H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu-
GSGSGG)-A-NH2.
Specifically, the invention provides a compound which is:
H-H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAAKDFIEWLESA-NH2.
The invention also provides a compound which is:
H-H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
RAAKDFIEWLESA-NH2.
The invention also provides a compound which is:
H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-
RAKDFIEWLESA-NH2.
The invention also provides a compound which is:
H-H-Aib-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
WLESA-NH .
The invention also provides a compound which is:
H-H-Ac4c-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-
WLESA-NH .
The invention also provides a compound which is:
H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu-
GSGSGG)-A-NH .
For the avoidance of doubt, in all aspects of the invention, those positions which are not
expressly stated to permit variability are fixed and thus may only include the stated residue.
In all aspects, the compound of the invention comprises a residue Ψ, i.e. a residue selected
from Lys, Arg, Orn and Cys in which the side chain is conjugated to a substituent –Z -Z - as
decribed in more detail below.
The substituent is conjugated to the functional group at the distal end of the side chain from
the alpha-carbon. The normal ability of the Lys, Arg, Orn or Cys side chain to participate in
interactions mediated by that functional group (e.g. intra- and inter-molecular interactions)
may therefore be reduced or completely eliminated by the presence of the substituent. Thus,
the overall properties of the compound may be relatively insensitive to changes in the actual
amino acid present as residue Ψ. Consequently, it is believed that any of the residues Lys,
Arg, Orn and Cys may be present at any position where Ψ is permitted. However, in certain
embodiments, it may be advantageous that the amino acid component of Ψ is Lys.
In some embodiments, –Z is an acyl group of formula:
A–B–Alk–(CO)–
or a sulfonyl group of formula:
A–B–Alk–(SO )–;
A is –COOH or a carboxylic acid bioisostere;
B is a bond, C6arylene, or C6arylene–O–;
Alk is a saturated or unsaturated fatty chain of 6 to 18 carbon atoms in length, optionally sub-
stituted with one or more substituents selected from fluoro, C alkyl, trifluoromethyl, hy-
droxymethyl, amino, hydroxyl, C1-4alkoxy, oxo, and carboxyl;
–Z – is –SA–, –SA–SB–, or –SB–SA–;
–S – is a single amino acid residue selected from γ-Glu, α-Glu, α-Asp, β-Asp, Ala, β-Ala (3-
aminopropanoic acid), and Gaba (4-aminobutanoic acid);
–SB– is a linker of general formula:
i iii
wherein n is 1–10 and each P is independently selected from P and P ;
U U U
each PU is independently a natural or unnatural amino acid residue; and
each PU is independently a residue of general formula:
wherein m is 0–5 and p is 1, 3, 4, or 5.
In any aspect of the invention, R may be selected from H and C1-4 alkyl (e.g. methyl).
The compounds of the invention are glucagon analogue peptides. References herein to a
glucagon analogue peptide should be construed as references to a compound of the
1 1 2
invention or to a peptide P or P -P as the context requires. Reference to a compound of the
invention should be taken to include any pharmaceutically acceptable salt (e.g. an acetate or
chloride salt) or solvate thereof, unless otherwise stated or excluded by context.
The invention provides a pharmaceutically acceptable salt of a compound of the invention as
defined herein.
The invention provides a composition comprising a compound of the invention as defined
herein (including pharmaceutically acceptable salts or solvates thereof, as already described)
in admixture with a carrier. In preferred embodiments, the composition is a pharmaceutical
composition and the carrier is a pharmaceutically acceptable carrier. The glucagon analogue
peptide may be in the form of a pharmaceutically acceptable salt of the glucagon analogue.
The compounds described herein find use, inter alia, in preventing weight gain or promoting
weight loss. By “preventing” is meant inhibiting or reducing when compared to the absence of
treatment, and is not necessarily meant to imply complete cessation of weight gain. The
peptides may cause a decrease in food intake and/or increased energy expenditure, resulting
in the observed effect on body weight. Independently of their effect on body weight, the
compounds of the invention may have a beneficial effect on glucose control and/or on
circulating cholesterol levels, being capable of lowering circulating LDL levels and increasing
HDL/LDL ratio. Thus the compounds of the invention can be used for direct or indirect
therapy of any condition caused or characterised by excess body weight, such as the
treatment and/or prevention of obesity, morbid obesity, obesity linked inflammation, obesity
linked gallbladder disease, obesity induced sleep apnea. They may also be used for the
prevention of conditions caused or characterised by inadequate glucose control or
dyslipidaemia (e.g. elevated LDL levels or reduced HDL/LDL ratio), diabetes (especially Type
2 diabetes), metabolic syndrome, hypertension, atherogenic dyslipidemia, atherosclerosis,
arteriosclerosis, coronary heart disease, peripheral artery disease, stroke or microvascular
disease. Their effects in these conditions may be as a result of or associated with their effect
on body weight, or may be independent thereof.
The invention also provides a compound of the invention for use in a method of medical
treatment, particularly for use in a method of treatment of a condition as described above.
The invention also provides the use of a compound of the invention in the preparation of a
medicament. The medicament is useful for the treatment of a condition as described above.
Specifically, the invention relates to use of a compound of the invention in the manufacture of
a medicament for use in a method of medical treatment.
The invention also relates to use of a compound of the invention in the manufacture of a
medicament. for use in a therapeutic method of preventing weight gain or promoting weight
loss in an individual in need thereof.
The invention also relates to use of a compound of the invention in the manufacture of a
medicament for use in a method of lowering circulating LDL levels, and/or increasing
HDL/LDL ratio in an individual in need thereof.
The invention also relates to use of a compound of the invention in the manufacture of a
medicament for use in a method of treatment of a condition caused or characterised by ex-
cess body weight.
The invention also relates to use of a compound of the invention in the manufacture of a
medicament for use in a method of prevention or treatment of obesity, morbid obesity, morbid
obesity prior to surgery, obesity linked inflammation, obesity linked gallbladder disease, obesi-
ty inducedsleep apnea, diabetes, metabolic syndrome, hypertension, atherogenic dyslipidim-
ia, atherosclerois, arteriosclerosis, coronary heart disease, peripheral artery disease, stroke
or microvascular disease.
The compound of the invention may be administered as part of a combination therapy with an
agent for treatment of diabetes, obesity, dyslipidaemia or hypertension.
In such cases, the two active agents may be given together or separately, and as part of the
same pharmaceutical formulation or as separate formulations.
Thus the compound of the invention can be used in combination with an anti-diabetic agent
including but not limited to a biguanide (e.g. metformin), a sulfonylurea, a meglitinide or
glinide (e.g. nateglinide), a DPP-IV inhibitor, an SGLT2 inhibitor, a glitazone, an insulin, or an
insulin analogue. Examples of insulin analogues include but are not limited to Lantus™,
Novorapid™, Humalog™, Novomix™, Actraphane HM™, Levemir™ and Apidra™.
The compound can further be used in combination with an anti-obesity agent including but not
limited to a glucagon-like peptide receptor 1 agonist, peptide YY or analogue thereof,
cannabinoid receptor 1 antagonist, lipase inhibitor, melanocortin receptor 4 agonist, melanin
concentrating hormone receptor 1 antagonist, phentermine (alone or in combination with
topiramate), a combination of norepinephrine/dopamine reuptake inhibitor and opioid receptor
antagonist (e.g. a combination of bupropion and naltrexone), or a serotonergic agent (e.g.
lorcaserin).
The compound can further be used in combination with an anti-hypertension agent including
but not limited to an angiotensin-converting enzyme inhibitor, angiotensin II receptor blocker,
diuretic, beta-blocker, or calcium channel blocker.
The compound can be used in combination with an anti-dyslipidaemia agent including but not
limited to a statin, a fibrate, a niacin or a cholesterol absorbtion inhibitor.
Thus the invention further provides a composition or therapeutic kit comprising a compound of
the invention and for example an anti-diabetic agent, anti-obesity agent, anti-hypertension
agent or anti-dyslipidaemia agent as described above. Also provided is such a composition
or therapeutic kit for use in a method of medical treatment, especially for treament of a
condition as described above.
The compound of the invention may be made by synthetic chemistry. Accordingly, the
invention provides a method of synthesis of a compound of the invention by solid phase or
liquid phase peptide synthesis.
The compound of the invention may also be made by a combination of recombinant and
synthetic methods. The method may comprise expressing a precursor peptide sequence,
40 optionally purifying the compund thus produced, and adding or modifying one or more amino
acids to produce a compound of the invention or a compound comprising the amino acid
1 1 2
sequence P or P -P . The step of modification may comprise introduction of an Orn residue
(e.g. by modiication of a precursor residue) and/or introduction of a substituent Z2Z1 at the
site of a residue Ψ.
The precursor peptide may be expressed from a nucleic acid encoding the precursor peptide
in a cell or a cell-free expression system comprising such a nucleic acid.
DETAILED DESCRIPTION OF THE INVENTION
The term “comprising” as used in this specification and claims means “consisting at least in
part of”. When interpreting statements in this specification, and claims which include the term
“comprising”, it is to be understood that other features that are additional to the features pref-
aced by this term in each statement or claim may also be present. Related terms such as
“comprise” and “comprised” are to be interpreted in similar manner.
Throughout this specification, the conventional one letter and three letter codes for naturally
occurring amino acids are used, as well as generally accepted abbreviations for other amino
acids, such as Aib (α-aminoisobutyric acid), Orn (ornithine), Dbu (2,4-diaminobutyric acid),
Dpr (2,3-diaminopropanoic acid), Ac3c (1-amino-cyclopropanecarboxylic acid), Ac4c (1-
amino-cyclobutanecarboxylic acid) and Ac5c (1-amino-cyclopentanecarboxylic acid).
Ac3c, Ac4c and Ac5c have similar structures and are to some extent interchangeable,
although Ac4c may be preferred.
Glucagon is a 29-amino acid peptide that corresponds to amino acids 53 to 81 of pre-
proglucagon and has the sequence His-Ser-Gln-Gly-Thr-Phe-Thr-Ser-Asp-Tyr-Ser-Lys-Tyr-
Leu-Asp-Ser-Arg-Arg-Ala-Gln-Asp-Phe-Val-Gln-Trp-Leu-Met-Asn-Thr. Oxyntomodulin (OXM)
is a 37 amino acid peptide which includes the complete 29 amino acid sequence of glucagon
with an octapeptide carboxyterminal extension (amino acids 82 to 89 of pre-proglucagon,
having the sequence Lys-Arg-Asn-Arg-Asn-Asn-Ile-Ala and termed “intervening peptide 1” or
IP-1; the full sequence of human oxyntomodulin is thus His-Ser-Gln-Gly-Thr-Phe-Thr-Ser-
Asp-Tyr-Ser-Lys-Tyr-Leu-Asp-Ser-Arg-Arg-Ala-Gln-Asp-Phe-Val-Gln-Trp-Leu-Met-Asn-Thr-
Lys-Arg-Asn-Arg-Asn-Asn-Ile-Ala). The major biologically active fragment of GLP-1 is
produced as a 30-amino acid, C-terminally amidated peptide that corresponds to amino acids
98 to 127 of pre-proglucagon.
