NZ616268B2 - Process for preparing vaccine composition - Google Patents
Process for preparing vaccine composition Download PDFInfo
- Publication number
- NZ616268B2 NZ616268B2 NZ616268A NZ61626812A NZ616268B2 NZ 616268 B2 NZ616268 B2 NZ 616268B2 NZ 616268 A NZ616268 A NZ 616268A NZ 61626812 A NZ61626812 A NZ 61626812A NZ 616268 B2 NZ616268 B2 NZ 616268B2
- Authority
- NZ
- New Zealand
- Prior art keywords
- pollen
- solution
- composition
- antigens
- amino acid
- Prior art date
Links
- 239000000203 mixture Substances 0.000 title claims abstract description 56
- 229960005486 vaccine Drugs 0.000 title description 11
- 238000004519 manufacturing process Methods 0.000 title description 6
- 102000036639 antigens Human genes 0.000 claims abstract description 74
- 108091007433 antigens Proteins 0.000 claims abstract description 74
- 239000000427 antigen Substances 0.000 claims abstract description 73
- 238000000034 method Methods 0.000 claims abstract description 50
- 150000001413 amino acids Chemical class 0.000 claims abstract description 37
- 238000009295 crossflow filtration Methods 0.000 claims abstract description 24
- 239000002156 adsorbate Substances 0.000 claims abstract description 19
- 238000002156 mixing Methods 0.000 claims abstract description 13
- 230000003472 neutralizing effect Effects 0.000 claims abstract description 13
- 239000011260 aqueous acid Substances 0.000 claims abstract description 10
- 239000000872 buffer Substances 0.000 claims abstract description 10
- 239000000243 solution Substances 0.000 claims description 59
- OUYCCCASQSFEME-QMMMGPOBSA-N L-tyrosine Chemical compound OC(=O)[C@@H](N)CC1=CC=C(O)C=C1 OUYCCCASQSFEME-QMMMGPOBSA-N 0.000 claims description 25
- SXRSQZLOMIGNAQ-UHFFFAOYSA-N Glutaraldehyde Chemical group O=CCCCC=O SXRSQZLOMIGNAQ-UHFFFAOYSA-N 0.000 claims description 24
- OUYCCCASQSFEME-UHFFFAOYSA-N tyrosine Natural products OC(=O)C(N)CC1=CC=C(O)C=C1 OUYCCCASQSFEME-UHFFFAOYSA-N 0.000 claims description 23
- HEMHJVSKTPXQMS-UHFFFAOYSA-M Sodium hydroxide Chemical compound [OH-].[Na+] HEMHJVSKTPXQMS-UHFFFAOYSA-M 0.000 claims description 15
- 238000001914 filtration Methods 0.000 claims description 14
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- DGLRDKLJZLEJCY-UHFFFAOYSA-L disodium hydrogenphosphate dodecahydrate Chemical compound O.O.O.O.O.O.O.O.O.O.O.O.[Na+].[Na+].OP([O-])([O-])=O DGLRDKLJZLEJCY-UHFFFAOYSA-L 0.000 description 4
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/555—Medicinal preparations containing antigens or antibodies characterised by a specific combination antigen/adjuvant
- A61K2039/55511—Organic adjuvants
- A61K2039/55572—Lipopolysaccharides; Lipid A; Monophosphoryl lipid A
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/60—Medicinal preparations containing antigens or antibodies characteristics by the carrier linked to the antigen
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K2039/62—Medicinal preparations containing antigens or antibodies characterised by the link between antigen and carrier
- A61K2039/622—Medicinal preparations containing antigens or antibodies characterised by the link between antigen and carrier non-covalent binding
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K39/35—Allergens
- A61K39/36—Allergens from pollen
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/14—Particulate form, e.g. powders, Processes for size reducing of pure drugs or the resulting products, Pure drug nanoparticles
- A61K9/141—Intimate drug-carrier mixtures characterised by the carrier, e.g. ordered mixtures, adsorbates, solid solutions, eutectica, co-dried, co-solubilised, co-kneaded, co-milled, co-ground products, co-precipitates, co-evaporates, co-extrudates, co-melts; Drug nanoparticles with adsorbed surface modifiers
- A61K9/145—Intimate drug-carrier mixtures characterised by the carrier, e.g. ordered mixtures, adsorbates, solid solutions, eutectica, co-dried, co-solubilised, co-kneaded, co-milled, co-ground products, co-precipitates, co-evaporates, co-extrudates, co-melts; Drug nanoparticles with adsorbed surface modifiers with organic compounds
Abstract
Discloses a method of preparing a composition comprising one or more antigens adsorbed to an amino acid wherein said method comprises: (i) mixing a solution of one or more antigens with a solution of the amino acid in an aqueous acid whilst neutralising the mixture of solutions, thereby forming an adsorbate comprising the one or more antigens and the amino acid; (ii) separating the adsorbate into a buffer by cross-flow filtration thereby forming said composition; and (iii) recovering said composition; wherein steps (i) to (iii) are performed in a sterile environment and within a closed system. dsorbate comprising the one or more antigens and the amino acid; (ii) separating the adsorbate into a buffer by cross-flow filtration thereby forming said composition; and (iii) recovering said composition; wherein steps (i) to (iii) are performed in a sterile environment and within a closed system.
