NZ752189B2 - Antibody specifically binding to il-17a and functional fragment thereof - Google Patents
Antibody specifically binding to il-17a and functional fragment thereof Download PDFInfo
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- NZ752189B2 NZ752189B2 NZ752189A NZ75218917A NZ752189B2 NZ 752189 B2 NZ752189 B2 NZ 752189B2 NZ 752189 A NZ752189 A NZ 752189A NZ 75218917 A NZ75218917 A NZ 75218917A NZ 752189 B2 NZ752189 B2 NZ 752189B2
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Abstract
antibody specifically binding to IL-17A and a functional fragment thereof. The antibody or functional fragment thereof includes an IL-17A chimeric antibody and a functional fragment thereof, and an IL-17A humanized antibody and a functional fragment thereof.
Description
English Translation of
ANTIBODY SPECIFICALLY BINDING TO IL-17A AND FUNCTIONAL FRAGMENT
THEREOF
The present application claims priority to Chinese Patent Application No.
CN201610827097.2, filed on September 14, 2016 with State Intellectual Property Office and
entitled “ANTIBODY SPECIFICALLY BINDING TO IL-17A AND FUNCTIONAL
FRAGMENT THEREOF”, the entire content of which is incorporated herein by reference.
FIELD
The present disclosure relates to the field of medical biotechnology and humanized
antibody engineering research, and in particular to an antibody specifically binding to IL-17A
and functional fragments thereof.
BACKGROUND
Interleukin-17A (IL-17 or IL-17A) is a pro-inflammatory cytokine produced primarily
by Th17 cells and is the most representative member of the IL-17 family (Miossec P, Kolls JK.
Nat. Rev. Drug. Discov., 2012,11: 763-776). After binding to IL-17A receptor (IL-17RA),
IL-17A may induce the expression of inflammatory cytokines and chemokines in a variety of
cells (such as fibroblasts, epithelial cells, and endothelial cells), playing an important role in
body immunological defense (Lin Y, Ritchea S, Logar A. Immunity, 2009, 31:799-810).
However, over-expressed IL-17A may cause many inflammatory diseases. For example,
IL-17A has effects on macrophages and DC cells, inducing high expression of IL-1, IL-6, TNF
and CRP, resulting in inflammatory reaction, and involving in the pathological processes of
psoriasis and transplant rejection. IL-17A has effects on endothelial cells, inducing high
expression of IL-6, MMP and coagulation factors, resulting in vascular activation, and involving
in pathological processes of reperfusion injury, thrombosis and atherosclerosis. IL-17A has
English Translation of
effects on fibroblasts, inducing high expression of IL-6, chemokines, growth factors and MMP,
resulting in matrix destruction, and involving in the pathological process of multiple sclerosis
and Crohn's disease. IL-17A has effects on osteoblasts and chondrocytes, inducing RANKL,
MMP and osteoclast genesis, resulting in bone erosion and cartilage damage, and involving in
the pathological process of rheumatoid arthritis and periodontal disease (N Engl J Med. 2009
Aug 27; 361(9):888-98. Nat Rev Drug Discov. 2012 Oct; 11(10):763-76. Semin Arthritis Rheum.
2013 Oct; 43(2):158-70. Trends Mol Med. 2016 Mar; 22(3):230-41).
IL-17A neutralizing antibody can inhibit the high expression of IL-17A in synovial
tissue of patients with rheumatoid arthritis and reduce the production of important inflammatory
factor IL-6 (Chabaud M, Durand JM, Buchs N, et al. Arthritis Rheum. 1999,42: 963-70). It has
been demonstrated by many animal model experiments of autoimmune diseases that the use of
antibodies to neutralize IL-17A can effectively inhibit the pathological development of
inflammation (Lubberts E, Koenders MI, Oppers-Walgreen B, et al. Arthritis Rheum. ,2004, 50:
650-659).
Currently, IL-17A-related antibody drugs, Secukinumab (IL-17A targeting antibody)
and Ixekizumab (IL-17A targeting antibody), have been approved for marketing, which are both
used for the treatment of psoriasis. However, results of drug clinical trial have shown that these
drugs do not show the expected therapeutic effect for certain chronic inflammatory diseases such
as rheumatoid arthritis (Kellner H,Ther Adv Musculoskelet Dis., 2013, 5: 141-152).
In view of this, the present disclosure has been specifically proposed.
SUMMARY
The present disclosure is based on an obtained parental anti-human IL-17A murine
monoclonal antibody having the ability to specifically bind to human IL-17A protein, by cloning,
identification and gene structure analysis to determine its CDR region, construct corresponding
chimeric antibody and humanized antibody, establish corresponding eukaryotic cell expression
English Translation of
system and produce and purify the chimeric antibody and the humanized antibody.
In order to achieve the above-mentioned goal of the present disclosure, the following
technical solutions are specially adopted:
An antibody capable of specifically binding to IL-17A and a functional fragment thereof,
wherein the antibody or the functional fragment thereof comprise a light chain and a heavy
chain;
the light chain comprises a light chain CDR consisting of CDR-L1, CDR-L2 and
CDR-L3; the heavy chain comprises a heavy chain CDR consisting of CDR-H1, CDR-H2 and
CDR-H3;
the amino acid sequences of the CDR-L1, CDR-L2 and CDR-L3 are respectively set
forth in SEQ ID NO: 1, 2 and 3; the amino acid sequences of the CDR-H1, CDR-H2 and
CDR-H3 are respectively set forth in SEQ ID NO: 4, 5 and 6.
Preferably, the antibody or the functional fragment thereof includes an IL-17A chimeric
antibody and a functional fragment thereof, and an IL-17A humanized antibody and a functional
fragment thereof.
Preferably, the antibody or the functional fragment thereof includes an IL-17A chimeric
antibody and a functional fragment thereof, and an IL-17A humanized antibody and a functional
fragment thereof.
That is, the antibody or the functional fragment thereof includes an IL-17A chimeric
antibody and a functional fragment thereof, or the antibody or the functional fragment thereof
includes an IL-17A humanized antibody and a functional fragment thereof.
It is well known in the art that both the binding specificity and affinity of an antibody
are mainly determined by the CDR, and the amino acid sequence of the non-CDR region can be
easily changed according to the well-known existing techniques to obtain a variant having
similar biological activities. In the present disclosure, the monoclonal antibody variants have
CDR sequences identical to the CDR sequences of above-mentioned humanized antibodies, thus,
English Translation of
they have similar biological activities.
Preferably, the antibody and the functional fragment thereof as described above,
wherein the antibody comprises a constant region sequence of any one selected from the group
consisting of human IgG1, IgG2, IgG3, IgG4, IgA, IgM, IgE and IgD.
Preferably, the antibody and the functional fragment thereof as described above,
wherein the functional fragment comprises one or more selected from the group consisting of
F(ab') , Fab', Fab, Fv, scFv, bispecific antibody and antibody minimal recognition unit.