The term “native glucagon” thus refers to native human glucagon having the sequence H-His-
Ser-Gln-Gly-Thr-Phe-Thr-Ser-Asp-Tyr-Ser-Lys-Tyr-Leu-Asp-Ser-Arg-Arg-Ala-Gln-Asp-Phe-
Val-Gln-Trp-Leu-Met-Asn-Thr-OH.
Amino acids within the sequence P of the compounds of the invention can be considered to
be numbered consecutively from 1 to 29 in the conventional N-terminal to C-terminal
direction. Reference to a “position” within P should be construed accordingly, as should
reference to positions within native human glucagon and other molecules.
A compound of the invention may comprise a C-terminal peptide sequence P of 1-20 amino
acids, for example to stabilise the conformation and/or secondary structure of the glucagon
analogue peptide, and/or to render the glucagon analogue peptide more resistant to
enzymatic hydrolysis, e.g. as described in WO99/46283.
When present, P represents a peptide sequence of 1-20 amino acid residues, e.g. in the
range of 1-15, more preferably in the range of 1-10, in particular in the range of 1-7 amino
acid residues, e.g., 1, 2, 3, 4, 5, 6 or 7 amino acid residues, such as 6 amino acid residues.
Each of the amino acid residues in the peptide sequence P may independently be selected
from Ala, Leu, Ser, Thr, Tyr, Cys, Glu, Lys, Arg, Dbu (2,4-diaminobutyric acid), Dpr (2,3-
diaminopropanoic acid) and Orn (ornithine). Preferably, the amino acid residues are selected
from Ser, Thr, Tyr, Glu, Lys, Arg, Dbu, Dpr and Orn, more preferably selected exclusively
from Glu, Lys, and Cys. The above-mentioned amino acids may have either D- or L-
configuration, which in certain embodiments, have an L-configuration. Particularly preferred
sequences P are sequences of four, five, six or seven consecutive lysine residues (i.e. Lys3,
Lys4, Lys5, Lys6 or Lys7), and particularly five or six consecutive lysine residues. Other
exemplary sequences of P are shown in WO 01/04156. Alternatively the C-terminal residue
of the sequence P may be a Cys residue. This may assist in modification (e.g. PEGylation,
or conjugation to albumin) of the compound. In such embodiments, the sequence P may, for
example, be only one amino acid in length (i.e. P = Cys) or may be two, three, four, five, six
or even more amino acids in length. The other amino acids therefore serve as a spacer
between the peptide P and the terminal Cys residue.
The peptide sequence P has no more than 25% sequence identity with the corresponding
sequence of the IP-1 portion of human OXM (which has the sequence Lys-Arg-Asn-Arg-Asn-
Asn-Ile-Ala).
“Percent (%) amino acid sequence identity” of a given peptide or polypeptide sequence with
respect to another polypeptide sequence (e.g. IP-1) is calculated as the percentage of amino
acid residues in the given peptide sequence that are identical with correspondingly positioned
amino acid residues in the corresponding sequence of that other polypeptide when the two
are aligned with one another, introducing gaps for optimal alignment if necessary. % identity
values may be determined using WU-BLAST-2 (Altschul et al., Methods in Enzymology,
266:460-480 (1996)). WU-BLAST-2 uses several search parameters, most of which are set to
40 the default values. The adjustable parameters are set with the following values: overlap span
= 1, overlap fraction = 0.125, word threshold (T) = 11. A % amino acid sequence identity
value is determined by the number of matching identical residues as determined by WU-
BLAST-2, divided by the total number of residues of the reference sequence (gaps introduced
by WU-BLAST-2 into the reference sequence to maximize the alignment score being
ignored), multiplied by 100.
Thus, when P is aligned optimally with the 8 amino acids of IP-1, it has no more than two
amino acids which are identical with the corresponding amino acids of IP-1.
In certain embodiments, P is absent.
Ψ is a residue of Lys, Arg, Orn or Cys whose side chain is conjugated to a substituent Z -Z .
Without wishing to be bound by any particular theory, it is thought that the substituent binds
plasma proteins (e.g. albumin) in the blood stream, thus shielding the compounds of the
invention from enzymatic degradation and thereby enhancing the half-life of the compounds.
It may also modulate the potency of the compound, e.g. with respect to the glucagon receptor
and/or the GLP-1 receptor.
The group Z
Z is a fatty chain having a connection to Z , referred to herein as –X– and, at the end of the
chain distal from the connection to Z , a polar group. –X– may be, for example, a bond, acyl
(–CO–), sulfinyl (–SO–), or sulfonyl (–SO2–), the connection being located at the -position
with respect to the polar group, that is, at the end of the chain distal from the polar group.
Preferably, the polar group is an acidic or weakly acid group, for example a carboxylic acid or
a carboxylic acid bioisostere, a phosphonate, or a sulfonate. The polar group may have a pK
of between –2 and 12 in water, more preferably between 1 and 7, more preferably between 3
and 6. Certain preferred polar groups have a pKa of between 4 and 5.
The polar group preferably comprises a carboxylic acid or carboxylic acid bioisostere. Suita-
ble carboxylic acid bioisosteres are known in the art. Preferably the bioisostere has a proton
having a pK similar to the corresponding carboxylic acid. Examples of suitable bioisoteres
may include, not by way of limitation, tetrazole, acylsulfomides, acylhydroxylamine, and
squaric acid derivatives, as shown below (--- indicates the point of attachment):
R is e.g. Me, CF
The polar group may be a group of formula A–B–, wherein A is a carboxylic acid (–COOH) or
a carboxylic acid bioisostere, a phosphonic acid (–P(O)(OH) ), or a sulfonic acid (–SO OH)
group, and B is a bond or linker between A and the fatty chain. In some embodiments, the
polar group is –COOH, that is, A is –COOH and B is a bond.
When B is a linker, it may be a cycloalkylene, heterocycloalkylene, C6arylene, or
C heteroarylene, or C arylene–O– or C heteroarylene–O–.
-6 6 5-6
When B is phenylene it may, for example, be selected from 1,2-phenylene, 1,3-phenylene,
1,4-phenylene, preferably 1,4-phenylene (so that A–B– is a 4-benzoic acid substituent or
4-benzoic acid bioisostere). When B is phenylene–O–, it may, for example, be selected from
1,2-phenylene–O–, 1,3-phenylene–O–, 1,4-phenylene–O–, preferably 1,4-phenylene–O.
Each phenylene of B may be optionally substituted with one or more substituents selected
from fluoro, methyl, trifluoromethyl, amino, hydroxyl, and C1-4alkoxy, preferably methoxy. It
will be appreciated that substituent identity and position may be selected to subtly alter the
pK of the polar group. Suitable inductively or mesomerically electron-withdrawing or donat-
ing groups and their positional effects are known in the art. In some embodiments, B may be
C5-6heteroarylene, for example, pyridinylene or thiofuranylene, and may be optionally substi-
tuted as described.
For example, in some embodiments, A–B– may be selected from:
Preferably, A is –COOH. In some preferred polar groups, A is a carboxylic acid and B is
C arylene–O–.
Fatty chain as used herein refers to a moiety comprising a chain of carbon atoms, the carbon
atoms being predominantly substituted with hydrogen or hydrogen-like atoms, for example, a
hydrocarbon chain. Such fatty chains are often referred to as lipophilic, although it will be ap-
preciated that substitution may alter the lipophilic properties of the overall molecule.
The fatty chain may by aliphatic. It may be entirely saturated or may include one or more
double or triple bonds. Each double bond, if present, may be in the E or Z configuration. The
fatty chain may also have one or more cycloalkylene or heterocycloalkylene moieties in its
length, and additionally or alternatively may have one or more arylene or heteroarylene moie-
ties in its length. For example, the fatty chain may incorporate a phenylene or piperazinylene
moiety in its length as, for example, shown below (wherein --- represents the points of at-
tachment within the chain).
The fatty chain may be derived from a fatty acid, for example, it may be derived from a medi-
um-chain fatty acid (MCFA) with an aliphatic tail of 6–12 carbon atoms, a long-chain fatty acid
(LCFA) with an aliphatic tail of 13–21 carbon atoms, or a very long-chain fatty acid (LCFA)
with an aliphatic tail of 22 carbon atoms or more. Examples of linear saturated fatty acids
from which suitable fatty chains may be derived include tridecylic (tridecanoic) acid, myristic
(tetradecanoic) acid, pentadecylic (pentadecanoic) acid, palmitic (hexadecanoic) acid, and
margaric (heptadecanoic) acid. Examples of linear unsaturated fatty acids from which suita-
ble fatty chains may be derived include myristoleic acid, palmitoleic acid, sapienic acid and
oleic acid.
The fatty chain may be connected to Z by an amide linkage, a sulfinamide linkage, a sulfon-
amide linkage, or by an ester linkage, or by an ether, thioether or amine linkage. Accordingly,
the fatty chain may have at the position, that is, the position distal to the polar group, a
bond to Z or an acyl (–CO–), sulfinyl (–SO–), or sulfonyl (–SO2–) group. Preferably, the fatty
chain has an acyl (–CO–) group at the position distal to the polar group and is connected to
Z by an amide or ester linkage.
In some embodiments, Z is a group of formula:
A–B–Alk–X–
where A–B– is the polar group defined above, X is a bond, acyl (–CO–), sulfinyl (–SO–), or
sulfonyl (–SO –), and Alk is a fatty chain that may be optionally substituted with one or more
substituents. The fatty chain is preferably 6 to 18 carbon atoms in length (e.g. a
C6-18alkylene), more preferably, 8 to 18 carbons in length (e.g. a C8-18alkylene), more prefera-
bly, 12 to 16 carbons in length (e.g. C alkylene), and may be saturated or unsaturated.
12-16
Preferably, Alk is saturated, that is, preferably Alk is alkylene.
In some embodiments, Z is an acyl group of formula:
A–B–Alk–(CO)–
or a sulfonyl group of formula:
A–B–Alk–(SO )–.
Optional substituents on the fatty chain may be independently selected from fluoro, C1-4alkyl,
preferably methyl; trifluoromethyl, hydroxymethyl, amino, hydroxyl, C1-4alkoxy, preferably
methoxy; oxo, and carboxyl, and may be independently located at any point along the chain.
In some embodiments, each optional substituent is selected from fluoro, methyl, and hydroxyl.
Where more than one substituent is present, substituents may be the same or different. Pref-
erably, the number of substituents is 0 to 3; more preferably the fatty chain is unsubstituted.
Preferably, Z is an acyl group of formula:
A–B–alkylene–(CO)–
Where A and B are as defined above .