Description
Process for preparing e composition
Field of the ion
The present invention relates to a method for the manufacture of a sterile composition
comprising a modified antigen bound to an amino acid.
Background to the Invention
Vaccination is the best known and most successful application of immunological
principles to human health. To be introduced and approved, a vaccine must be
effective and the efficacy of all vaccines is reviewed from time to time. An effective
vaccine must: induce the desired immune response; be stable on storage; and have
sufficient immunogenicity. With non-living vaccines, in particular it is often
necessary to control the release of the n following administration.
The binding of an antigen to a suspended amino acid has been shown to result in the
slow release of the antigen following administration, thereby increasing safety whilst
optimising efficacy by prolonging exposure. However, the cture of
formulations comprising such antigens is problematic since the adsorption of the
antigen to the amino acid results in red chemical by products that need to be
removed. Furthermore, the process must be performed under sterile conditions. As
the final product is a suspension it cannot be sterilised by filtration and as the active
component is biological it cannot be heat sterilised. Accordingly, sterile sions
are often manufactured by centrifugation within an aseptic suite.
US patent 4,070,455 bes finely divided micro-particles of tyrosine having a
glutaraldehyde treated en dispersed therein. The micro-particles are prepared by
mixing a solution of tyrosine in a strong aqueous acid with a solution of
glutaraldehyde treated ragweed pollen and then neutralising the ant solution.
The micro-fine particles of ne containing the ed allergen are removed by
centrifugation.
VIA510153NZPR
303955534
It is an object of the present invention to provide a method for preparing a
composition comprising one or more antigens adsorbed to an amino acid which
mes or ameliorates at least one of the disadvantages of the prior art and/or
to at least provide the public with a useful choice.
153NZPR
303955534
Due to the closed nature and ability to steam sterilise it is possible to site the hardware
outside the aseptic suite (though still within controlled production areas). Therefore
the present invention has ct advantages over existing production methods. The
method of the ion substantially reduces exposure of the antigen product to the
environment by having a closed aseptic system. The method also reduces the need for
physical intervention, de-risking the method both from error and microbial
conternination.
According to a first aspect of the present ion there is provided a method of
preparing a composition sing one or more antigens adsorbed to an amino acid
wherein said method comprises:
(i) mixing a solution of one or more antigens with a solution of the amino acid
in an aqueous acid whilst neutralising the mixture of solutions, thereby
forming an adsorbate comprising the one or more antigens and the amino acid;
(ii) separating the ate into a buffer by cross-flow filtration thereby
g said composition; and
(iii) recovering said composition;
wherein steps (i) to (iii) are performed in a e environment and within a closed
system.
Preferably the amino acid is a sparingly soluble amino acid.
Preferably the amino acid is tyrosine, tryptophan or a derivative thereof. More
preferably, the amino acid is tyrosine.
ably, the one or more antigens are ed with glutaraldehyde.
In a particularly preferred embodiment, the one or more antigens are derived from
pollen, mite, moulds, bacteria or viruses.
η one embodiment, the method comprises preparing a composition comprising one or
more pollen antigens modified with aldehyde and adsorbed to tyrosine
comprising:
(i) modifying one or more pollen antigens with glutaraldehyde;
(ii) ng excess glutaraldehyde using cross-flow filtration to form a
modified pollen solution;
(iii) mixing the modified pollen solution with a solution of the tyrosine in an
aqueous acid whilst neutralising the e of solutions, thereby forming an
adsorbate comprising the modified pollen and the tyrosine;
(iv) separating the adsorbate into a buffer by cross-flow filtration thereby
g said composition; and
(v) recovering said composition;
wherein steps (iii) to (v) are performed in a sterile environment and within a closed
system. Preferably steps (iii) to (v) are performed in an EU GMP Grade 'C'/ISO
Class 7 environment. ably steps (i) and (ii) are performed in within an EU
GMP Grade 'B7ISO Class 5 environment.