The "functional fragment" of the present disclosure specifically refers to an antibody
fragment having the same specificity to IL-17A as that of the parent antibody. In addition to the
above mentioned functional fragments, any fragment of which half-life has been increased may
be also included.
scFv (sc = single strand), bispecific antibody (diabodies).
These functional fragments typically have the same binding specificity as the antibody
from which they are derived. One ordinary skill in the art can learn from what is described in the
specification of the present disclosure that the antibody fragment of the present disclosure and
obtain the above mentioned function fragment by a method such as enzymatic digestion
(including pepsin or papain) and/or a method of chemically reducing split disulfide bonds.
The antibody fragments can also be obtained by peptide synthesis by recombinant
genetic techniques, which are also known to those having ordinary skill in the art, or by
automated peptide synthesizers such as an automated peptide synthesizer sold by such as
Applied BioSystems.
Preferably, the antibody and the functional fragment thereof as described above,
wherein the amino acid sequences of light chain variable region and heavy chain variable region
of the IL-17A chimeric antibody and the functional fragment thereof are respectively set forth in
SEQ ID NO: 7 and SEQ ID NO:8;
Further preferably, the antibody and the functional fragment thereof as described above,
English Translation of
wherein the amino acid sequence of the light chain constant region and the heavy chain constant
region of the IL-17A chimeric antibody and functional fragment thereof are respectively set forth
in SEQ ID NO: 9 and SEQ ID NO: 10.
Preferably, the antibody and the functional fragment thereof as described above,
wherein light chain framework region of the IL-17A humanized antibody and the functional
fragment thereof comprises FR-L1, FR-L2, FR-L3 and FR-L4, and heavy chain framework
region of the IL-17A humanized antibody and the functional fragment thereof comprises FR-H1,
FR-H2, FR-H3 and FR-H4.
The amino acid sequences of FR-L1, FR-L2, FR-L3 and FR-L4 are set forth in SEQ ID
NO: 11 to 14 respectively.
The amino acid sequences of the FR-H1, FR-H2, FR-H3 and FR-H4 are set forth in
SEQ ID NO: 15 to 18 respectively.
Usually, when transplanting CDRs of a murine antibody to a human framework,
selection of a human framework with high sequence homology will have a certain success rate.
However, studies have shown that many CDR grafts require a back mutation to restore certain
antibody activity. How to choose the right human source framework is the major bottleneck.
The CDR is the major relevant site for antigen binding, but in most cases, the FR
(framework region) has a significant influence on the conformation of the binding site. In order
to obtain a high affinity humanized antibody, in the present disclosure, a suitable FR region is
selected and the relevant FR residue is reversed back to the original murine amino acid or a
amino acid presented in human and having the same function.
Preferably, the FR-L1 is selected from the amino acid sequence set forth in SEQ ID NO:
11 and the amino sequence having the following substitution or a combination thereof:
the 1 amino acid D is replaced by I;
the 2 amino acid V is replaced by I;
the FR-L2 is selected from the amino acid sequence set forth in SEQ ID NO: 12 and the
English Translation of
amino sequence having the following substitution or a combination thereof:
the 4 amino acid F is replaced by Y;
the 14 amino acid R is replaced by L;
the FR-L3 is selected from the amino acid sequence set forth in SEQ ID NO: 13 and the
amino sequence having the following substitution or a combination thereof:
the 35 amino acid Y is replaced by F;
the FR-L4 is selected from the amino acid sequence set forth in SEQ ID NO: 14;
the FR-H1 is selected from the amino acid sequence set forth in SEQ ID NO: 15 and the
amino sequence having the following substitution or a combination thereof:
the 4 amino acid L is replaced by V;
the FR-H2 is selected from the amino acid sequence set forth in SEQ ID NO: 16 and the
amino sequence having the following substitution or a combination thereof:
the 15 amino acid I is replaced by M;
the FR-H3 is selected from the amino acid sequence set forth in SEQ ID NO: 17 and the
amino sequence having the following substitution or a combination thereof:
the 2 amino acid V is replaced by I;
the 6 amino acid V is replaced by R;
the FR-H4 is selected from the amino acid sequence set forth in SEQ ID NO: 18;
preferably, light chain variable region sequence of the IL-17A humanized antibody and
the functional fragment thereof is one selected from SEQ ID NO: 19-26;
preferably, heavy chain variable region sequence of the IL-17A humanized antibody and
the functional fragment thereof is one selected from SEQ ID NO: 27-34;
more preferably, the light chain variable region sequence of the IL-17A humanized
antibody and the functional fragment thereof is set forth in SEQ ID NO: 19; the corresponding
heavy chain variable region sequence is set forth in SEQ ID NO: 27;
alternatively, the light chain variable region sequence of the IL-17A humanized antibody
English Translation of
and the functional fragment thereof is set forth in SEQ ID NO: 20; the corresponding heavy
chain variable region sequence is set forth in SEQ ID NO: 28;
alternatively, the light chain variable region sequence of the IL-17A humanized antibody
and the functional fragment thereof is set forth in SEQ ID NO: 21; the corresponding heavy
chain variable region sequence is set forth in SEQ ID NO: 29;
alternatively, the light chain variable region sequence of the IL-17A humanized antibody
and the functional fragment thereof is set forth in SEQ ID NO: 22; the corresponding heavy
chain variable region sequence is set forth in SEQ ID NO: 30;
alternatively, the light chain variable region sequence of the IL-17A humanized antibody
and the functional fragment thereof is set forth in SEQ ID NO: 22; the corresponding heavy
chain variable region sequence is set forth in SEQ ID NO: 31;
alternatively, the light chain variable region sequence of the IL-17A humanized antibody
and the functional fragment thereof is set forth in SEQ ID NO: 23; the corresponding heavy
chain variable region sequence is set forth in SEQ ID NO: 32;
alternatively, the light chain variable region sequence of the IL-17A humanized antibody
and the functional fragment thereof is set forth in SEQ ID NO: 24; the corresponding heavy
chain variable region sequence is set forth in SEQ ID NO: 33;
alternatively, the light chain variable region sequence of the IL-17A humanized antibody
and the functional fragment thereof is set forth in SEQ ID NO: 25; the corresponding heavy
chain variable region sequence is set forth in SEQ ID NO: 32;
alternatively, the light chain variable region sequence of the IL-17A humanized antibody
and the functional fragment thereof is set forth in SEQ ID NO: 26; the corresponding heavy
chain variable region sequence is set forth in SEQ ID NO: 34;
more preferably, the amino acid sequences of the light chain constant region and the
heavy chain constant region of the IL-17A humanized antibody and the functional fragment
thereof are respectively set forth in SEQ ID NO: 9 and SEQ ID NO: 10.