In some embodiments, Z is:
4-carboxyphenoxynonanoyl HOOC–C H –O–(CH ) –(CO)–.
6 4 2 8
Certain preferred Z are derived from long-chain saturated α, -dicarboxylic acids of formula
HOOC–(CH2)12-18–COOH, preferably, long-chain saturated α, -dicarboxylic acids having an
even number of carbon atoms in the aliphatic chain. For example, and not by way of limita-
tion, Z may be:
13-carboxytridecanoyl HOOC–(CH2)12–(CO)–
-carboxpentadecanoyl HOOC–(CH ) –(CO)–; or
2 14
17-carboxyheptadecanoyl HOOC–(CH2)16–(CO)–.
The carboxylic acid group may be replaced by a bioisotere as detailed herein.
The group Z
Z is spacer that connects Z to the side chain of the amino acid component of Ψ. At its most
general, Z is a spacer bound at one terminus by Y, which may be a nitrogen, oxygen or
sufhur atom, and at the other terminus by X, which may be a bond or an acyl (–CO–), sulfinyl
(–SO–), or sulfonyl (–SO –). Accordingly, Z may be a spacer of formula (--- indicate points of
attachment):
wherein:
Y may be –NH, –NR, –S or –O, where R may be alkyl, a protecting group or may form a link-
age to another part of the spacer, with the remaining valency forming a linkage to Z ;
X may be a bond, CO–, SO–, or SO –, with the remaining valency forming a linkage to the
side chain of the amino acid component of Ψ;
V is a bivalent organic moiety linking Y and X;
and n may be 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10. Where n is 2 or more, each Y, V, and X is inde-
pendent of every other Y, V, and X.
Accordingly, Z may be bound at each side by amide, sulfinamide, sulfonamide, or ester link-
ages or by amino, ether, or thioether linkages depending upon the nature of Y and X and the
corresponding linking groups on Z and the side chain. Preferably, when Y is –S, X is a bond.
Where n is 2 or greater, each V may also be bound to each adjacent V by linkages as de-
scribed. Preferably, linkages are amides, esters or sulfonamides, most preferably amides.
Accordingly, in some embodiments, each Y is –NH or –NR and each X is CO– or SO2–.
In some embodiments, Z is a spacer of formula –SA–, –SB–, –SA–SB– or –SB–SA–, wherein
S and S are as defined below.
2 2 1
In some embodiments, Z is selected from –S – or –S –S –, that is, [side chain]–Z Z is [side
A B A
chain]–SA–Z or [side chain]–SB–SA–Z .
The group S
S may be a single amino acid residue or a residue of an amino acid derivative, especially an
amino acid derivative residue having a sulfinyl or sulfonyl in place of the carboxy moiety at the
C terminus. Additionally or alternatively, the single amino acid residue may have an oxygen
or sulfur atom in place of the nitrogen atom at the N terminus. Preferably, SA is a single ami-
no acid residue.
In some embodiments, the amino acid may be selected from γ-Glu, α-Glu, α-Asp, β-Asp, Ala,
β-Ala (3-aminopropanoic acid), and Gaba (4-aminobutanoic acid). It will be understood that
amino acids may be D or L, or a racemic or enantioenriched mixture. In some embodiments,
the amino acid is an L-amino acid. In some embodiments, the amino acid is a D-amino acid.
In some preferred embodiments, SA has a carboxylic acid substituent, with γ-Glu, α-Glu, α-
Asp, and β-Asp, and sulfinyl and sulfonyl derivatives thereof, being preferred. Accordingly, in
some embodiments, the amino acid residue is:
where –X– is –CO–, –SO–, –SO –, preferably –CO–, and a is 1 or 2, preferably 2. In some
embodiments, the carboxylic acid is an ester, and the amino acid residue is:
where –X– is –CO–, –SO–, –SO2–, preferably –CO–, and a is 1 or 2, preferably 2, and R is
C1-4alkyl or C6aryl. Preferably R is C1-4alkyl, preferably methyl or ethyl, more preferably ethyl.
Preferably, S is γ-Glu.
The group S
SB may be a linker of general formula:
wherein PU is a polymeric unit and n is 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10. One terminus of the link-
er S is an –NH, –NR, –S or –O, wherein R may be alkyl, a protecting group or may form a
linkage to another part of the polymeric unit; while the other is a bond or CO–, SO– or SO – .
Accordingly, each polymeric unit P may be bound at each side by amide, sulfinamide, sul-
fonamide, or ester linkages or by amino, ether, or thioether linkages depending upon the na-
ture of Y and X and the corresponding linking groups on Z , S , and Lys.
In some embodiments, each P may be independently a unit of formula:
wherein:
Y may be –NH, –NR, –S or –O, wherein R may be alkyl, a protecting group or may form a
linkage to another part of the spacer, with the remaining valency forming a linkage to Z ;
X may be a bond, CO–, SO–, or SO2–, with the remaining valency forming a linkage to Lys;
and V is a bivalent organic moiety linking Y and X.
In some embodiments, V is the α-carbon of a natural or unnatural amino acid, that is V is –
AA AA
CHR –, wherein R is an amino acid side chain; or V is an optionally substituted
C alkylene, or V is a chain comprising one or more units of ethylene glycol in series, also
known as PEG chain, for example, –CH2CH2–(OCH2CH2)m–O–(CH2)p–, where m is 0, 1, 2, 3,
4, or 5, and p is 1, 2, 3, 4, or 5; when X is CO–, p is preferably 1, 3, 4, or 5. Optional alkylene
substituents include fluoro, methyl, hydroxy, hydroxymethy, and amino.
Preferred P units include:
(i). Single amino acid residues: PU ;
(ii). Dipeptide residues: PU ; and
(iii). Amino-(PEG) -carboxylic acid residues: P ,
and may be present in any combination or order. For example, S may comprise one or more
i ii iii i ii
of each of PU , PU , and PU in any order, or may comprise one or more units of PU , PU , and
iii i ii i iii ii iii
P only, or one of more units selected from P and P , P and P , or P and P .
U U U U U U U
(i). P single amino acid residues
Each PU may be independently selected from any natural or unnatural amino acid residue
and, for example, may be selected from Gly, Pro, Ala, Val, Leu, Ile, Met, Cys, Phe, Tyr, Trp,
His, Lys, Arg, Gln, Asn, α-Glu, γ-Glu, Asp, Ser Thr, Gaba, Aib, β-Ala, 5-aminopentanoyl, 6-
aminohexanoyl, 7-aminoheptanoyl, 8-aminooctanoyl, 9-aminononanoyl, and 10-
aminodecanoyl. Preferably, PU amino acid residues are selected from Gly, Ser, Ala, Thr, and
Cys, more preferably from Gly and Ser.
In some embodiments, SB is –(PU )n–, wherein n is 1 to 8, more preferably 5 to 7, most prefer-
ably 6. In some preferred embodiments, S is –(P ) –, n is 6 and each P is independently
B U n U
selected from Gly or Ser, with a preferred sequence being -Gly-Ser-Gly-Ser-Gly-Gly-.
(ii). PU dipeptide residues
Each PU may be independently selected from any dipeptide residue comprising two natural
or unnatural amino acid residues bound by an amide linkage. Preferred P dipeptide resi-
dues include Gly-Gly, Gly-Ser, Ser-Gly, Gly-Ala, Ala-Gly, and Ala-Ala, more preferably Gly-
Ser and Gly-Gly.
ii ii
In some embodiments, SB is –(PU )n–, wherein n is 2 to 4, more preferably 3, and each PU is
independently selected from Gly-Ser and Gly-Gly. In some preferred embodiments S is –
ii ii
(PU )n–, n is 3 and each PU is independently selected from Gly-Ser and Gly-Gly, with a pre-
ferred sequence being -(Gly-Ser)-(Gly-Ser)-(Gly-Gly).
i ii
Amino acids having stereogenic centres within PU and Pu may be racemic, enantioenriched,
or enantiopure. In some embodiments, the or each amino acid is independently an L-amino
acid. In some embodiments, the or each amino acid is independently a D-amino acid.
(iii). PU amino-(PEG) -carboxylic acid residues
Each PU may be independently a residue of general formula:
wherein m is 0, 1, 2, 3, 4, or 5, preferably 1 or 2, and p is 1, 3, 4, or 5, preferably 1.
In some embodiments, m is 1 and p is 1, that is, P is a residue of 8-amino-3,6-
dioxaoctanoic acid (also known as {2-[2-aminoethoxy]ethoxy}acetic acid and H2N-PEG3-
COOH). This residue is referred to herein as –PEG3–.
In some embodiments, m is 2 and p is 1, that is, P is a residue of 11-amino-3,6,9-
trioxaundecanoic acid (also known as H N-PEG -COOH). This residue is referred to herein
as –PEG –
In some embodiments, SB is –(PU )n–, wherein n is 1 to 3, more preferably 2.
In some preferred embodiments, SB is selected from –PEG3–PEG3– and –PEG4–PEG4–.
Preferred –Z –Z
It will be understood that the above preferences may be independently combined to give pre-
ferred –Z -Z combinations.
Some preferred –Z -Z combinations are shown below (in each case, --- indicates the point of
attachment to the side chain of the amino acid component of Ψ:
(i) [17-Carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3
(ii) [17-Carboxy-heptadecanoyl]-isoGlu
(iii) [13-Carboxy-tridecanoyl]-isoGlu-Peg3-Peg3
(iv) [Carboxyphenoxynonanoyl]-isoGlu-Peg3-Peg3
(v) [13-Carboxy-tridecanoyl]-isoGlu-Peg4-Peg4
(vi) [17-Carboxy-heptadecanoyl]-Peg3-Peg3-isoGlu
(vii) [17-Carboxy-heptadecanoyl]-isoGlu-GSGSGG
(viii) [17-Carboxy-heptadecanoyl]-AA-Peg3-Peg3
The presence of the polar group at the end of Z is believed to enhance the pharmacokinetic
properties of the compound, for example, by increasing half life and/or mean residence time,
and reducing clearance. The linker may also contribute to these pharmacokinetic properties.
Linkers comprising more than one amino acid unit (or moieties of similar size) may improve
pharmacokinetic properties compared to those consisting of just one amino acid unit or the
like. These properties may enable the compound to be administered less frequently than an
equivalent compound with the same peptide backbone but no modification or a different
modification (e.g. a substituent with an aliphatic fatty chain lacking a polar group and/or
having a shorter linker moiety).
Without wishing to be bound by any particular theory, the inventors have found that,
especially when longer linkers were included, the polar or charged group at the end of Z may
be capable of participating in an undesirable intra-molecular nteraction with the free N-
terminus of the molecule which might compromise the beneficial effects of the polar group on
pharmacokinetics. The peptide backbones of the compounds described herein are belived to
adopt relatively well-defined helical secondary structure, so the capacity of the polar group to
engage in such interactions may depend on its location within the molecule. When located
towards the C-terminus, interaction with the N-terminus may be relatively unlikely. However,
the inventors were surprised to find that the substituent could be located at residues 16 and
17 of the molecule without necessarily compromising the pharmacokinetic benefits obtained.