In another embodiment, the method comprises preparing a composition comprising
one or more pollen antigens modified with glutaraldehyde and adsorbed to tyrosine
wherein said method comprises:
(i) extracting the one or more pollen antigens into solution to form a pollen
extract solution;
(ii) ing the pollen extract solution to remove solids;
(iii) ming cross-flow filtration and isolating the retentate comprising the
pollen antigen;
(iv) modifying the one or more pollen ns with glutaraldehyde;
(v) removing excess glutaraldehyde using cross-flow tion to form a
modified pollen solution;
(vi) sterile filtering the modified pollen solution;
(vii) mixing the modified pollen solution with a solution of tyrosine in an
aqueous acid whilst neutralising the mixture of solutions, thereby forming an
adsorbate sing the modified pollen and the tyrosine;
(viii) ting the adsorbate into a buffer by cross-flow filtration thereby
forming said ition; and
(ix) recovering said composition
wherein steps (vii) to (ix) are performed in a sterile nment and within a closed
system. Preferably steps (vii) to (ix) are performed in an EU GMP Grade 'C7ISO
Class 7 environment. Preferably steps (i) to (vi) are performed in within an EU GMP
Grade 'B7ISO Class 5 nment.
The pollen antigen may be, but is not limited to, Bent pollen, Foxtail pollen, Sweet
vernal pollen, False oat pollen, Brome pollen, Crested dogstail pollen, Cocksfoot
pollen, Fescue , Yorkshire fog pollen, Rye grass pollen, Timothy pollen,
Meadow pollen and Cultivated rye pollen.
ably, the one or more antigens consist of bent pollen, Foxtail pollen, Sweet
vernal pollen, False oat pollen, Brome pollen, Crested dogstail pollen, Cocksfoot
pollen, Fescue , ire fog pollen, Rye grass pollen, Timothy pollen,
Meadow pollen and Cultivated rye pollen.
ably the pollen extract solution is ed using a 0.2μ pore size filter;
Put another way, the composition preferably comprises all of the pollens in the group
consisting of Bent pollen, Foxtail pollen, Sweet vernal pollen, False oat pollen, Brome
pollen, Crested dogstail pollen, Cocksfoot pollen, Fescue pollen, Yorkshire fog
pollen, Rye grass pollen, Timothy pollen, Meadow pollen and Cultivated rye pollen.
Preferably the pollen is extracted into a phenolic buffered saline solution, preferably
at pH 6.5 (preferably containing Sodium Chloride, Potassium Di-Hydrogen
Phosphate, Disodium Phosphate Dodecahydrate, 80% w/w Liquified Phenol and
Water for Injections at about 2 to about 8°C, more preferably about 5°C.
Preferably the extraction is performed for about 12-30 hours, more preferably about
14 to about 24 hours, more preferably still for about 18 hours.
Preferably the cross-flow tion used to isolate the retentate and/or to remove
excess glutaraldehyde as described herein is med using a membrane of 5-10kDa
molecular weight cut off. More preferably the membrane has a lOkDa molecular
weight cut off.
Preferably the cross-flow filtration used to separate the adsorbate is performed using a
poly-sintered stainless steel filter, more preferably a 5 μηι poly-sintered stainless steel
filter, preferably with pressure between 1.1-1.3 bar.
The adsorbate comprising the antigen and the amino acid is formed by mixing the
antigen with the amino acid in a strong acid, preferably an inorganic acid, preferable
hydrochloric acid (HC1), whilst neutralising the mixture, preferably with NaOH. By
neutralisation is meant an adjustment of pH to a value within the range 6.5 to 7.5,
preferably 6.8 to 7.2. It is ble that, at no time, or at least no prolonged time,
during the neutralisation does the pH move from equilibrium i.e., move outside the
pH range 6.5 to 7.5 or more ably e the pH range 6.8 to 7.2.
Preferably the strong acid is HC1 having a molarity of about 3.5M to about 4.5M,
preferably about 3.8M. Preferably the NaOH has a molarity of about 3 to about 3.5,
preferably about 3.2M.
Preferably the composition is a vaccine composition.
η a preferred embodiment, the composition is for use as a vaccine and the antigen is
one useful in such a vaccine.
In s embodiments, an adjuvant may be added to the composition., such as MPL,
3-DMPL or a derivative or salt thereof.
According to another aspect of the present invention there is ed a composition
prepared by the method of the invention.
Detailed description
Various preferred features and embodiments of the present invention will now be
described by way of non-limiting examples.
The practice of the present invention will employ, unless otherwise indicated,
conventional techniques of chemistry, molecular y, microbiology, recombinant
DNA and immunology, which are within the capabilities of a person of ry skill
in the art. Such techniques are explained in the literature. See, for example, J.
Sambrook, E. F. Fritsch, and T. Maniatis, 1989, lar Cloning: A Laboratory
Manual, Second Edition, Books 1-3, Cold Spring Harbor Laboratory Press; Ausubel,
F. M. et al. (1995 and periodic supplements; Current Protocols in Molecular y,
ch. 9, 13, and 16, John Wiley & Sons, New York, N.Y.); B. Roe, J. Crabtree, and A.