English Translation of
The light chain constant region of the IL-17A humanized antibody and the functional
fragment thereof is selected from the light chain constant region of human Kappa antibody, of
which the amino acid sequence is set forth in SEQ ID NO: 9.
The heavy chain constant region of the IL-17A humanized antibody and the functional
fragment thereof is selected from the heavy chain constant region of human IgG1antibody, of
which the amino acid sequence is set forth in SEQ ID NO: 10.
It should be noted that, in addition to the above-mentioned amino acid sequences in the
present application, the production of chimeric antibodies and humanized antibodies can be
achieved by any method known by those having ordinary skill in the art, such as by designing
recombinant humanized antibody based on sequenced CDRs of murine antibodies, the murine
antibody is secreted by myeloma cells from immunized mice or by myeloma cells fused to
splenocytes of other species which fused to myeloma cells. The immunized animal may include
a transgenic mouse having a human immunoglobulin locus which can directly produce a human
antibody. Another possible embodiment may include screening the library using phage display
technology.
An isolated nucleic acid molecule selected from:
A) DNA or RNA, encoding the antibody and the functional fragment thereof as
described above; and
B) a nucleic acid complementary to the nucleic acid as defined in A).
A vector, which contains a nucleic acid molecule as described above.
The present disclosure further provides at least one nuclear construct encoding a nucleic
acid molecule as described above, preferably a vector, more preferably an expression vector,
such as a plasmid, which is described in one embodiment of the present application.
A host cell, which is transformed with a vector as described above.
The host cell is a eukaryotic cell, such as a mammalian cell.
A method of producing an antibody capable of specifically binding to IL-17A and a
English Translation of
functional fragment thereof includes the following steps:
culturing host cells as described above in a medium and under suitable culture
conditions; and
recovering produced antibody and its functional fragments from the culture
medium or from the cultured host cells.
A composition, comprising the antibody and/or the functional fragment thereof, or a
compound of the antibody and/or the functional fragment thereof together with other components,
as an active ingredient.
Preferably, the composition as described above, the antibody and the functional
fragment thereof are coupled to at least one diagnostic agent and/or therapeutic agent to form an
immunoconjugate.
Preferably, the diagnostic agent is one or more selected from the group consisting of a
radionuclide, a radioactive contrast agent, a paramagnetic ion, a metal, a fluorescent label, a
chemiluminescent label, an ultrasound contrast agent, and a photosensitizer.
Preferably, the radionuclide is one or more selected from the group consisting of In,
111 177 18 52 62 64 67 67 68 86 90 89 94 94 99 120 123 124
In, Lu, F, Fe, Cu, Cu, Cu, Ga, Ga, Y, Y, Zr, mTc, Tc, mTc, I, I, I,
125 131 154-158 32 11 13 15 186 188 51 52 55 72 75 76 82
I, I, Gd, P, C, N, O, Re, Re, Mn, mMn, Co, As, Br, Br, mRb
and Sr.
Preferably, the paramagnetic ion is one or more selected from the group consisting of
chromium (III), manganese (II), iron (III), iron (II), cobalt (II), nickel (II), copper (II),
neodymium (III), samarium (III), ytterbium (III), gadolinium (III), vanadium (II), terbium (III),
dysprosium (III), holmium (III) and erbium (III).
Preferably, the fluorescent label is one or more selected from the group consisting of
Alexa 350, Alexa 405, Alexa 430, Alexa 488, Alexa 555, Alexa 647, AMCA, aminoacridine,
BODIPY 630/650, BODIPY 650/665, BODIPY-FL, BODIPY-R6G, BODIPY-TMR,
BODIPY-TRX, 5-carboxy-4',5'-dichloro-2',7'-dimethoxyfluorescein,
English Translation of
-carboxy-2',4',5',7'-tetrachlorofluorescein, 5-carboxyfluorescein, 5-carboxyrhodamine,
6-carboxyrhodamine, 6-carboxytetramethylrhodamine, Cascade Blue, Cy2, Cy3, Cy5, Cy7,
6-FAM, dansyl chloride, fluorescein, HEX, 6-JOE, NBD (7-nitrobenzooxa-1,3-diazole),
Oregon Green 488, Oregon Green 500, Oregon Green 514, Pacific Blue, phthalic acid,
terephthalic acid, isophthalic acid, cresol fast purple, cresyl violet, brilliant cresyl blue,
4-Aminobenzoic acid, erythrosine, phthalocyanine, azomethine, cyanine, xanthine, succinyl
fluorescein, rare earth metal cryptate, tri-bipyridyldiamine oxime, europium cryptate compound
or chelate, diamine, dicyanine, La Jolla blue dye, allophycocyanin, allococyanin B, phycocyanin
C, phycocyanin R, thiamine, R-phycoerythrin, C-Phycocyanin, phycoerythrin R, REG,
rhodamine green, rhodamine isothiocyanate, rhodamine red, ROX, TAMRA, TET, TRIT
(tetramethylrhodamine isothiol), tetramethylrhodamine and Texas Red.
Preferably, the therapeutic agent is one or more selected from the group consisting of a
naked antibody, a cytotoxic agent, a drug, a radionuclide, a boron atom, an immunomodulator, an
anti-apoptotic agent, a photosensitizing therapeutic, an immunoconjugates and a oligonucleotide.
Preferably, the drug is one or more selected from the group consisting of methotrexate,
fluorouracil, mercaptopurine, hydroxyurea, cytarabine, nitrogen mustard, cyclophosphamide,
thiotepa, cisplatin, mitomycin, bleomycin, camptothecin, podophyllotoxin, actinomycin D,
doxorubicin, daunorubicin, vinblastine, paclitaxel, cephalotaxus alkaloids and L-asparaginase.
Preferably, the oligonucleotide is one or more selected from the group consisting of
shRNA, miRNA and siRNA.
Preferably, the immunomodulator is one or more selected from the group consisting of a
cytokine, a chemokine, a stem cell growth factor, a lymphotoxin, a hematopoietic factor, a
colony stimulating factor (CSF), an interferon, an erythropoietin, a thrombopoietin, an
interleukin (IL), granulocyte-colony stimulating factor (G-CSF), granulocyte macrophage-colony
stimulating factor (GM-CSF) and stem cell growth factor.