The term “conjugated” is used here to describe the physical attachment of one identifiable
chemical moiety to another, and the structural relationship between such moieties. It should
not be taken to imply any particular method of synthesis.
The skilled reader will be well aware of suitable techniques that can be used to perform the
coupling reactions using general synthetic methodologies listed e.g. in “Comprehensive
Organic Transformations, A Guide to Functional Group Preparations”, 2nd edition, Larock, R.
C.; Wiley-VCH: New York, 1999. Such transformations may take place at any suitable stage
during the synthesis process.
Peptide synthesis
The compounds of the present invention may be manufactured either by standard synthetic
methods, recombinant expression systems, or any other state of the art method. Thus the
glucagon analogues may be synthesized in a number of ways, including, for example, a
method which comprises:
(a) synthesizing the peptide by means of solid-phase or liquid-phase methodology, either
stepwise or by fragment assembly, and isolation and purifying of the final peptide product; or
(b) expressing a precursor peptide sequence from a nucleic acid construct that encodes the
precursor peptide, recovering the expression product, and modifying the precursor peptide to
yield a compound of the invention.
Expression is typically performed from a nucleic acid encoding the precursor peptide, which
may be perfomed in a cell or a cell-free expression system comprising such a nucleic acid.
It is preferred to synthesize the analogues of the invention by means of solid-phase or liquid-
phase peptide synthesis. In this context, reference is made to WO 98/11125 and, among
many others, Fields, GB et al., 2002, “Principles and practice of solid-phase peptide
synthesis”. In: Synthetic Peptides (2nd Edition), and the Examples herein.
For recombinant expression, the nucleic acid fragments encoding the precursor peptide will
normally be inserted in suitable vectors to form cloning or expression vectors. The vectors
can, depending on purpose and type of application, be in the form of plasmids, phages,
cosmids, mini-chromosomes, or virus, but also naked DNA which is only expressed
transiently in certain cells is an important vector. Preferred cloning and expression vectors
(plasmid vectors) are capable of autonomous replication, thereby enabling high copy-
numbers for the purposes of high-level expression or high-level replication for subsequent
cloning.
In general outline, an expression vector comprises the following features in the 5' →3'
direction and in operable linkage: a promoter for driving expression of the nucleic acid
fragment, optionally a nucleic acid sequence encoding a leader peptide enabling secretion (to
the extracellular phase or, where applicable, into the periplasma), the nucleic acid fragment
encoding the precursor peptide, and optionally a nucleic acid sequence encoding a
terminator. They may comprise additional features such as selectable markers and origins of
replication. When operating with expression vectors in producer strains or cell lines it may be
preferred that the vector is capable of integrating into the host cell genome. The skilled
person is very familiar with suitable vectors and is able to design one according to their
specific requirements.
The vectors described are used to transform host cells to produce the precursor peptide.
Such transformed cells can be cultured cells or cell lines used for propagation of the nucleic
acid fragments and vectors, and/or used for recombinant production of the precursor
peptides.
Preferred transformed cells are micro-organisms such as bacteria [such as the species
Escherichia (e.g. E. coli), Bacillus (e.g. Bacillus subtilis), Salmonella, or Mycobacterium
(preferably non-pathogenic, e.g. M. bovis BCG), yeasts (e.g., Saccharomyces cerevisiae and
Pichia pastoris), and protozoans. Alternatively, the transformed cells may be derived from a
multicellular organism, i.e. it may be fungal cell, an insect cell, an algal cell, a plant cell, or an
animal cell such as a mammalian cell. For the purposes of cloning and/or optimised
expression it is preferred that the transformed cell is capable of replicating the nucleic acid
fragment of the invention. Cells expressing the nucleic fragment can be used for small-scale
or large-scale preparation of the peptides of the invention.
When producing the precursor peptide by means of transformed cells, it is convenient,
although far from essential, that the expression product is secreted into the culture medium.
Efficacy
Binding of the relevant compounds to GLP-1 or glucagon (Glu) receptors may be used as an
indication of agonist activity, but in general it is preferred to use a biological assay which
measures intracellular signalling caused by binding of the compound to the relevant receptor.
For example, activation of the glucagon receptor by a glucagon agonist will stimulate cellular
cyclic AMP (cAMP) formation. Similarly, activation of the GLP-1 receptor by a GLP-1 agonist
will stimulate cellular cAMP formation. Thus, production of cAMP in suitable cells expressing
40 one of these two receptors can be used to monitor the relevant receptor activity. Use of a
suitable pair of cell types, each expressing one receptor but not the other, can hence be used
to determine agonist activity towards both types of receptor.
The skilled person will be aware of suitable assay formats, and examples are provided below.
The GLP-1 receptor and/or the glucagon receptor may have the sequence of the receptors as
described in the examples. For example, the assays may employ the human glucagon
receptor (Glucagon-R) having primary accession number GI:4503947 and/or the human
glucagon-like peptide 1 receptor (GLP-1R) having primary accession number GI:166795283.
(in that where sequences of precursor proteins are referred to, it should of course be
understood that assays may make use of the mature protein, lacking the signal sequence).
EC50 values may be used as a numerical measure of agonist potency at a given receptor. An
EC50 value is a measure of the concentration of a compound required to achieve half of that
compound’s maximal activity in a particular assay. Thus, for example, a compound having
EC [GLP-1] lower than the EC [GLP-1] of glucagon in a particular assay may be considered
50 50
to have higher GLP-1 receptor agonist potency than glucagon.
The compounds described in this specification are typically GluGLP-1 dual agonists, as
determined by the observation that they are capable of stimulating cAMP formation at both
the glucagon receptor and the GLP-1 receptor. The stimulation of each receptor can be
measured in independent assays and afterwards compared to each other.
By comparing the EC value for the GLP-1 receptor (EC [GLPR]) with the EC value for
50 50 50
the Glucagon receptor, (EC50 [GlucagonR]) for a given compound. the relative GLP-1R
selectivity can be calculated as follows:
Relative GLP-1R selectivity [compound] = (EC [GLP-1R]) / (EC [Glucagon-R])
50 50
The term “EC50” stands for the half maximal Effective Concentration, typically at a particular
receptor, or on the level of a particular marker for receptor function, and can refer to an
inhibitory or an antagonistic activity, depending on the specific biochemical context.
Without wishing to be bound by any particular theory, a compound’s relative selectivity may
allow its effect on the GLP-1 or glucagon receptor to be compared directly to its effect on the
other receptor. For example, the higher a compound’s relative GLP-1 selectivity is, the more
effective that compound may be on the GLP-1 receptor as compared to the glucagon
receptor. Typically the results are compared for glucagon and GLP-1 receptors from the
same species, e.g. human glucagon and GLP-1 receptors, or murine glucagon and GLP-1
receptors.
The compounds of the invention may have a higher relative GLP-1R selectivity than human
glucagon in that for a particular level of glucagon-R agonist activity, the compound may
display a higher level of GLP-1R agonist activity (i.e. greater potency at the GLP-1 receptor)
than glucagon. It will be understood that the absolute potency of a particular compound at the
glucagon and GLP-1 receptors may be higher, lower or approximately equal to that of native
human glucagon, as long as the appropriate relative GLP-1R selectivity is achieved.
Nevertheless, the compounds of this invention may have a lower EC50 [GLP-1R] than human
glucagon. The compounds may have a lower EC50[GLPR] than glucagon while
maintaining an EC [Glucagon-R] that is less than 10-fold higher than that of human
glucagon, less than 5-fold higher than that of human glucagon, or less than 2-fold higher than
that of human glucagon.
The compounds of the invention may have an EC [Glucagon-R] that is less than two-fold
that of human glucagon. The compounds may have an EC [Glucagon-R] that is less than
two-fold that of human glucagon and have an EC50 [GLP-1R] that is less than half that of
human glucagon, less than a fifth of that of human glucagon, or less than a tenth of that of
human glucagon.
The relative GLP-1R selectivity of the compounds may be between 0.05 and 20. For example,
the compounds may have a relative selectivity of 0.05-0.20, 0.1-0.30, 0.2-0.5, 0.3-0.7, or 0.5-
1.0; 1.0-2.0, 1.5-3.0, 2.0-4.0 or 2.5-5.0; or 0.05-20, 0.075-15, 0.1-10, 0.15-5, 0.75-2.5 or 0.9-
1.1.
In certain embodiments, it may be desirable that EC50 of any given compound for both the
Glucagon-R and GLP-1R, e.g. for the human glucagon and GLP-1 receptors, should be less
than 1 nM.
Therapeutic uses
The compounds of the invention may provide attractive treatment and/or prevention options
for, inter alia, obesity and metabolic diseases including diabetes, as discussed below.
Diabetes comprises a group of metabolic diseases characterized by hyperglycemia resulting
from defects in insulin secretion, insulin action, or both. Acute signs of diabetes include
excessive urine production, resulting compensatory thirst and increased fluid intake, blurred
vision, unexplained weight loss, lethargy, and changes in energy metabolism. The chronic
hyperglycemia of diabetes is associated with long-term damage, dysfunction, and failure of
various organs, notably the eyes, kidneys, nerves, heart and blood vessels. Diabetes is
classified into type 1 diabetes, type 2 diabetes and gestational diabetes on the basis on
40 pathogenetic characteristics.
Type 1 diabetes accounts for 5-10% of all diabetes cases and is caused by auto-immune
destruction of insulin-secreting pancreatic -cells.
Type 2 diabetes accounts for 90-95% of diabetes cases and is a result of a complex set of
metabolic disorders. Type 2 diabetes is the consequence of endogenous insulin production
becoming insufficient to maintain plasma glucose levels below the diagnostic thresholds.
Gestational diabetes refers to any degree of glucose intolerance identified during pregnancy.
Pre-diabetes includes impaired fasting glucose and impaired glucose tolerance and refers to
those states that occur when blood glucose levels are elevated but below the levels that are
established for the clinical diagnosis for diabetes.
A large proportion of people with type 2 diabetes and pre-diabetes are at increased risk of
morbidity and mortality due to the high prevalence of additional metabolic risk factors
including abdominal obesity (excessive fat tissue around the abdominal internal organs),
atherogenic dyslipidemia (blood fat disorders including high triglycerides, low HDL cholesterol
and/or high LDL cholesterol, which foster plaque buildup in artery walls), elevated blood
pressure (hypertension) a prothrombotic state (e.g. high fibrinogen or plasminogen activator
inhibitor–1 in the blood), and proinflammatory state (e.g., elevated C-reactive protein in the
blood).
Conversely, obesity confers an increased risk of developing pre-diabetes, type 2 diabetes as
well as e.g. certain types of cancer, obstructive sleep apnea and gall-blader disease.