Kahn, 1996, DNA Isolation and Sequencing: Essential ques, John Wiley &
Sons; J. M. Polak and James O'D. McGee, 1990, In Situ Hybridization: Principles
and Practice; Oxford University Press; M. J. Gait (Editor), 1984, ucleotide
Synthesis: A Practical Approach, Irl Press; D. M. J. Lilley and J. E. Dahlberg, 1992,
Methods of Enzymology: DNA Structure Part A: Synthesis and Physical Analysis of
DNA Methods in Enzymology, Academic Press; and E. M. Shevach and W. Strober,
1992 and periodic supplements, Current Protocols in Immunology, John Wiley &
Sons, New York, NY. Each of these l texts is herein incorporated by reference.
Antigen
The term "antigen" is used to indicate any molecule that can be specifically
recognised by the ve elements of the immune response, i.e. by B cells or T cells,
or both.
The antigen used in the present invention is preferably an immunogen, i.e. an antigen
which tes immune cells to generate an immune se against itself.
The n may be obtained by recombinant means or peptide synthesis, or from
natural sources or extracts and may be derived from any living or non-living
organisms.
The antigen may be derived from bacteria, such as, for example anthrax,
Campylobacter, cholera, diphtheria, enterotoxigenic E. coli, giardia, gonococcus,
Helicobacter pylori, Hemophilus influenza B, Hemophilus influenza non-typable,
meningococcus, pertussis, pneumococcus, salmonella, shigella, Streptococcus B,
group A Streptococcus, tetanus, Vibrio ae, yersinia, lococcus,
Pseudomonas species and Clostridia species.
Alternatively, the antigen may be derived from viruses, such as, for e
adenovirus, dengue serotypes 1 to 4, ebola (Jahrling et al., Arch Virol Suppl, 11:135-
140, 1996), enterovirus, hepatitis serotypes A to E (Blum, Digestion 56:85-95, 1995;
, Med Clin North Am 80:189-200, 1996; Lieberman and Greenberg, Adv
Pediatr Infect Dis -3631996; Mast et al., Annu Rev Med 47:257-266, 1996)
herpes simplex virus 1 or 2, human immunodeficiency virus (Deprez et al., Vaccine
14:375-382, 1996), influenza, Japanese equine alitis, measles, Norwalk,
papilloma virus, parvovirus B19, polio, rabies, rotavirus, rubella, rubeola, vaccinia,
vaccinia constructs containing genes coding for other antigens such as malaria
ns, varicella, and yellow fever. Parasites include, for example: Entamoeba
histolytica (Zhang et al., Infect Immun 63:1349-1355); Plasmodium (Bathurst et al.,
Vaccine 11:449-456, 1993), Toxoplasmosis, and the Helminths.
In a preferred ment the antigen is an allergen. The term "allergen" is used to
describe an antigen that elicits an unwanted immune hypersensitivity or ic
reaction. An allergy is a hypersensitivity response to an environmental antigen
(allergen).
The allergen used in the present invention may be derived from any allergy causing
substance, such as, but not limited, to pollen (e.g. Bent pollen, Foxtail , Sweet
vernal pollen, False oat , Brome pollen, Crested dogstail pollen, Cocksfoot
pollen, Fescue pollen, Yorkshire fog pollen, Rye grass pollen, Timothy pollen,
Meadow pollen, Cultivated rye pollen,Ragweed pollen, Mugwort pollen, Birch pollen,
Alder pollen, Hazel pollen, Olive pollen, eria pollen, Maple (Acer o)
pollen, Cypress pollen and Japanese Cedar (Cryptomeria japonica) pollen, food,
insect venom, mould and animal d material such as animal fur or mites such as
the house dust mites (e.g., nae or D. pteronyssinus or Blomia tropicalis).
Preferably the antigen used in the present invention is a pollen antigen. Preferably the
pollen antigens are Bent pollen, Foxtail pollen, Sweet vernal pollen, False oat pollen,
Brome pollen, Crested dogstail pollen, oot pollen, Fescue pollen, ire
fog pollen, Rye grass pollen, Timothy pollen, Meadow pollen and ated rye
pollen.
The antigen may be chemically modified by reaction with known substances, for
example, but not limited to formaldehyde or glutaraldehyde, preferably
glutaraldehyde, which retain or enhance the desired immunogenic properties of the
antigen whilst helping to avoid unwanted adverse effects. Such modifications are
known in the art.
Amino acid
Preferably the amino acid used in the invention has a water solubility of about . or
less g/lOOml H20 at 25°C. Particularly preferred amino acids are tyrosine or
tryptophan; the more insoluble tyrosine being preferred. ceutically able
derivatives of these amino acids are also included within the scope of the present
invention, such as benzyl-O-octadecanoyl-L-tyrosine.