Wherein, the cytokine is preferably one or more selected from the group consisting of
English Translation of
human growth hormone, N-methionyl human growth hormone, bovine growth hormone,
parathyroid hormone, thyroxine, insulin, proinsulin, relaxin, prorelaxin, follicle-stimulating
hormone (FSH), thyroid stimulating hormone (TSH), luteinizing hormone (LH), liver growth
factor, prostaglandin, fibroblast growth factor, prolactin, placental lactogen, OB protein, tumor
necrosis factor-α, tumor necrosis factor-β, Mullerian inhibitor, mouse gonadotropin-related
peptide, inhibin, activin, vascular endothelial growth factor, integrin, thrombopoietin (TPO),
NGF-β, platelet-growth factor, TGF-α, TGF-β, insulin-like growth factor-I, insulin-like growth
factor-II, erythropoietin (EPO), osteoinductive factor, interferon-α, interferon-β, interferon-γ,
macrophage-CSF (M-CSF), IL-1, IL-1α, IL-2, IL-3, IL-4, IL-5, IL-6, IL-7, IL-8, IL-9, IL-10,
IL-11, IL-12, IL-13, IL-14, IL-15, IL-16, IL-17, IL-18, IL-21, IL-25, LIF, FLT-3, angiostatin,
thrombospondin, endostatin, tumor necrosis factor and LT.
The chemokine is preferably one or more selected from the group consisting of
RANTES, MCAF, MIP1-α, MIP1-β, and IP-10.
Preferably, the radionuclide is one or more selected from the group consisting of In,
111 177 211 212 213 211 62 67 90 125 131 133 32 33 47 111 67
At, Lu, Bi, Bi, Bi, At, Cu, Cu, Y, I, I, I, P, P, Sc, Ag, Ga,
153 161 152 166 161 166 186 188 189 211 212 223 225 77 89
Sm, Tb, Dy, Dy, Ho, Ho, Re, Re, Re, Pb, Pb, Ra, Ac, As, Sr,
99 105 149 169 194 58 80 99 103 109 119 189 192 219
Mo, Rh, Pm, Er, Ir, Co, mBr, mTc, mRh, Pt, Sb, mOs, Ir, Rn,
215 221 255 11 13 15 75 198 199 224 77 113 95 97 103 105
Po, Fr, Fm, C, N, O, Br, Au, Au, Ac, Br, mIn, Ru, Ru, Ru, Ru,
107 203 121 122 125 165 167 168 197 109 142 143 161 57
Hg, Hg, mTe, mTe, mTe, Tm, Tm, Tm, Pt, Pd, Pr, Pr, Tb, Co,
58 51 59 75 201 76 169
Co, Cr, Fe, Se, Tl, Br and Yb.
Use of the composition as described above for the manufacture of a medicament in
prevention and/or treatment of a disease associated with overexpression and/or over-release of
IL-17A.
Preferably, the disease is one or more selected from the group consisting of airway
inflammation, asthma, bronchial asthma, allergic asthma, chronic obstructive pulmonary disease,
idiopathic pulmonary fibrosis, rheumatoid arthritis, osteoarthritis, ankylosing spondylitis,
English Translation of
psoriatic arthritis, psoriasis, multiple sclerosis, systemic sclerosis, systemic lupus erythematosus,
lupus nephritis, scleroderma, ulcerative colitis, inflammatory bowel disease, uveitis, helicobacter
pylori-associated gastritis, osteoporosis, bone erosion, intraperitoneal abscess and adhesions,
Addison's disease, gamma globulin deficiency, alopecia areata, celiac disease, Chagas disease,
Crohn's disease, allograft rejection, Behcet's disease, sepsis, septic or endotoxin shock and
ischemia.
Use of the antibody capable of specifically binding to IL-17A and the functional
fragment thereof as described above for the manufacture of a medicament in prevention and/or
treatment of a disease associated with overexpression and/or over-release of IL-17A.
A drug for prevention and/or treatment of a disease associated with overexpression
and/or over-release of IL-17A, comprising the antibody capable of specifically binding to IL-17A
and the functional fragment thereof, and a pharmaceutically acceptable carrier.
Alternatively, the drug comprises the composition as described above and a
pharmaceutically acceptable carrier.
Herein, the term "pharmaceutically acceptable" means that the compound is
physiologically acceptable when the compound is administered to a human, and does not cause
an allergic reaction such as a gastrointestinal disorder, dizziness or other allergic reaction, or a
systemic allergic reaction similar to these allergic reactions.
In the present disclosure, "pharmaceutically acceptable carrier" includes, but is not
limited to, binders (such as microcrystalline cellulose, alginates, gelatin and
polyvinylpyrrolidone), fillers (such as starch, sucrose, glucose and anhydrous lactic acid),
disintegrants (such as cross-linked PVP, cross-linked carboxymethyl sodium starch,
croscarmellose sodium and low-substituted hydroxypropyl cellulose), lubricants (magnesium
stearate, aluminum stearate, talc, polyethylene glycol, sodium benzoate), wetting agent (such as
glycerin), surfactants (such as cetyl alcohol), and absorption enhancers, flavoring agents,
sweeteners, diluents, coating agents, etc.
English Translation of
The disease as described above is one or more selected from the group consisting of
airway inflammation, asthma, bronchial asthma, allergic asthma, chronic obstructive pulmonary
disease, idiopathic pulmonary fibrosis, rheumatoid arthritis, osteoarthritis, ankylosing spondylitis,
psoriatic arthritis, psoriasis, multiple sclerosis, systemic sclerosis, systemic lupus erythematosus,
lupus nephritis, scleroderma, ulcerative colitis, inflammatory bowel disease, uveitis, helicobacter
pylori-associated gastritis, osteoporosis, bone erosion, intraperitoneal abscess and adhesions,
Addison's disease, gamma globulin deficiency, alopecia areata, celiac disease, Chagas disease,
Crohn's disease, allograft rejection, Behcet's disease, sepsis, septic or endotoxin shock and
ischemia.
A method of preventing and/or treating a disease associated with overexpression and/or
over-release of IL-17A, comprising administering the drug as described above to a subject in
need thereof.
Preferably, the above-mentioned individual is a human being, and further, the
above-mentioned individual is a human being in need of preventing and/or treating of a disease
associated with overexpression and/or over-release of IL-17A.
The disease as described above is one or more selected from the group consisting of
airway inflammation, asthma, bronchial asthma, allergic asthma, chronic obstructive pulmonary
disease, idiopathic pulmonary fibrosis, rheumatoid arthritis, osteoarthritis, ankylosing spondylitis,
psoriatic arthritis, psoriasis, multiple sclerosis, systemic sclerosis, systemic lupus erythematosus,
lupus nephritis, scleroderma, ulcerative colitis, inflammatory bowel disease, uveitis, helicobacter
pylori-associated gastritis, osteoporosis, bone erosion, intraperitoneal abscess and adhesions,
Addison's disease, gamma globulin deficiency, alopecia areata, celiac disease, Chagas disease,
Crohn's disease, allograft rejection, Behcet's disease, sepsis, septic or endotoxin shock and
ischemia.
English Translation of
BRIEF DESCRIPTION OF DRAWINGS
In order to more clearly illustrate the specific embodiments of the present disclosure or
the technical solutions in the conventional art, the drawings used in the specific embodiments or
the description of the conventional art will be briefly described below, and it is obvious that the
drawings in the following description are some embodiments of the present disclosure and a
person having ordinary skill in the art can obtain other drawings based on these drawings without
any creative work.