Dyslipidaemia is associated with increased risk of cardiovascular diasese. High Density
Lipoprotein (HDL) is of clinical importance since an inverse correlation exists between plasma
HDL concentrations and risk of atherosclerotic disease. The majority of cholesterol stored in
atherosclerotic plaques originates from LDL and hence elevated concentrations Low Density
Lipoproteins (LDL) is closely associated with atherosclerosis. The HDL/LDL ratio is a clinical
risk indictor for atherosclerosis and coronary atherosclerosis in particular.
Metabolic syndrome is characterized by a group of metabolic risk factors in one person. They
include abdominal obesity (excessive fat tissue around the abdominal internal organs),
atherogenic dyslipidemia (blood fat disorders including high triglycerides, low HDL cholesterol
and/or high LDL cholesterol, which foster plaque buildup in artery walls), elevated blood
pressure (hypertension), insulin resistance and glucose intolerance, prothrombotic state (e.g.
high fibrinogen or plasminogen activator inhibitor–1 in the blood), and proinflammatory state
40 (e.g., elevated C-reactive protein in the blood).
Individuals with the metabolic syndrome are at increased risk of coronary heart disease and
other diseases related to other manifestations of arteriosclerosis (e.g., stroke and peripheral
vascular disease). The dominant underlying risk factors for this syndrome appear to be
abdominal obesity.
Without wishing to be bound by any particular theory, it is believed that the compounds of the
invention act as dual agonists both on the human glucagon-receptor and the human GLP1-
receptor, abbreviated here as dual GluGLP-1 agonists. The dual agonist may combine the
effect of glucagon, e.g. on fat metabolism, with the effect of GLP-1, e.g. on blood glucose
levels and food intake. They may therefore act to accelerate elimination of excessive adipose
tissue, induce sustainable weight loss, and improve glycaemic control. Dual GluGLP-1
agonists may also act to reduce cardiovascular risk factors such as high cholesterol, high
LDL-cholesterol or low HDL/LDL cholesterol ratios.
The compounds of the present invention can therefore be used in a subject in need thereof as
pharmaceutical agents for preventing weight gain, promoting weight loss, reducing excess
body weight or treating obesity (e.g. by control of appetite, feeding, food intake, calorie intake,
and/or energy expenditure), including morbid obesity, as well as associated diseases and
health conditions including but not limited to obesity linked inflammation, obesity linked
gallbladder disease and obesity induced sleep apnea. The compounds of the invention may
also be used for treatment of conditions caused by or associated with impaired glucose
control, including metabolic syndrome, insulin resistance, glucose intolerance, pre-diabetes,
increased fasting glucose, type 2 diabetes, hypertension, atherosclerois, arteriosclerosis,
coronary heart disease, peripheral artery disease and stroke, in a subject in need thereof.
Some of these conditions can be associated with obesity. However, the effects of the
compounds of the invention on these conditions may be mediated in whole or in part via an
effect on body weight, or may be independent thereof.
The synergistic effect of dual GluGLP-1 agonists may also result in reduction of
cardiovascular risk factors such as high cholesterol and LDL, which may be entirely
independent of their effect on body weight.
Thus described is the use of a compound of the invention in the treatment of a condition as
described above, in an individual in need thereof.
The invention also provides a compound of the invention for use in a method of medical
treatment, particularly for use in a method of treatment of a condition as described above.
In a preferred aspect, the compounds of the invention may be used in treating diabetes, esp.
type 2 diabetes.
In a specific embodiment, described is the use of a compound for treating diabetes, esp. type
2 diabetes in an individual in need thereof.
In a not less preferred aspect, the compounds of the invention may be used in preventing
weight gain or promoting weight loss.
Also described is the use of a compound of the invention for preventing weight gain or
promoting weight loss in an individual in need thereof.
Also described is the use of a compound of the invention in a method of treatment of a
condition caused or characterised by excess body weight, e.g. the treatment and/or
prevention of obesity, morbid obesity, morbid obesity prior to surgery, obesity linked
inflammation, obesity linked gallbladder disease, obesity induced sleep apnea, prediabetes,
diabetes, esp. type 2 diabetes, hypertension, atherogenic dyslipidimia, atherosclerois,
arteriosclerosis, coronary heart disease, peripheral artery disease, stroke or microvascular
disease in an individual in need thereof.
In another aspect, the compounds of the invention may be used in a method of lowering
circulating LDL levels, and/or increasing HDL/LDL ratio.
Also described is the use of a compound of the invention in a method of lowering circulating
LDL levels, and/or increasing HDL/LDL ratio in an individual in need thereof.
The compounds of the invention may also be used in a method of lowering circulating
triglyceride levels.
Pharmaceutical compositions
The compounds of the present invention may be formulated as pharmaceutical compositions
prepared for storage or administration. Such a composition typically comprises a
therapeutically effective amount of a compound of the invention, in the appropriate form, in a
pharmaceutically acceptable carrier.
The therapeutically effective amount of a compound of the present invention will depend on
the route of administration, the type of mammal being treated, and the physical characteristics
of the specific mammal under consideration. These factors and their relationship to
determining this amount are well known to skilled practitioners in the medical arts. This
40 amount and the method of administration can be tailored to achieve optimal efficacy, and may
depend on such factors as weight, diet, concurrent medication and other factors, well known
to those skilled in the medical arts. The dosage sizes and dosing regimen most appropriate
for human use may be guided by the results obtained by the present invention, and may be
confirmed in properly designed clinical trials. The compounds of the present invention may be
particularly useful for treatment of humans.
An effective dosage and treatment protocol may be determined by conventional means,
starting with a low dose in laboratory animals and then increasing the dosage while
monitoring the effects, and systematically varying the dosage regimen as well. Numerous
factors may be taken into consideration by a clinician when determining an optimal dosage for
a given subject. Such considerations are known to the skilled person.
The term “pharmaceutically acceptable carrier” includes any of the standard pharmaceutical
carriers. Pharmaceutically acceptable carriers for therapeutic use are well known in the
pharmaceutical art, and are described, for example, in Remington's Pharmaceutical Sciences,
Mack Publishing Co. (A. R. Gennaro edit. 1985). For example, sterile saline and phosphate-
buffered saline at slightly acidic or physiological pH may be used. pH buffering agents may
be phosphate, citrate, acetate, tris/hydroxymethyl)aminomethane (TRIS), N-
Tris(hydroxymethyl)methylaminopropanesulphonic acid (TAPS), ammonium bicarbonate,
diethanolamine, histidine, which is a preferred buffer, arginine, lysine, or acetate or mixtures
thereof. The term further encompases any agents listed in the US Pharmacopeia for use in
animals, including humans.
The term “pharmaceutically acceptable salt” refers to a salt of any one of the compounds of
the invention. Salts include pharmaceutically acceptable salts such as acid addition salts and
basic salts. Examples of acid addition salts include hydrochloride salts, citrate salts and
acetate salts. Examples of basic salts include salts where the cation is selected from alkali
metals, such as sodium and potassium, alkaline earth metals, such as calcium, and
+ 3 4 3 4
ammonium ions N(R )3(R ), where R and R independently designates optionally substituted
C -alkyl, optionally substituted C -alkenyl, optionally substituted aryl, or optionally
1-6 2-6
substituted heteroaryl. Other examples of pharmaceutically acceptable salts are described in
“Remington’s Pharmaceutical Sciences” ,17th edition. Ed. Alfonso R. Gennaro (Ed.), Mark
Publishing Company, Easton, PA, U.S.A., 1985 and more recent editions, and in the
Encyclopaedia of Pharmaceutical Technology.
"Treatment" is an approach for obtaining beneficial or desired clinical results. For the
purposes of this invention, beneficial or desired clinical results include, but are not limited to,
alleviation of symptoms, diminishment of extent of disease, stabilized (i.e., not worsening)
state of disease, delay or slowing of disease progression, amelioration or palliation of the
40 disease state, and remission (whether partial or total), whether detectable or undetectable.
"Treatment" can also mean prolonging survival as compared to expected survival if not
receiving treatment. "Treatment" is an intervention performed with the intention of preventing
the development or altering the pathology of a disorder. Accordingly, "treatment" refers to
both therapeutic treatment and prophylactic or preventative measures in certain
embodiments. Those in need of treatment include those already with the disorder as well as
those in which the disorder is to be prevented. By treatment is meant inhibiting or reducing
an increase in pathology or symptoms (e.g. weight gain, hyperglycemia) when compared to
the absence of treatment, and is not necessarily meant to imply complete cessation of the
relevant condition.
The pharmaceutical compositions can be in unit dosage form. In such form, the composition
is divided into unit doses containing appropriate quantities of the active component. The unit
dosage form can be a packaged preparation, the package containing discrete quantities of
the preparations, for example, packeted tablets, capsules, and powders in vials or ampoules.
The unit dosage form can also be a capsule, cachet, or tablet itself, or it can be the
appropriate number of any of these packaged forms. It may be provided in single dose
injectable form, for example in the form of a pen. In certain embodiments, packaged forms
include a label or insert with instructions for use. Compositions may be formulated for any
suitable route and means of administration. Pharmaceutically acceptable carriers or diluents
include those used in formulations suitable for oral, rectal, nasal, topical (including buccal and
sublingual), vaginal or parenteral (including subcutaneous, intramuscular, intravenous,
intradermal, and transdermal) administration. The formulations may conveniently be
presented in unit dosage form and may be prepared by any of the methods well known in the
art of pharmacy.
Subcutaneous or transdermal modes of administration may be particularly suitable for the
compounds described herein.
Compositions of the invention may further be compounded in, or attached to, for example
through covalent, hydrophobic and electrostatic interactions, a drug carrier, drug delivery
system and advanced drug delivery system in order to further enhance stability of the
compound, increase bioavailability, increase solubility, decrease adverse effects, achieve
chronotherapy well known to those skilled in the art, and increase patient compliance or any
combination thereof. Examples of carriers, drug delivery systems and advanced drug delivery
systems include, but are not limited to, polymers, for example cellulose and derivatives,
polysaccharides, for example dextran and derivatives, starch and derivatives, poly(vinyl
alcohol), acrylate and methacrylate polymers, polylactic and polyglycolic acid and block co-
polymers thereof, polyethylene glycols, carrier proteins, for example albumin, gels, for
example, thermogelling systems, for example block co-polymeric systems well known to
40 those skilled in the art, micelles, liposomes, microspheres, nanoparticulates, liquid crystals
and dispersions thereof, L2 phase and dispersions there of, well known to those skilled in the
art of phase behaviour in lipid-water systems, polymeric micelles, multiple emulsions, self-
emulsifying, self-microemulsifying, cyclodextrins and derivatives thereof, and dendrimers.
Combination therapy
A compound or composition of the invention may be administered as part of a combination
therapy with an agent for treatment of obesity, hypertension, dyslipidemia or diabetes.