Preparation
The composition of the present ion is prepared by mixing an aqueous solution
of the antigen with a solution of the amino acid in a strong aqueous acid and
neutralising the mixture of on, thereby co-precipitating the amino acid and
antigen.
Typically an s solution of the antigen, preferably at pH 6.3 to 7.2, is mixed
with a on of the amino acid in a strong aqueous acid. The strong acid is y
an inorganic acid, preferable hydrochloric acid. The solution of antigen used in this
step typically contains up to 0.15g/ml antigen protein. In one embodiment the solution
of amino acid used is about 24% w/v.
The resulting mixture of solutions of antigen and amino acid is neutralised. It is
desirable that, at no time, or at least no prolonged time, during the neutralisation does
the pH of the on deviate from equilibrium. This condition can be met by
vigorous ng of the solution and by the use only of the required amount of base, if
desired. Various buffering agents such as buffered saline solution can usefully be
added to the solutions of antigen to assist in pH control during mixing and
neutralising stages.
A particularly useful method of carrying out the neutralisation is for separate streams
of the solution of amino acid and neutralising base to be run into the solution of
antigen. The rates of flow of the added solutions are controlled by pH-state, that is by
equipment which regulates the flow of one or both of the solutions so that the pH of
the reaction mixture remains ntially constant at a predetermined level. We have
found that optimum results are usually obtained by pH control within the range 6.5 to
7.5, preferably 6.8 to 7.2, though the precise pH may vary according to the nature of
the antigen.
The result of the neutralisation is the immediate precipitation of the amino acid,
within and/or upon which the solution of antigen is occluded and/or adsorbed.
Cross-flow tion
A method that has been useful in the onation of various les is cross-flow
tion or tangential-flow filtration (TFF). Cross-flow filtration is a tion
process that uses membranes to separate components in a liquid solution or
suspension on the basis of size or molecule weight differences. In cross-flow
filtration, the solution or suspension to be filtered is passed across the e of the
membrane in a cross-flow mode. The driving force for filtration is the transmembrane
pressure. The velocity at which the filtrate is passed across the membrane surface also
controls the filtration rate and helps prevent clogging of the membrane. Because
cross-flow filtration recirculates retentate across the membrane surface, membrane
fouling is minimized, a high filtration rate is maintained, and product ry is
enhanced.
Cross-flow filtration devices generally comprise a pump, a feed solution reservoir, a
filtration module and conduits for connecting these elements. In use, the feed solution
is directed from the feed solution reservoir to the filtration module while the retentate
from the filtration module is recirculated from the filtration module to the feed
solution reservoir until the desired volume of retentate is obtained.
The cross-flow filtration used in the present invention to separate the ate
comprising the modified antigen and the amino acid is preferably performed using a 5
μη pore size intered stainless steel filter maintaining re between 1.1 to
1.3 bar.
Closed system
A closed system is an isolated system that prevents exposure of the composition to the
environment outside of the system. The ition is only exposed to the immediate
environment of tubing and machine components that make up the closed system. The
closed system of the present invention prevents contamination of the composition. It
achieves this by ensuring that the composition is sealed off from the environment
external to the system, preventing contaminants from entering the .
Adjuvant
An adjuvant may be added to the composition produced by the method of the present
invention. Preferably the adjuvant is a TH1-inducing nt. A TH1-inducing
adjuvant is an adjuvant that enhances the TH1 response to an antigen.
The effectiveness of an adjuvant as a TH1 -inducing nt may be determined by
determining the e of antibodies directed against an antigen resulting from
adininistration of this antigen in vaccines which are also comprised of the various
adjuvants.
ably the adjuvant is a modified lipopolysaccharide. As described in US Patent
No. 4,912,094 enterobacterial lipopolysaccharides (LPS) is a ul
immunostimulant. However, it can also illicit harmful and sometimes fatal ses.
It is now known that the endotoxic activities associated with LPS result from its lipid
A component. Accordingly, the present invention more preferably uses a detoxified
derivative of lipid A. Ribi ImmunoChem ed a derivative of lipid A originally
known as refined detoxified endotoxin (RDE) but which has become known as
monophosphoryl lipid A (MPL). As described in US Patent No, 4,912,094, MPL is
produced by refluxing LPS or lipid A ed from heptoseless mutants of gram
negative bacteria (e.g. Salmonella sp.) in mineral acid solutions of moderate strength
(e.g. 0.1N HCl) for a period of around 30 minutes. This treatment results in loss of
the phosphate moiety at position 1 of the reducing-end amine. In addition the
core carbohydrate is d from the 6' position of the non-reducing glucosamine
during this treatment.