Figure 1 shows the human IL-17A binding activity of the monoclonal antibody secreted
by Clone No. 88 in Example 1;
Figure 2 shows the neutralization activity of the monoclonal antibody secreted by Clone
No. 88 in Example 1 against human IL-17A-stimulated secretion of IL-6 by HFF-1 cells;
Figure 3 shows the species specificity of the anti-human IL-17A chimeric monoclonal
antibody in Example 4;
Figure 4 shows the binding specificity of the anti-human IL-17A chimeric monoclonal
antibody in Example 4;
Figure 5 shows the in vitro neutralization activity of the anti-human IL-17A chimeric
monoclonal antibody in Example 5;
Figure 6 shows the in vivo neutralization activity of the anti-human IL-17A chimeric
monoclonal antibody in Example 6;
Figure 7 shows the concentration-time curve after the single intravenous injection in
Example 7;
Figure 8 shows the antigen binding activity of the anti-human IL-17A humanized
monoclonal antibody in Example 9;
Figure 9 shows the in vitro neutralization activity of the anti-human IL-17A humanized
monoclonal antibody in Example 10;
Figure 10 shows the concentration-time curve after the single subcutaneous injection in
English Translation of
Example 15.
DETAILED DESCRIPTION
The embodiments of the present disclosure will be described in detail below with
reference to the embodiments. However, a person having ordinary skill in the art will understand
that the following embodiments are merely to illustrate present disclosure and are not intended to
limit the scope of the disclosure. For those embodiments in which specific conditions are not
specified, they were carried out according to the conventional conditions or the conditions
recommended by the manufacturer. For those used reagents or instruments of which the
manufacturers are not indicated, they were all commercially available conventional products.
Example 1. Preparation of Murine Anti-human IL-17A Monoclonal Antibody
1.1. Immunization of Animal
Female BALB/c mice, 6 to 8 weeks old, purchased from Beijing Huafukang
Biotechnology Co., Ltd., were used as experimental animals. One week after the mice were
acclimated to the environment, immunization began. The recombinant human IL-17A protein
was expressed in E. coli, and the inclusion bodies were collected and subjected to denaturation
and refolding treatment to obtain soluble IL-17A protein. For the initial immunization, 100 μg of
recombinant human IL-17A-Fc protein was thoroughly mixed with Freund's complete adjuvant
(Sigma-Aldrich, Catalog Number F5881) to form an emulsion, which was intraperitoneally
injected into the mice. Two weeks later, booster immunizations were performed. For the booster
immunization, 50 μg of recombinant human IL-17A-Fc protein was thoroughly mixed with
Freund's incomplete adjuvant (Sigma-Aldrich, Catalog Number F5806) to form an emulsion,
which was intraperitoneally injected into the mice. The immunization was boosted in the same
way every 2 weeks, for a total 3 times. On the seventh day after the last immunization, blood was
collected from retro orbital venous plexus of the mice and centrifuged to separate serum, and the
English Translation of
antibody titer was determined by ELISA. Mice with high titers were selected for hybridization to
make hybridomas. Three days before the hybridization, 50 μg of recombinant human IL-17A-Fc
protein was intraperitoneally injected into mice without adjuvant. On the day of hybridization,
the spleen was aseptically removed to prepare a single spleen cell suspension for use.
1.2. Preparation of Hybridomas
Myeloma cells SP2/0 in logarithmic growth phase were centrifuged at 1000 rpm for 5
minutes, the supernatant was discarded, and the cells were suspended in incomplete DMEM
medium (Gibco, cat No. 11965) and counted. The cells needed were taken, washed twice with an
incomplete culture medium. At the same time, a spleen cell suspension prepared from a mouse
after immunization was washed twice with an incomplete culture medium. The myeloma cells
and the spleen cells were mixed at a ratio of 1 : 10 or 1 : 5, and washed once with an incomplete
culture medium in a 50 mL plastic centrifuge tube, and then centrifuged at 1200 rpm for 8
minutes. The supernatant was discarded and a Pasteur pipette was used to remove residual liquid.
The centrifuge tube was gently tapped on palm to make the precipitated cells loose and even, and
then the tube was placed in 40 ° C water bath to preheat. 1 mL of 45% PEG-4000 (pH 8.0, Sigma,
cat No. P7181) preheated to 40 ° C was added with 1 mL pipette at about 1 minute (with an
optimum time of 45 seconds), stirred gently with a pipette when adding (stirred with a pipette),
visible particles should be seen with the naked eyes. 20 to 30 mL of incomplete medium
preheated to 37 ° C was added to the tube with 10 mL pipette within 90 seconds to terminate PEG
action, and allowed to stand at 20 to 37 ° C for 10 minutes. The tube was centrifuged at 1000 rpm
for 5 minutes, and the supernatant was discarded. 5 mL of HAT medium (DMEM + HAT, Sigma,
cat No.1 H0262-10VL) was added, and the precipitated cells were mixed gently (remember not
to blow vigorously so as not to separate the fused cells) to make a well mixed suspension.
Additional HAT medium was added until 80 to 100 mL (the spleen cell concentration was made
to be 1 to 2 ×10 /mL). The suspension was dispensed into a 96-well cell culture plate, 0.1 mL per
English Translation of
well; and a 24-well plate, 1.0 to 1.5 mL per well. The plates were incubated at 37 ° C incubator
with 6% CO . Generally, six 96-well plates were used. After 5 days, 1/2 medium was replaced
with fresh HAT medium. After 7 to 10 days, the HAT medium was replaced with HT medium
(DMEM + HT, Sigma cat No. H0137-10VL). The growth of hybridoma cells was observed
routinely, and the supernatant was collected for antibody detection after the confluence of the
cells reached 1/10 or more. The positive colonies were expanded and frozen.
1.3. Clone Screening and Identification
ELISA was used to screen anti-human IL-17A antibody from hybridoma culture
supernatants. Recombinant human IL-17A was coated on a 96-well high-absorbing ELISA plate
with a carbonate buffer solution with pH 9.6, the coating concentration was 1 μg/mL, the coating
amount was 100 μL per well, and the coating was carried out at 4 °C overnight. The plate was
washed five times with PBST, blocked with 300 μL/well of PBST containing 1% BSA, and then
incubated at 25 ° C for 1 hour. The plate was washed five times with PBST. 100 μL culture
supernatant samples and the positive serum control were added to each well respectively, and
then the plated was incubated at 25 ° C for 1 hour. The plate was washed five times with PBST.
Then, 100 μL horseradish peroxidase-labeled anti-mouse IgG antibody (Abeam, Catalog Number
Ab7068) 1:10000 diluted in PBST containing 1% BSA was added to each well, and then the
plated was incubated at 25 ° C for 1 hour. The plate was washed five times with PBST. 100
μL/well of colorimetric substrate TMB was added and incubated at room temperature for 10
minutes. Color development was terminated by adding 100 μL/well of 1 M H SO . The
absorbance at 450 nm was read on a microplate reader. Positive clones capable of producing
anti-human IL-17A antibody were selected based on the reading value at OD 450 nm.