In such cases, the two active agents may be given together or separately, and as part of the
same pharmaceutical formulation or as separate formulations.
Thus a compound or composition of the invention can further be used in combination with an
anti-obesity agent, including but not limited to a glucagon-like peptide receptor 1 agonist,
peptide YY or analogue thereof, cannabinoid receptor 1 antagonist, lipase inhibitor,
melanocortin receptor 4 agonist, melanin concentrating hormone receptor 1 antagonist,
phentermine (alone or in combination with topiramate), a combination of
norepinephrine/dopamine reuptake inhibitor and opioid receptor antagonist (e.g. a
combination of bupropion and naltrexone), or a serotonergic agent (e.g. lorcaserin).
A compound or composition of the invention can be used in combination with an anti-
hypertension agent, including but not limited to an angiotensin-converting enzyme inhibitor,
angiotensin II receptor blocker, diuretics, beta-blocker, or calcium channel blocker.
A compound or composition of the invention can be used in combination with a dyslipidaemia
agent, including but not limited to a statin, a fibrate, a niacin and/or a cholesterol absorbtion
inhibitor.
Further, a compound or composition of the invention can be used in combination with an anti-
diabetic agent, including but not limited to a biguanide (e.g. metformin), a sulfonylurea, a
meglitinide or glinide (e.g. nateglinide), a DPP-IV inhibitor, an SGLT2 inhibitor, a glitazone, a
different GLP-1 agonist, an insulin or an insulin analogue. In a preferred embodiment, the
compound or salt thereof is used in combination with insulin or an insulin analogue, DPP-IV
inhibitor, sulfonylurea or metformin, particularly sulfonylurea or metformin, for achieving
adequate glycemic control. Examples of insulin analogues include but are not limited to
Lantus, Novorapid, Humalog, Novomix, and Actraphane HM, Levemir and Apidra.
EXAMPLES
Example 1: General synthesis of glucagon analogues
Solid phase peptide synthesis (SPPS) was performed on a microwave assisted synthesizer
40 using standard Fmoc strategy in NMP on a polystyrene resin (TentaGel S Ram). HATU was
used as coupling reagent together with DIPEA as base. Piperidine (20% in NMP) was used
for deprotection. Pseudoprolines: Fmoc-Phe-Thr(psiMe,Mepro)-OH and Fmoc-Asp-
Ser(psiMe,Mepro)-OH (purchased from NovaBiochem) were used where applicable.
Abbreviations employed are as follows:
Boc: tert-butyloxycarbonyl
ivDde: 1-(4,4-dimethyl-2,6-dioxocyclohexylidene)3-methyl-butyl
Dde: 1-(4,4-dimethyl-2,6-dioxocyclohexylidene)-ethyl
DCM: dichloromethane
DMF: N,N-dimethylformamide
DIPEA: diisopropylethylamine
EDT: 1,2-ethanedithiol
EtOH: ethanol
Et O: diethyl ether
HATU: N-[(dimethylamino)-1H-1,2,3-triazol[4,5-b]pyridineylmethylene]-N-
methylmethanaminium hexafluorophosphate N-oxide
MeCN: acetonitrile
NMP: N-methylpyrrolidone
TFA: trifluoroacetic acid
TIS: triisopropylsilane
Cleavage:
The crude peptide was cleaved from the resin by treatment with 95/2.5/2.5 % (v/v) TFA/TIS/
water at room temperature (r.t.) for 2 hours. Most of the TFA was removed at reduced
pressure and the crude peptide was precipitated and washed with diethylether and allowed to
dry to constant weight at ambient temperature.
The following compounds were synthesised:
1 H-H-Aib-QGTFTSDYSKYLDS-K([15-carboxy-pentadecanoyl]-isoGlu)-AAHDFVEWLLSA-NH .
2 H-H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-RAAKDFIEWLESA-NH
3 H-H-Aib-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-WLESA-NH2
4 H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-RAKDFIEWLESA-NH
H-H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-RAAKDFIEWLESA-NH
6 H-H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-RAAKDFIEWLESA-NH
7 H-H-Ac4c-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-RAAKDFIEWLESA-NH2
8 H-H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-RAAHDFIEWLESA-NH2
9 H-H-Ac4c-HGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)-RAKDFIEWLESA-NH
H-H-Aib-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA-NH
11 H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA-NH2
12 H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-RAKDFIEWLESA-NH2
13 H-H-Ac4c-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-WLESA-NH
14 H-H-Ac4c-QGTFTSDYSKYLDERRAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-WLESA-NH
H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-A-NH2
16 H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-A-NH2
The acylated GLP-1 analogue semaglutide was also synthesised, and has the structure:
H-H-[2-methyl-Ala]-EGTFTSDVSSYLEGQAA-K([17-Carboxy-heptadecanoyl]-isoGlu-Peg3-
Peg3)-EFIAWLVRGRG-OH.
Example 2: Glucagon receptor and GLPreceptor efficacy assays
The cDNA encoding either the human glucagon receptor (Glucagon-R) (primary accession
number P47871) or the human glucagon-like peptide 1 receptor (GLP-1R) (primary accession
number P43220) were synthesized and cloned into a mammalian expression vector
containing a Zeocin resistance marker.
The mammalian expression vectors encoding the Glucagon-R or the GLPR were
transfected into Chinese hamster ovary (CHO) cells by the Attractene method method. Stably
expressing clones were obtained by Zeocin selection (250µg/mL) upon limited dilution of cells
resistant to the selection pressure. Glucagon-R and GLPR cell clones expressing were
picked, propagated and tested in the Glucagon-R and GLPR efficacy assays as described
below. One Glucagon-R expressing clone and one GLPR expressing clone were chosen
for compound profiling.
CHO cells expressing the human Glucagon-R, or human GLPR were seeded 24 hours
prior to the assay at 30,000 cells per well in 96-well microtiter plates in culture in 100 µl
growth medium. On the day of analysis, growth medium was removed and the cells were
washed once with 200 l of assay buffer (Krebs-Ringer- buffer – KRBH). The buffer was
removed and the cells were incubated for 15 min at room temperature in 10µl KRBH (KRBH +
10 mM HEPES, 5 mM NaHCO3, 0.1 % (V/V) BSA) with 0.1 mM IBMX in deionized water
containing increasing concentrations of test peptides.. The reaction was stopped by the
addition of lysis buffer (0.1 % w/v BSA, 5 mM HEPES, 0.3 % v/v Tween-20). After cell lysis for
10min at room temperature, lysates were transferred to 384-well plates and 10µl of
acceptor/donorbead mixture as contained in the AlphaScreen cAMP Functional Assay Kit
was added. After one hour of incubation at room temperature in the dark, the cAMP content
was determined applying the AlphaScreen cAMP Functional Assay Kit from Perkin-Elmer
according to manufacturer instructions. EC50 and relative efficacies compared to reference
compounds (glucagon and GLP-1) were calculated applying computer aided curve fitting..
The GLP-1/glucagon ratio is calculated as defined earlier. See Table 1.
Compound EC50 EC50 Ratio
hGCGR hGLP-1R GLP-1/
CHO-K1 [nM] CHO-K1 [nM] Glucagon
1 0.21 nM 0.38 nM 1.81
2 0.13 nM 1.76 nM 13.54
3 1.48 nM 0.70 nM 0.47
4 0.45 nM 0.70 nM 1.56
0.18 nM 0.83 nM 4.61
6 0.44 nM 1.43 nM 3.25
7 0.11 nM 0.97 nM 8.82
8 0.31 nM 0.80 nM 2.58
9 0.07 nM 0.97 nM 13.86
1.08 nM 0.41 nM 0.38
11 0.28 nM 0.56 nM 2.00
12 0.07 nM 0.48 nM 6.86
13 0.52 nM 0.33 nM 0.63
14 0.18 nM 0.60 nM 3.33
0.92 nM 0.61 nM 0.65
16 0.16 nM 0.53 nM 3.31
Table 1
Example 3: Agonistic activity on endogenous GLP-1 receptor
Agonistic activity of the test compounds on endogenous GLP-1 receptors was determined
using a murine insulinoma cell line. Intracellular cAMP was used an indicator of receptor
activation.
Cells were cultured for 24h at a density of 10,000 cells/well in a 384-well plate. Medium was
removed and 10 µL KRBH buffer (NaCl 130 mM, KCl 3.6 mM, NaH2PO4 0.5 mM, MgSO4 0.5
mM, CaCl2 1.5 mM) containing test compound or GLP-1 (at increasing concentrations from
0.1 pM to 100 nM) or solvent control (0.1% (v/v) DMSO) was added to the wells for 15
minutes at a temperature of 26°C.
The cellular cAMP content is measured using the AlphaScreen cAMP Functional Assay Kit
(Perkin Elmer). Measurement was performed using the Envision (PerkinElmer) according to
manufacturer’s recommendations.
Results were converted into cAMP concentrations using a cAMP standard curve prepared in
KRBH buffer containing 0.1% (v/v) DMSO. The resulting cAMP curves were plotted as
absolute cAMP concentrations (nM) over log (test compound concentration) and analyzed
using the curve fitting program XLfit.
Parameters calculated to describe both the potency as well as the agonistic activity of each
test compound on the endogenous GLP-1 receptors were:
pEC50 (negative logarithmic value of EC50, a concentration resulting in a half-maximal
elevation of cAMP levels, reflecting the potency of the test compound);
Percent control (%CTL)(% cAMP elevation for each test compound concentration normalized
based on the GLPinduced maximum cAMP response (100 %CTL)). See Table 2.
Compound EC50 [nM]
1 0.60 nM
2 0.69 nM
3 0.15 nM
4 0.40 nM
0.65 nM
6 0.54 nM
7 0.47 nM
8 0.36 nM
9 0.84 nM
0.60 nM
11 0.72 nM
12 0.81 nM
13 0.37 nM
14 0.38 nM
0.25 nM
16 0.34 nM
Table 2.
Example 4: Agonistic activity on endogenous glucagon receptor
Agonistic activity of the test compounds on endogenous glucagon receptor was deterimed by
measuring their effect on rate of glycogen synthesis in primary rat hepatocytes. Upon
activation of the glucagon receptor, an inhibition of the glycogen synthesis rate is expected.
Rate of glycogen synthesis was determined by counting the amount of radioactively labeled
glucose incorporated into the cellular glycogen stores in a defined period of time.
Primary rat hepatocytes were cultured at a density of 40,000 cells/well in a 24-well plate for
24 hours at 37°C and 5% CO2.
Medium was discarded and the cells washed with PBS. 180 µL of KRBH-based buffer
containing 0.1% BSA and glucose at a concentration of 22.5 mM was then added to the wells,
followed by test compound and 40 µCi/ml D-[U14C] glucose (20µL each). Incubation was
continued for 3 hours.
At the end of the incubation period, the incubation buffer was aspirated and cells washed
once with ice-cold PBS before lysis by incubation for 30 min at room temperature with 100 µL
1 mol/l NaOH.