Preferably, however, a modified LPS or lipid A is used in which the detoxified lipid A
retains the core moiety attached to the 6' position of non-reducing glucosamine. Such
derivatives of LPS and lipid A are also described in US Patent No. 4,912,094. In more
detail, US Patent 4,912,094 discloses a modified lipopolysaccharide which is obtained
by the method of ively removing only the β-hydroxymyristic acyl residue of
lipopolysaccharide that is ester-linked to the reducing-end glucosamine at on 3'
of said lipopolysaccharide, which comprises subjecting said lipopolysaccharide to
alkaline hydrolysis. Such de-O-acylated monophosphoryl lipid A (MPL),
diphosphoryl lipid A (DPL) and LPS may be used in the present invention. Thus in a
preferred embodiment, the present invention uses MPL, DPL or LPS in which the
on 3' of the reducing end glucosamine is de-O-acylated. These compounds are
known as 3-DMPL, 3-DDPL and 3-DLPS respectively.
In US Patent 4,987,237 derivatives of MPL having the formula:
are described, and wherein 1 and R2 are H, R3 is straight or branched chain
hydrocarbon ed of C, H and optionally O, N and S, which if more than one
atom may be the same or different, wherein the total number of C atoms does not
exceed 60, and the circle represents an MPL nucleus.
Alternatively the MPL derivative has the formula
wherein the segment of the derivative represented by
contains 2-60 C atoms and wherein R is straight or branched chain hydrocarbon
composed of C, H and optionally O, N and S, which if more than one atom may be
the same or different, and x is a minimum of 1 and can be any whole number such
that the total number of C atoms in all x segments does not exceed 60, and n
the chemical structure of each R may be the same or different in each such segment
and wherein the circle ents an MPL nucleus.
All such derivatives or salts of LPS or lipid Awhich are or become available may be
used in the present invention. Preferably tives and salts are ones which are
pharmaceutically able.
Dosage and Administration of itions
The compositions produced by the present invention may be administered to a t
in a manner compatible with the dosage formulation, and in such amount as will be
prophylactically and/or therapeutically effective. The quantity to be administered,
which is lly in the range of 5 g to 250 gof antigen per dose, depends on the
subject to be treated, capacity of the subject's immune system to synthesize
antibodies, and the degree of protection desired. A preferable range is from about 20
g to about 40 μgper dose.
A suitable dose size is about 0.5 ml. Accordingly, a dose for sub-cutaneous injection,
for example, would comprise 0.5 ml containing 20 μg of immunogen i admixture
with 0.5% adjuvant.
Precise amounts of active ingredient required to be administered may depend on the
judgement of the practitioner and may be peculiar to each subject.
The composition may be given in a single dose schedule, or preferably in a multiple
dose schedule. A multiple dose schedule is one in which a primary course of
ation may be with 1-20 separate doses, followed by other doses given at
subsequent time intervals required to maintain and or reinforce the immune response,
for e, at 1 to 4 months for a second dose, and if needed, a subsequent dose(s)
after several months. The dosage n will also, at least in part, be determined by
the need of the individual and be dependent upon the ent of the tioner.
In addition, the composition containing the antigen(s) may be administered in
conjunction with other immunoregulatory , for example, immunoglobulins.
ption of the Figures
Figure 1. Schematic representation of the cross-flowfilration system used to separate
the amino acid adsorbate
Figure 2. Schematic poly-sintered stainless steel filter used in cross-flow filtration;
Figure showsfilter housing (A) and assembly in-situ (B)
Figure 3. Schematic of the extraction of pollen antigens into extract solution. The
Evans Solution in VL001 is cooled to 5°C +/- 3°C, 2000ml are drawn off and used to
suspend pre-weighed pollen. This suspension is then added to VL001 where it
extracts for 18 hours with time and ature controlled and logged by the PLC
and an associated data logger. The extract solution is thenfiltered via a 0.2μ ηfilter
train before moving to the next stage.
Figure 4. Schematic of the cross-flowfiltration to isolate the retenate comprising the
pollen antigen. The extract solution is re-circulated through the TFFfilter cassette
where diafiltration s low mw matter to waste and retains high mw matter in
the circulating solution. The volume received at waste is replaced by Evans Solution
pumped into TNK01. This is performed until 5 volume changes have occurred.
Figure 5. Schematic of the modification of the pollen antigens with glutaraldehyde.
Pre-weighed glutaraldehyde is added to the diafiltered solution. Once added the
on is left with agitation to for 1-2 hours.
Figure 6. Schematic of the removal of excess glutaraldehyde. Once modification has
ted diafiltration is repeated again until 5 volume changes have ed. This
acts to remove any glutaraldehyde not used during the modification process.
Figure 7. Schematic showing that the modified solution is dispensed from the TFF
system into the phosphate addition vessel CGV020. de phosphate buffer is
then added and the solution mixed. It is then ready to proceed to the co-precipitation
stage.