Whether anti-human IL-17A antibody secreted by positive clone was a neutralizing
antibody was determined by cell assays. The anti-human IL-17A antibody sample was diluted in
DMEM complete medium (GIBCO, Catalog Number 11995-073) containing 10% FBS (Hyclone,
English Translation of
Catalog Number SH30084.03). The starting concentration of the antibody was 160 nM and the
final concentration was 40 nM in the medium. The antibody was subjected to 5 fold serial
dilution, and then added to a cell culture plate, 50 μL per well. 20 ng/mL of human IL-17A (final
concentration 5 ng/mL) was diluted with the same complete medium and added to the cell
culture plate at 50 μL per well. The plate was incubated at 37 ° C for 1 hour in an incubator with
% CO . The HFF-1 cells were resuspended in complete medium and seeded into a 96-well cell
culture plate at 100 μL per well, 5000 cells per well. The cells were incubated at 37 ° C for 24
hours in an incubator with 5% CO . After the completion of the incubation, the cell culture plate
was centrifuged at 250 ×g for 5 minutes, and the culture supernatant was removed, and the
human IL-6 level was detected using human IL-6 ELISA kit (R&D systems, Catalog Number
S6050) according to the instructions. The antibody capable of inhibiting the human
IL-17A-stimulated secretion of human IL-6 by HFF-1 cells was anti-human IL-17A neutralizing
antibody. Positive clone capable of secreting anti-human IL-17A neutralizing antibody was
selected based on the strength of neutralization.
The result is shown in Figure 1. Clone No. 88 has a strong human IL-17A binding
activity. According to what is shown in Figure 2, Clone No. 88 also has pretty strong human
IL-17A neutralization activity.
1.4. Sequencing of Monoclonal Antibody
The clones having both antigen-binding activity and antigen-neutralization activity
obtained by screening were subjected to sequencing of antibody DNA sequence. Cellular mRNA
was first extracted using RNAprep Pure Kit (Tiangen, DP430). The steps were as follows:
1×10 cells were centrifuged at 300× g for 5 minutes and collected into a centrifuge tube, and all
supernatant was carefully aspirated. The lysis step was carried out immediately. The bottom of
the centrifuge tube was flicked to loose the cell pellet, 600 μL of lysis buffer RL was added with
vortex. All solution was transferred to a filtration column CS (the filtration column CS was
English Translation of
placed in a collection tube), centrifuged at 12,000 rpm (~13,400× g) for 2 minutes, and the
filtrate was collected. One fold volume of 70% ethanol (usually 350 μL or 600 μL) was added to
the filtrate, well mixed, the obtained solution and precipitate were transferred into an adsorption
column CR3 (the adsorption column CR3 was put into a collection tube), centrifuged at 12,000
rpm (~13,400× g) for 30 to 60 seconds, the liquid waste in the collection tube was removed, the
adsorption column CR3 was put back into the collection tube. 350 μL of deproteinized solution
RW1 was added to the adsorption column CR3, centrifuged at 12,000 rpm (~13,400×g) for 30 to
60 seconds, the liquid waste in the collection tube was removed, the adsorption column CR3 was
put back into the collection tube. 80 μL of DNase I working solution was added to the center of
the adsorption column CR3 and the column CR3 was allowed to stand at room temperature for
minutes. 350 μL of deproteinized solution RW1 was added to the adsorption column CR3,
centrifuged at 12,000 rpm (~13,400×g) for 30 to 60 seconds, the liquid waste in the collection
tube was removed, the adsorption column CR3 was put back into the collection tube. 500 μL of
rinsing solution RW was added to the adsorption column CR3 (checked whether ethanol had
been added before use), the column CR3 was allowed to stand at room temperature for 2 minutes,
centrifuged at 12,000 rpm (~13,400× g) for 30 to 60 seconds, the liquid waste in the collection
tube was removed, the adsorption column CR3 was put back into the collection tube. The
column CR3 was centrifuged at 12,000 rpm (~13,400× g) for 2 minutes, and the waste was
removed. The adsorption column CR3 was left at room temperature for a few minutes to let the
residual rinsing solution in the adsorbent material thoroughly dry. The adsorption column CR3
was transferred into a new RNase-Free centrifuge tube, 30 to 100 μL of RNase-Free ddH O was
added, the tube was allowed to stand at room temperature for 2 minutes, and then centrifuged at
12,000 rpm (~13,400× g) for 2 minutes to obtain a RNA solution.
The first strand of cDNA was synthesized using the QuantScript RT kit (Tiangen,
KR103). The steps are as follows: the template RNA was thawed on ice; the primer, 10×RT mix
(containing RNasin and DTT), Super pure dNTP mixture, RNase-Free ddH O were thawed at
English Translation of
room temperature (15 to 25 ° C), and placed on ice immediately after thawing. Each solution was
well mixed by vortexer before use, the tube was centrifuged briefly to collect residual liquid on
the side of the tube. Reverse transcription system mixture (Tiangen Bio Quant cDNA
First-Strand Synthesis Kit, Catalog Number KR103-04; 10× Reverse Transcription Buffer 2 μL,
Ultra-Pure dNTP 2 μL, Random Primer 2 μL, Reverse Transcription Enzyme 1 μL) was prepared
according to Table 1. The mixture was mixed thoroughly, the duration of vortex was no more
than 5 minutes; and then centrifuged briefly and placed on ice. Finally, the template RNA (50 ng
to 2 μg) was added to the mixture, mixed thoroughly, the duration of vortex was no more than 5
seconds, centrifuged briefly to collect residual liquid on the sides of the tube, incubated at 37 ° C
for 60 minutes. The first strand of cDNA produced by reverse transcription was used for
subsequent PCR reaction.
The primers used in the PCR reaction are shown in Table 1.