Cell lysates were transferred to 96-well filter plates and glycogen precipitated by incubating
the filter-plates for 120 min at 4°C followed by washing the filter plates 4 times with ice-cold
ethanol (70%). The resulting precipitates were filtered to dryness and the amount of
incorporated C-glucose determined by using a Topcount scintillation counter according to
manufacturer’s recommendations.
Wells with vehicle controls (0.1% (v/v) DMSO in KRBH buffer) were included as reference for
non-inhibited glycogen synthesis (100 %CTL). Wells without added D-[U C] glucose were
included as controls for non-specific background signal (subtracted from all values).
Endogenous glucagon peptide was used as a positive control.
All treatments were performed at least in duplicates.
Parameters calculated to describe both the potency as well as the agonistic activity of each
test compound on the endogenous glucagon receptor are pEC50 and %CTL.
%CTL is determined by calculating the percentage of CPM/well in the presence of the test
compound compared to the CPM/well of the vehicle control after subtracting the background
CPM/well:
[CPM/well(basal) - CPM/well(sample)]* 100 / [CPM/well(basal) - CPM/well(control)]
An activator of the glucagon receptor will result in an inhibition of the glycogen synthesis rate
and will give %CTL values between 0%CTL (complete inhibition) and 100%CTL (no
observable inhibition).
The resulting activity curves were plotted as absolute counts (unit: cpm/sample) over log (test
compound concentration) and analyzed using the curve fitting program XLfit.
40 pEC50 (negative logarithmic value of EC50) reflects the potency of the test compound.
Compound EC50 [nM]
1 0.85 nM
2 0.11 nM
3 0.94 nM
4 1.79 nM
0.21 nM
6 0.80 nM
7 0.34 nM
8 0.29 nM
9 0.11 nM
1.53 nM
11 0.95 nM
12 0.45 nM
13 0.43 nM
14 0.19 nM
3.63 nM
16 0.19 nM
Table 3.
The terms EC50 and pEC50 quoted in relation to GLP-1R activation could equally be regarded
as IC50 and pIC50 in relation to glycogen synthesis.
Example 5: Estimate of pharmacokinetic parameters
Pharmacokinetic parameters of the test compounds were determined after intravenous
administration to Han/Wistar rats. The acylated GLP-1 analogue semaglutide was also tested
for comparison purposes.
Male Wistar rats were obtained from Charles River (Germany) weighing approximately 180 to
210 g at time of arrival at the test facility. Rats were caged in European standard rat cages
type IV with light cycle of 12-hour dark and 12-hour light. During the study rats were housed in
standard rat cages type III. Both diet Altromin 1324 (Altromin, Germany) and water was
administered ad libitum during the whole experimental period. The animals were housed in
the test facility for at least 4 days in order to assure proper acclimatization.
The compounds were first dissolved in 0.1% aqueous ammonia to a nominal concentration of
2 mg/ml, and then diluted to the desired dosing strength (10 µM) in sterile PBS containing 25
mM phosphate buffer, pH 7.4. Intravenous injections corresponding to 20 nmol/kg were given
via a lateral tail vein.
Blood samples (200 µl) were collected from the periorbital plexus at time points 0.08, 0.25,
0.5, 1, 2, 4, 8, 24, 32 and 48 h post dosing into K EDTA tubes and centrifuged for 5 minutes
at 4°C within 20 minutes of sampling. Plasma samples (>100 µl) were transferred to 96-well
PCR plates, immediately frozen and kept at -20°C until analysed for plasma concentration for
the respective GLPglucagon compound using LC-MS/MS. Individual plasma concentration-
time profiles were analysed by a non-compartmental approach using ToxKin version 3.2
(Unilog IT Services), and the resulting pharmacokinetic parameters were determined. See
Table 4.
Mean
Clearance Terminal
Compound Residence
(ml/min/kg) half life (h)
Time (h)
2 0.11 9.1 13.6
3 0.056 23.4 28.7
4 0.11 13.7 17.6
Semaglutide 0.10 9.0 11.4
Table 4.
Claims (57)
1. A compound having the formula: 1 1 2 2 R -P -P -R wherein 5 R is H, C1-4 alkyl, acetyl, formyl, benzoyl or trifluoroacetyl; R is OH or NH ; P is a peptide having the sequence: H-X2-X3-GTFTSDYSKYLDSΨAAHDFVEWLLSA wherein: X2 is selected from Aib, Ala, D-Ala, Ser, N-Me-Ser, Ac3c, Ac4c and Ac5c; X3 is selected from Gln and His; 15 P is absent or is a sequence of 1-20 amino acid units independently selected from the group consisting of Ala, Leu, Ser, Thr, Tyr, Cys, Glu, Lys, Arg, Dbu, Dpr and Orn; or a pharmaceutically acceptable salt or solvate thereof; Ψ is a residue of Lys, Arg, Orn or Cys in which the side chain is conjugated to a substituent 20 having the formula –Z -Z ; –Z is a fatty chain having a polar group at one end of the chain and a connection to Z , –X– at the end of the chain distal from the polar group, wherein the polar group comprises a carboxylic acid or a carboxylic acid bioisostere, a phos- 25 phonic acid, or a sulfonic acid group; and –X– is a bond, –CO–, –SO–, or –SO –; –Z – is a spacer of formula: wherein: 30 each Y is independently –NH, –NR, –S or –O, where R is alkyl, a protecting group or forms a linkage to another part of the spacer Z ; each X is independently a bond, CO–, SO–, or SO2–; with the proviso that when Y is –S, X is a bond; each V is independently a bivalent organic moiety linking Y and X; 35 and n is 1-10; or a pharmaceutically acceptable salt or solvate thereof.
2. A compound according to claim 1 wherein P has the sequence: 5 H-Aib-QGTFTSDYSKYLDSΨAAHDFVEWLLSA
3. A compound according to claim 2 which is: H-H-Aib-QGTFTSDYSKYLDSΨAAHDFVEWLLSA-NH2 10
4. A compound having the formula: 1 1 2 2 R -P -P -R wherein R is H, C1-4 alkyl, acetyl, formyl, benzoyl or trifluoroacetyl; R is OH or NH ; 15 P is a peptide having the sequence: His-X2-X3-GTFTSDYSKYL-X15-X16-X17-X18-A-X20-DFI-X24-WLE-X28-A wherein: 20 X2 is selected from Aib, Ac3c, Ac4c and Ac5c; X3 is selected from Gln and His; X15 is selected from Asp and Glu; X16 is selected from Glu and Ψ; X17 is selected from Arg and Ψ; 25 X18 is selected from Ala and Arg; X20 is selected from Lys and His; X24 is selected from Glu and Ψ; X28 is selected from Ser and Ψ; 30 and P is absent or is a sequence of 1-20 amino acid units independently selected from the group consisting of Ala, Leu, Ser, Thr, Tyr, Cys, Glu, Lys, Arg, Dbu, Dpr and Orn; wherein the compound contains one and only one Ψ 35 and wherein said Ψ is a residue of Lys, Arg, Orn or Cys in which the side chain is conjugated to a substituent having the formula –Z Z ; –Z is a fatty chain having a polar group at one end of the chain and a connection to Z , –X– at the end of the chain distal from the polar group, wherein the polar group comprises a carboxylic acid or a carboxylic acid bioisostere, a phos- phonic acid, or a sulfonic acid group; and –X– is a bond, –CO–, –SO–, or –SO –; –Z – is a spacer of formula: wherein: each Y is independently –NH, –NR, –S or –O, where R is alkyl, a protecting group or forms a linkage to another part of the spacer Z ; each X is independently a bond, CO–, SO–, or SO –; 10 with the proviso that when Y is –S, X is a bond; each V is independently a bivalent organic moiety linking Y and X; and n is 1-10; or a pharmaceutically acceptable salt or solvate thereof.
5. A compound according to claim 4 wherein: X2 is selected from Aib and Ac4c; X3 is Gln; X15 is selected from Asp and Glu; 20 X16 is Ψ; X17 is Arg; X18 is Ala; X20 is selected from Lys and His; X24 is Glu; 25 X28 is Ser.
6. A compound according to claim 4 or claim 5 wherein: X2 is Ac4c and X20 is Lys; X2 is Aib and X20 is His.
7. A compound according to any one of claims 4 to 6 wherein X2 is Aib if X15 is E; or X15 is D if X2 is Ac4c.
8. A compound according to any one of claims 4 to 7 wherein P has a sequence selected from: H-Aib-QGTFTSDYSKYLDΨRAAKDFIEWLESA H-Aib-QGTFTSDYSKYLEΨRAAKDFIEWLESA 5 H-Ac4c-QGTFTSDYSKYLDΨRAAKDFIEWLESA and H-Aib-QGTFTSDYSKYLEΨRAAHDFIEWLESA
9. A compound according to claim 8 which is selected from: H-H-Aib-QGTFTSDYSKYLDΨRAAKDFIEWLESA-NH2 10 H-H-Aib-QGTFTSDYSKYLEΨRAAKDFIEWLESA-NH H-H-Ac4c-QGTFTSDYSKYLDΨRAAKDFIEWLESA-NH and H-H-Aib-QGTFTSDYSKYLEΨRAAHDFIEWLESA-NH2
10. A compound according to claim 4 wherein: 15 X2 is selected from Aib and Ac4c; X3 is selected from Gln and His; X15 is Asp; X16 is Glu; X17 is selected from Arg and Ψ; 20 X18 is selected from Ala and Arg; X20 is Lys; X24 is selected from Glu and Ψ; X28 is selected from Ser and Ψ; 25