Figure 8. Schematic showing how PLC control acts to match addition rates of NaOH
and HCl / Tyrosine to ensure lisation at the correct rate. During the saline
wash stage it s that saline is added replacing volume loss to waste. All critical
data is logged as both paper and electronic copies.
Figure 9. Schematic showing how the salt concentration of the solution within VL003
is reduced by re-circulated through a 5μm crossflow filter. The volume lost to waste
is replaced by low concentration saline buffer thus lowering the l salt content.
Figure 10. Schematic showing that once the saline washes have been completed
sterilefiltered compressed air is applied to VL003 forcing the suspension out through
a transfer line to a dedicated holding vessel VL005, located in the aseptic suite.
Figure 11. Schematic showing that the co-precipitation reaction is then repeated
with the modified t / phosphate buffer mixfrom the Tangential Flow Filtration
system
Figure 12. Schematic of the co-precipitation system showing all connections.
Figure 13. Diagram at the design stage g the linkage between the pump, cross-
flow filter and the permeate sterile filter m through which the wash liquor is
drawn during salt reduction of the co-precipitation solids.
Further preferred features and embodiments of the present invention will now be
described by way of non-limiting example and with reference to the accompanying
drawings in which:
Example
Thirteen raw grass s (Bent , Foxtail pollen, Sweet vernal , False oat
pollen, Brome pollen, Crested dogstail pollen, Cocksfoot pollen, Fescue pollen,
Yorkshire fog pollen, Rye grass pollen, Timothy pollen, Meadow pollen and
Cultivated rye pollen) are extracted in a custom stainless steel vessel with Evans
solution (pH 6.5) (Sodium Chloride, Potassium Di-Hydrogen Phosphate, Disodium
Phosphate Dodecahydrate, 80% w/w Liquified Phenol and Water for Injections) at 5°
C for 18 hours with agitation. The mixture is then filtered down to 0.2μ η to remove
solids via a Pall filter or similar. The process ller regulates the temperature and
the flow coolant to the extraction vessel. At the end of the extraction period in process
testing of the te is carried out to determine the effectiveness of the process. These
include pH, IgE reactivity, IgG potency, allergen and Polymer profile.
The pollen extract now oes diafiltration by passing through a Cogent tangential
flow system using a trans-membrane pressure of n 0.2-0.6Bar for five volume
changes using a lOkDa molecular weight cut-off membrane. The retentate is
dispensed to a clean sanitised vessel and a 10% aldehyde solution by weight is
added and modification now takes place for 2 hours to form oids. The ts
of this process are reduced IgE and retained IgG inducing capacity. The degree of
modification varies but should be in the order of 50 to 100%.
The modified extract then undergoes a second diafiltration step through the Cogent
tangential-flow system t Evans on pH 7.0 (Sodium Chloride, Potassium
Di-Hydrogen Phosphate, Disodium Phosphate Dodecahydrate, 80% w/w Liquified
Phenol and Water for ions) using a membrane with a 5 to lOkDa molecular
weight cut-off to remove excess glutaraldehyde. The final extract (Drug Substance) is
submitted to a battery of Quality assurance tests ing primary amine loss; protein
content; IgE reactivity; IgG potency and Polymer profile.
The drug substance is e filtered through a 0.2μ pore size filter into a clean itised
vessel to which further sterile filtered phosphate buffer (Sodium Dihydrogen
Phosphate Dihydrate, Disodium Phosphate Dodecahydrate, Water for Injections) is
added to the required concentration. 24% sterile L-tyrosine in 3.8M hydrochloric acid
and 3.2M sodium hydroxide are simultaneously added to the reaction vessel fitted
with a high shear stirrer and co-precipitation occurs. This process results in a high salt
content which is reduced by washing the tyrosine precipitate using a 5um cross-flow
poly-sintered stainless steal filter in a closed system. A5 π cross-flow filter is used
to achieve separation and the volume lost is replaced with low concentration saline
buffer, the tyrosine adsorbed oid is then recovered into a fresh clean presterilised
vessel by ng e compressed air to the holding vessel forcing the
suspension out. Pipework for all material transfer is Clean in Place (CIP)/Steam in
Place (SJP).
Following manufacture the active bulk is held in bespoke equipment and transferred
to a dilution vessel for ons of tyrosine and MPL for mixing and c filling
into 3ml butyl serum stoppered vials.
The exemplified method has logic control over al aspects of the process and
utilises Nova Septum sterile connections to minimise the possibility of false ve
contamination results. The method has in process controls and in line testing to ensure
compliance. The equipment has been designed to minimise exposure of the operatives
to hazardous materials and utilises clean in place, steam in place technology to
provide a fully validated clean and sterile process.
VIA510153NZPR
303955534
Unless the context clearly requires otherwise, throughout the description and the
claims, the words “comprise”, “comprising”, and the like, are to be construed in an
inclusive sense as d to an exclusive or exhaustive sense, that is to say, in
the sense of “including, but not limited to”.