Table 1 PCR Primers
VH primer
F1:GAGGTGAAGCTGCAGGAGTCAGGACCTAGCCTGGTG
R1:AGGT(C/G)(A/C)AACTGCAG(C/G)AGTC(A/T)GG
R2:AGGT(C/G)(A/C)AGCTGCAG(C/G)AGTC(A/T)GG
R3:AGGT(C/G)CAGCTGCAG(C/G)AGTC(A/T)GG
R4:CCAGGGGCCAGTGGATAGACAAGCTTGGGTGTCGTTTT
F2:ATAGACAGATGGGGGTGTCGTTTTGGC
F3:CTTGACCAGGCATCCTAGAGTCA
F4:AGGGGCCAGTGGATAGACTGATGG
F5:AGGGACCAAGGGATAGACAGATGG
R5:(G/C)A(A/G)GT(A/T/C/G)(A/C)AGCTG(G/C)AG(G/C)AGTC
R6:(G/C)A(A/G)GT(A/T/C/G)(A/C)AGCTG(G/C)AG(G/C)AGTC(A/T)GG
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VL primer
R1:GGTGATATCGTGAT(A/G)AC(C/A)CA(G/A)GATGAACTCTC
R2:GGTGATATC(A/T)TG(A/C)TGACCCAA(A/T)CTCCACTCTC
R3:GGTGATATCGT(G/T)CTCAC(C/T)CA(A/G)TCTCCAGCAAT
F1:GGGAAGATGGATCCAGTTGGTGCAGCATCAGC
F2:GGATACAGTTGGTGCAGCATC
R4:GA(C/T)ATTGTG(A/C)T(G/C)AC(A/C)CA(A/G)(A/T)CT(A/C)CA
When primers were used, any upstream primer of the VH primers could be used with
any downstream primer; in the same way, any upstream primer of the VL primers could also be
used with any downstream primer. The target band obtained by PCR amplification was cloned
into the pGEM-T vector. A single clone was picked for DNA sequencing.
Example 2. Preparation of Chimeric Anti-human IL-17A Monoclonal Antibody
The nucleic acid sequence encoding the above mentioned antibody light chain (the
full-length of the light chain was SEQ ID NO: 7 linked to SEQ ID NO: 9) and the heavy chain
(the full-length of the heavy chain was SEQ ID NO: 8 linked to SEQ ID NO: 10) was cloned into
a eukaryotic expression vector X0GC (wherein the full-length nucleic acid sequence of the light
chain of the antibody is set forth in SEQ ID NO: 23, the full-length nucleic acid sequence of the
heavy chain of the antibody is set forth in SEQ ID NO: 24), then the expression vector was
transfected into a 293F cell line (FreeStyle 293-F Cells, Catalog Number R79007, invitrogen).
Cells were inoculated one day prior to transfection. Cells were harvested by centrifugation on the
day of transfection. The cells were resuspended in fresh FreeStyle 293 Expression Medium
(FreeStyle 293 Expression Medium, Catalog Number 12338001, Gibco), the cell density was
200 × 10 cells /mL. Plasmid was added according to the transfection volume, the final
concentration was 36.67 μg /mL, mixed gently; then linear PEI (polyethyleneimine, linear, M.W.
25000, Catalog Number 43896, Alfa Aesar) was added, the final concentration was 55 μg /mL,
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mixed gently. Thereafter, the cells were placed in a 120 rpm shaker and incubated at 37 ° C for 1
hour. A 19-fold transfection volume of fresh medium was then added. Continued to incubate at
37 ° C on a 120 rpm shaker. The cell culture supernatant transfected for 5 to 6 days was collected
by centrifugation.
The amino acid sequence of the light chain variable region of the antibody obtained by
PCR amplification is set forth in SEQ ID NO: 7, and the amino acid sequence of the heavy chain
variable region of antibody is set forth in SEQ ID NO: 8. The sequence of the
complementarity-determining region can be obtained by excluding the sequence of the
framework region from the mouse variable region sequence; wherein the amino acid sequences
of the three complementarity-determining regions CDR-L1, CDR-L2, CDR-L3 of the light chain
are set forth in SEQ ID NO: 1, 2 and 3, respectively; the amino acid sequences of the three
complementarity-determining regions CDR-H1, CDR-H2, CDR-H3 of the heavy chain are set
forth in SEQ ID NO: 4, 5 and 6, respectively. The amino acid sequence of the light chain
constant region of the antibody is set forth in SEQ ID NO: 9, and the amino acid sequence of the
heavy chain constant region of the antibody is set forth in SEQ ID NO: 10. The nucleic acid
sequence encoding the above mentioned antibody light chain (the full-length of the light chain
was SEQ ID NO: 7 linked to SEQ ID NO: 9) and the heavy chain (the full-length of the heavy
chain was SEQ ID NO: 8 linked to SEQ ID NO: 10) were cloned into eukaryotic expression
vector X0GC (wherein the full-length nucleic acid sequence of the light chain of the antibody is
set forth in SEQ ID NO: 23, the full-length nucleic acid sequence of the heavy chain of the
antibody is set forth in SEQ ID NO: 24), then the expression vector was transfected into 293F
cell line (FreeStyle 293-F Cells, Catalog Number R79007, Invitrogen). Cells were subcultured
one day prior to transfection. Cells On the day of transfection, cells were harvested by
TM TM
centrifugation and then resuspended in fresh FreeStyle 293 Expression Medium (FreeStyle
293 Expression Medium, Catalog Number 12338001, Gibco) at a density of 200×10 cells/mL.
Plasmids were added based on the transfection volume to a final concentration of 36.67 μg /mL,
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mixed gently; then linear PEI (polyethyleneimine, linear, M.W. 25000, Catalog Number 43896,
Alfa Aesar) was added to a final concentration of 55 μg/mL, mixed gently. Thereafter, the cells
were placed in a shaker at 120 rpm and incubated at 37 ° C for 1 hour. 19-fold transfection
volume of fresh medium was then added and the cells were continually cultured at 37 ° C in a
shaker at 120 rpm. The culture supernatant 5 to 6 days after transfection was collected by
centrifugation.
Example 3. Kinetics of the Binding of Chimeric Anti-human IL-17A Monoclonal Antibody
to Human IL-17A
The kinetics of the binding of anti-human IL-17A chimeric monoclonal antibody to
antigen human IL-17A was detected using Biacore 3000 Instrument. The instrument utilizes an
optical surface plasmon resonance technique to detect association and dissociation between a
molecule coupled on a sensor chip and an analyte. CM5 chips (GE Healthcare, BR12)
were used. Brief experiment procedure was as follow: human IL-17A was dissolved in sodium
acetate buffer (pH 5.0) and coupled to CM chip by injecting at a speed of 10 μL/min. 1 M
ethanolamine was injected at a speed of 10 μL/min for blocking. In the association phase,
different concentrations of anti-human IL-17A chimeric monoclonal antibody and control were
respectively injected at a speed of 30 μL/min for 180 seconds, and during the dissociation phase,
PBS buffer was injected at a speed of 30 μL/min for 600 seconds. 10 mM glycine solution (pH
2.0) was used for regeneration. Association rate constants and dissociation rate constants were
analyzed and calculated by Biacore 3000 control software. The association rate constant,
dissociation rate constant and dissociation equilibrium constant of the anti-human IL-17A
chimeric antibody are shown in Table 2. Compared with Secukinumab, the anti-human IL-17A
mAb has smaller dissociation equilibrium constant, stronger affinity, especially after binding to
IL-17A antigen, it could maintain the binding state for a longer time and is not easy to be
dissociated, which contributes to its biological functions.