11. A compound according to claim 10 wherein, when X28 is Ψ, X2 is Ac4c.
12. A compound according to claim 10 wherein, when X3 is His, X2 is Ac4c and X17 is 30
13. A compound according to claim 10 wherein P has a sequence selected from: H-Aib-QGTFTSDYSKYLDEΨAAKDFIEWLESA H-Ac4c-QGTFTSDYSKYLDEΨRAKDFIEWLESA H-Ac4c-HGTFTSDYSKYLDEΨRAKDFIEWLESA H-Ac4c-QGTFTSDYSKYLDEΨAAKDFIEWLESA 35 H-Ac4c-QGTFTSDYSKYLDEΨRAKDFIEWLESA H-Aib-QGTFTSDYSKYLDERAAKDFIΨWLESA H-Ac4c-QGTFTSDYSKYLDERAAKDFIΨWLESA H-Ac4c-QGTFTSDYSKYLDERRAKDFIΨWLESA H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLEΨA and 40 H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLEΨA
14. A compound according to claim 13 which is selected from: H-H-Aib-QGTFTSDYSKYLDEΨAAKDFIEWLESA-NH H-H-Ac4c-QGTFTSDYSKYLDEΨRAKDFIEWLESA-NH2 5 H-H-Ac4c-HGTFTSDYSKYLDEΨRAKDFIEWLESA-NH2 H-H-Ac4c-QGTFTSDYSKYLDEΨAAKDFIEWLESA-NH H-H-Ac4c-QGTFTSDYSKYLDEΨRAKDFIEWLESA-NH H-H-Aib-QGTFTSDYSKYLDERAAKDFIΨWLESA-NH2 H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIΨWLESA-NH2 10 H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIΨWLESA-NH H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLEΨA-NH and H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLEΨA-NH2
15. A compound according to any one of claims 1 to 14 wherein –Z is an acyl group of 15 formula: A–B–Alk–(CO)– or a sulfonyl group of formula: A–B–Alk–(SO )–;
A is –COOH or a carboxylic acid bioisostere; 20 B is a bond, C6arylene, or C6arylene–O–; Alk is a saturated or unsaturated fatty chain of 6 to 18 carbon atoms in length, optionally sub- stituted with one or more substituents selected from fluoro, C alkyl, trifluoromethyl, hy- droxymethyl, amino, hydroxyl, C alkoxy, oxo, and carboxyl; –Z – is –SA–, –SA–SB–, or –SB–SA–; 25 –SA– is a single amino acid residue selected from γ-Glu, α-Glu, α-Asp, β-Asp, Ala, β-Ala (3- aminopropanoic acid), and Gaba (4-aminobutanoic acid); –S – is a linker of general formula: i iii wherein n is 1–10 and each P is independently selected from P and P ; U U U 30 each P is independently a natural or unnatural amino acid residue; and each PU is independently a residue of general formula: wherein m is 0–5 and p is 1, 3, 4, or 5. 5 16. A compound according to any one of claims 1 to 14 wherein Z -Z is selected from: (i) [17-Carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3; (ii) [17-Carboxy-heptadecanoyl]-isoGlu (iii) [13-Carboxy-tridecanoyl]-isoGlu-Peg3-Peg3; (iv) [Carboxyphenoxynonanoyl]-isoGlu-Peg3-Peg3; 10 (v) [13-Carboxy-tridecanoyl]-isoGlu-Peg4-Peg4; (vi) [17-Carboxy-heptadecanoyl]-Peg3-Peg3-isoGlu; (vii) [17-Carboxy-heptadecanoyl]-isoGlu-GSGSGG; and (viii) [17-Carboxy-heptadecanoyl]-AA-Peg3-Peg3. 15
17. A compound according to claim 1 wherein P1 has the sequence: H-Aib-QGTFTSDYSKYLDS-K([15-carboxy-pentadecanoyl]-isoGlu)-AAHDFVEWLLSA.
18. A compound according to claim 17 which is: H-H-Aib-QGTFTSDYSKYLDS-K([15-carboxy-pentadecanoyl]-isoGlu)-AAHDFVEWLLSA-NH .
19. A compound according to any one of claims 4 to 7 wherein Z -Z is [17-carboxy- heptadecanoyl]-isoGlu-Peg3-Peg3 or [17-carboxy-heptadecanoyl]-isoGlu-GSGSGG.
20. A compound according to claim 10 or claim 12 wherein, when X17 is Ψ, Z Z is [17- 25 carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3 or [17-Carboxy-heptadecanoyl]-isoGlu.
21. A compound according to claim 10 or claim 11 wherein, when X24 or X28 is Ψ, Z Z is [17-carboxy-heptadecanoyl]-isoGlu-GSGSGG. 30
22. A compound according to claim 8 wherein P has a sequence selected from: H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- RAAKDFIEWLESA H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- RAAKDFIEWLESA 5 H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- RAAKDFIEWLESA H-Ac4c-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- RAAKDFIEWLESA and H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- 10 RAAHDFIEWLESA
23. A compound according to claim 22 which is selected from: H-H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- RAAKDFIEWLESA-NH 15 H-H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- RAAKDFIEWLESA-NH2 H-H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- RAAKDFIEWLESA-NH H-H-Ac4c-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- 20 RAAKDFIEWLESA-NH2 and H-H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- RAAHDFIEWLESA-NH2
24. A compound according to claim 13 wherein P has a sequence selected from: 25 H-Aib-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- RAKDFIEWLESA H-Ac4c-HGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- RAKDFIEWLESA 30 H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-RAKDFIEWLESA H-Aib- QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)-WLESA H-Ac4c-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- WLESA 35 H-Ac4c-QGTFTSDYSKYLDERRAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- WLESA H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu- GSGSGG)-A and H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu- 40 GSGSGG)-A-NH2
25. A compound according to claim 24 which is selected from: H-H-Aib-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA-NH H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- 5 RAKDFIEWLESA-NH2 H-H-Ac4c-HGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- RAKDFIEWLESA-NH H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-AAKDFIEWLESA-NH2 H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu)-RAKDFIEWLESA- 10 NH H-H-Aib-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- WLESA-NH2 H-H-Ac4c-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- WLESA-NH 15 H-H-Ac4c-QGTFTSDYSKYLDERRAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- WLESA-NH2 H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu- GSGSGG)-A-NH and H-H-Ac4c-QGTFTSDYSKYLDERRAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu- 20 GSGSGG)-A-NH2.
26. A compound which is: H-H-Aib-QGTFTSDYSKYLD-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- RAAKDFIEWLESA-NH2.
27. A compound which is: H-H-Aib-QGTFTSDYSKYLE-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- RAAKDFIEWLESA-NH2. 30
28. A compound which is: H-H-Ac4c-QGTFTSDYSKYLDE-K([17-carboxy-heptadecanoyl]-isoGlu-Peg3-Peg3)- RAKDFIEWLESA-NH2.
29. A compound which is: 35 H-H-Aib-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- WLESA-NH2.
30. A compound which is: H-H-Ac4c-QGTFTSDYSKYLDERAAKDFI-K([17-carboxy-heptadecanoyl]-isoGlu-GSGSGG)- 40 WLESA-NH2.
31. A compound which is: H-H-Ac4c-QGTFTSDYSKYLDERAAKDFIEWLE-K([17-carboxy-heptadecanoyl]-isoGlu- GSGSGG)-A-NH2.
32. A pharmaceutically acceptable salt of the compound according to any one of claims 26 to 31.
33. A composition comprising a compound according to any one of claims 1 to 31 in 10 admixture with a carrier.
34. A composition according to claim 33 wherein the composition is a pharmaceutical composition, and the carrier is a pharmaceutically acceptable carrier. 15
35. Use of a compound according to any one of claims 1 to 31 in the manufacture of a medicament.
36. Use of a compound according to any one of claims 1 to 31 in the manufacture of a medicament for use in a therapeutic method of preventing weight gain or promoting weight 20 loss in an individual in need thereof.
37. Use of a compound according to any one of claims 1 to 31 in the manufacture of a medicament for use in a method of lowering circulating LDL levels, and/or increasing HDL/LDL ratio in an individual in need thereof.
38. Use of a compound according to any one of claims 1 to 31 in the manufacture of a medicament for use in a method of treatment of a condition caused or characterised by excess body weight. 30
39. Use of a compound according to any one of claims 1 to 31 in the manufacture of a medicament for use in a method of prevention or treatment of obesity, morbid obesity, morbid obesity prior to surgery, obesity linked inflammation, obesity linked gallbladder disease, obesity induced sleep apnea, diabetes, metabolic syndrome, hypertension, atherogenic dyslipidimia, atherosclerois, arteriosclerosis, coronary heart disease, peripheral artery 35 disease, stroke or microvascular disease.
40. Use of a compound according to any one of claims 35 to 39 wherein the medicament further comprises an agent for treatment of diabetes, obesity, dyslipidemia or hypertension.
41. Use of a compound according to any one of claims 35 to 39 wherein the medicament is to be administered, or is in a form for administration as part of a combination therapy with an agent for treatment of diabetes, obesity, dyslipidemia or hypertension. 5
42. Use of a compound according to claim 40 or 41 wherein the agent for treatment of diabetes is a biguanide (e.g. metformin), a sulfonylurea, a meglitinide or glinide (e.g. nateglinide), a DPP-IV inhibitor, an SGLT2 inhibitor, a glitazone, a different GLP-1 agonist, an insulin or an insulin analogue. 10
43. Use of a compound according to claim 40 or 41, wherein the agent for treatment of obesity is a glucagon-like peptide receptor 1 agonist, peptide YY receptor agonist or analogue thereof, cannabinoid receptor 1 antagonist, lipase inhibitor, melanocortin receptor 4 agonist, melanin concentrating hormone receptor 1 antagonist, phentermine, a combination of norepinephrine/dopamine reuptake inhibitor and opioid receptor antagonist (e.g. a 15 combination of phentermine and topiramate), a combination of bupropion and naltrexone, or a serotonergic agent.
44. Use of a compound according to claim 40 or 41 wherein the agent for treatment of hypertension is an angiotensin-converting enzyme inhibitor, angiotensin II receptor blocker, 20 diuretic, beta-blocker, or calcium channel blocker.
45. Use of a compound according to claim 40 or 41 wherein the agent for treatment of dyslipidaemia is a statin, a fibrate, a niacin and/or a cholesterol absorbtion inhibitor. 25
46. A therapeutic kit comprising a compound according to any of claims 1 to 31 or a composition according to claim 33 or 34.
47. A method of synthesis of a compound according to any one of claims 1 to 31 by solid phase or liquid phase peptide synthesis.
48. An in vitro method of producing a compound according to any one of claims 1 to 31, the method comprising expressing a precursor peptide sequence from a nucleic acid construct that encodes the precursor peptide, recovering the expression product, and modifying the precursor peptide to yield a compound according to any one of claims 1 to 31.
49. A method according to claim 48 comprising modifying the precursor peptide to introduce the substituent at residue Ψ.
50. A compound according to any one of claims 1 to 31 for use in a method of medical 40 treatment.
51. A compound as claimed in any one of claims 1 to 31 and 50, substantially as herein described with reference to any example thereof. 5
52. A pharmaceutically acceptable salt as claimed in claim 32, substantially as herein described with reference to any example thereof.
53. A composition as claimed in claim 33 or 34, substantially as herein described with reference to any example thereof.
54. Use as claimed in any one of claims 35 to 45, substantially as herein described with reference to any example thereof.
55. A therapeutic kit as claimed in claim 46, substantially as herein described with 15 reference to any example thereof.
56. A method of synthesis as claimed in claim 47, substantially as herein described with reference to any example thereof. 20
57. An in vitro method as claimed in claim 48 or 49, substantially as herein described with reference to any example thereof.
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US201361892256P | 2013-10-17 | 2013-10-17 | |
| US61/892,256 | 2013-10-17 | ||
| PCT/EP2014/072293 WO2015055801A1 (en) | 2013-10-17 | 2014-10-17 | Acylated glucagon analogues |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| NZ718490A NZ718490A (en) | 2020-10-30 |
| NZ718490B2 true NZ718490B2 (en) | 2021-02-02 |
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