The nce to any prior art in the specification is not, and should not be taken as,
an acknowledgement or any form of suggestion that the prior art forms part of the
common general knowledge in New Zealand.
VIA510153NZPR
303955534
Claims (16)
1. A method of preparing a composition comprising one or more antigens adsorbed to an amino acid wherein said method comprises: (i) mixing a solution of one or more antigens with a solution of the amino acid in an aqueous acid whilst neutralising the mixture of solutions, thereby forming an adsorbate comprising the one or more antigens and the amino acid; (ii) separating the adsorbate into a buffer by cross-flow filtration thereby forming said composition; and (iii) recovering said composition; wherein steps (i) to (iii) are performed in a e environment and within a closed system.
2. A method ing to claim 1 wherein the amino acid is tyrosine.
3. A method according claim 1 or 2 wherein the one or more antigens are modified with glutaraldehyde.
4. A method ing to any preceding claim wherein the one or more antigens are derived from pollen.
5. A method according to claim 1 comprising preparing a composition sing one or more pollen antigens modified with glutaraldehyde and adsorbed to tyrosine wherein said method comprises: (i) modifying the one or more pollen antigens with glutaraldehyde; (ii) removing excess glutaraldehyde using flow filtration to form a modified pollen solution; (iii) mixing the ed pollen solution with a solution of the tyrosine in an aqueous acid whilst neutralising the mixture of ons, thereby forming an adsorbate comprising the ed pollen and the tyrosine; (iv) separating the adsorbate into a buffer by cross-flow filtration thereby forming said composition; and (v) recovering said composition; VIA510153NZPR 303955534 wherein steps (iii) to (v) are performed in a e environment and within a closed system.
6. A method according to claim 1 comprising preparing a composition sing one or more pollen antigens modified with glutaraldehyde and ed to tyrosine wherein said method comprises: (i) extracting the one or more pollen antigens into solution to form a pollen extract solution; (ii) filtering the pollen extract solution to remove solids; (iii) ming cross-flow filtration and isolating the retentate comprising the pollen antigen; (iv) modifying the one or more pollen antigens with glutaraldehyde; (v) removing excess glutaraldehyde using flow filtration to form a modified pollen solution; (vi) sterile filtering the modified pollen solution; (vii) mixing the ed pollen solution with a solution of tyrosine in an aqueous acid whilst neutralising the mixture of solutions, thereby forming an adsorbate comprising the ed pollen and the tyrosine; (viii) separating the adsorbate into a buffer by cross-flow filtration thereby forming said composition; and (ix) recovering said composition wherein steps (vii) to (ix) are performed in a sterile environment and within a closed system.
7. A method according to any preceding claim wherein the composition comprises the pollen antigens: Bent pollen, Foxtail pollen, Sweet vernal pollen, False oat pollen, Brome pollen, Crested dogstail pollen, Cocksfoot pollen, Fescue pollen, ire fog pollen, Rye grass pollen, Timothy pollen, Meadow pollen and Cultivated rye pollen.
8. A method according to claim 6 or 7 wherein extraction step (i) is performed using a phenolic buffered solution at about 2 to about 8°C for about 18 hours.
9. A method according to any one of claims 5 to 8 n ng the excess glutaraldehyde using flow filtration is performed using a membrane with a 5 to 10kDa molecular weight cut-off. VIA510153NZPR 303955534
10. A method ing to any preceding claim wherein separating the adsorbate sing the n and the amino acid using cross-flow filtration is performed using a poly-sintered stainless steel filter.
11. A method according to claim 10 wherein the poly-sintered stainless steel filter is a 5 μm pore size .
12. A method according to any preceding claim wherein the adsorbate comprising the antigen and the amino acid is formed by mixing the antigen with amino acid in HCl having a molarity of about 3.8M whilst neutralising the mixture with NaOH having a molarity of about 3.2 M.
13. A method according to any preceding claim wherein said composition is diluted to the desired concentration for parental use.
14. A method according to any preceding claim wherein an adjuvant is added to said composition.
15. A method according to claim 14 n the adjuvant is MPL, 3-DMPL or a derivative or salt thereof.
16. A method according to claim 1, substantially as hereinbefore described with particular reference to any one or more of the Examples and/or
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| GBGB1106802.0A GB201106802D0 (en) | 2011-04-21 | 2011-04-21 | Process for preparing vaccine composition |
| GB1106802.0 | 2011-04-21 | ||
| PCT/GB2012/050883 WO2012143732A1 (en) | 2011-04-21 | 2012-04-20 | Process for preparing vaccine composition |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| NZ616268A NZ616268A (en) | 2015-12-24 |
| NZ616268B2 true NZ616268B2 (en) | 2016-03-30 |
Family
ID=
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