English Translation of
Table 2. Binding Kinetics of Anti-Human IL-17A Chimeric Antibody to Human IL-17A
Sample Detected K (1/Ms) K (1/s) K (nM)
on off D
2.52E +
Secukinumab 7.96E - 05 0.32
Anti-human IL-17A Chimeric 5.41E +
1.49E - 06 0.03
Antibody 04
Example 4. Species Specificity and Binding Specificity of Chimeric Anti-human IL-17A
Monoclonal Antibody
The species specificity of the anti-human IL-17A chimeric monoclonal antibody was
determined by ELISA. Recombinant human IL-17A, monkey IL-17A, rat IL-17A and mouse
IL-17A (all purchased from Sino Biological Inc.), were coated on a 96-well high-absorbing
ELISA plate with a carbonate buffer solution with pH 9.6, the coating concentration was 1
μg/mL, the coating amount was 100 μL per well, and the coating was carried out at 4 °C
overnight. The plate was washed five times with PBST and blocked with 300 μL/well of PBST
containing 1% BSA, and then incubated at 25 ° C for 1 hour. The plate was washed five times
with PBST. The control and the anti-human IL-17A chimeric monoclonal antibody sample
serially diluted in PBST containing 1% BSA were added, 100 μL per well, incubated at 25 ° C for
1 hour. The plate was washed five times with PBST. Then, horseradish peroxidase-labeled
anti-human IgG antibody (Chemicon, Catalog Number AP309P) 1:2000 diluted in PBST
containing 1% BSA was added, 100 μL per well, incubated at 25 ° C for 1 hour. The plate was
washed five times with PBST. 100 μL/well of colorimetric substrate TMB was added and
incubated at room temperature for 10 minutes. Color development was terminated by adding 100
μL/well of 1 M H SO . The absorbance at 450 nm was read on a microplate reader.
The binding specificity of the anti-human IL-17A chimeric monoclonal antibody was
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determined by ELISA. Recombinant human IL-17A, IL-17B, IL-17C, IL-17D, IL-17E, IL-17F,
IL-1, IL-2, IL-6, IL-8, IL-21, IL-22, IL-23, IFN-g and TNFα (purchased from Sino Biological
Inc. or R&D systems) were coated on a 96-well high-absorbing ELISA plate with a carbonate
buffer solution with pH 9.6, the coating concentration was 1 μg/mL, the coating amount was 100
μL per well, and the coating was carried at 4 °C out overnight. The plate was washed five times
with PBST and blocked with 300 μL/well of PBST containing 1% BSA and incubated at 25 °C
for 1 hour. The plate was washed five times with PBST. The control and the anti-human IL-17A
chimeric monoclonal antibody sample diluted in PBST containing 1% BSA were added, 100 μL
per well, incubated at 25 ° C for 1 hour. The plate was washed five times with PBST. Then,
horseradish peroxidase-labeled anti-human IgG antibody (Chemicon, Catalog Number AP309P)
1:2000 diluted in PBST containing 1% BSA was added, 100 μL was added to each well,
incubated at 25 °C for 1 hour. The plate was washed five times with PBST. 100 μL/well of
colorimetric substrate TMB was added and incubated at room temperature for 10 minutes. Color
development was terminated by adding 100 μL/well of 1 M H SO . The absorbance at 450 nm
was read on a microplate reader.
The binding specificity of the anti-human IL-17A chimeric monoclonal antibody was
determined by ELISA. Recombinant human IL-17A, IL-17B, IL-17C, IL-17D, IL-17E, IL-17F,
IL-1, IL-2, IL-6, IL-8, IL-21, IL-22, IL-23, IFN-g and TNFα (purchased from Sino Biological
Inc. or R&D systems) were coated on a 96-well high-absorbing ELISA plate with a carbonate
buffer solution with pH 9.6, the coating concentration was 1 μg/mL, the coating amount was 100
μL per well, and the coating was carried at 4 ° C out overnight. Washed five times with PBST.
Blocked with 300 μL/well of PBST containing 1% BSA and incubated at 25 ° C for 1 hour.
Washed five times with PBST. The control and the anti-human IL-17A chimeric monoclonal
antibody sample diluted in PBST containing 1% BSA were added, 100 μL was added to each
well, incubated at 25 ° C for 1 hour. Washed five times with PBST. Then, horseradish
peroxidase-labeled anti-human IgG antibody (Chemicon, Catalog Number AP309P) 1:2000
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diluted in PBST containing 1% BSA was added, 100 μL was added to each well, incubated at
° C for 1 hour. Washed five times with PBST. 100 μL/well of colorimetric substrate TMB was
added, developed at room temperature for 10 minutes. Color development was terminated by
adding 100 μL/well of 1 M H SO . The absorbance at 450 nm was read on a microplate reader.
The result is shown in Figure 3. The anti-human IL-17A chimeric monoclonal antibody
bound to human and monkey IL-17A, but not rat or mouse IL-17A, indicating the antibody was
species-specific. In addition, as shown in Figure 4, the anti-human IL-17A chimeric monoclonal
antibody also has strong binding specificity, which only bound to IL-17A but not other cytokines
of IL-17 family or unrelated cytokines.
Example 5. Neutralization Activity of Chimeric Anti-human IL-17A Monoclonal Antibody
In Vitro
The anti-human IL-17A antibody sample was diluted in DMEM complete medium
(GIBCO, Catalog Number 11995-073) containing 10% FBS (Hyclone, Catalog Number
SH30084.03). The starting concentration of the antibody was 160 nM and the final concentration
was 40 nM in the medium. The antibody was subjected to 5 fold serial dilution, and then added
to a cell culture plate, 50 μL per well. 20 ng/mL of human IL-17A (final concentration 5 ng/mL)
was diluted with the same complete medium and added to the cell culture plate at 50 μL per well.
The plate was incubated at 37 ° C for 1 hour in an incubator with 5% CO . The HFF-1 cells were
resuspended in complete medium and seeded into a 96-well cell culture plate at 100 μL per well,
5000 cells per well. The cells were incubated at 37 ° C for 24 hours in an incubator with 5% CO .
After the completion of the incubation, the cell culture plate was centrifuged at 250 ×g for 5
minutes, and the culture supernatant was removed, and the human IL-6 level was detected using
human IL-6 ELISA kit (R&D systems, Catalog Number S6050) according to the instructions.
The result is shown in Figure 5. Compared to Secukinumab, the anti-human IL-17A
chimeric monoclonal antibody has a stronger IL-17A neutralization activity in vitro, and a better
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effect on inhibiting the human IL-17A-stimulated secretion of human IL-6 by HFF-1 cells.
Example 6. Neutralization Activity of Chimeric Anti-human IL-17A Monoclonal Antibody
In Vivo
Female BALB/c mice, 6 to 8 weeks old, purchased from Beijing Huafukang
Biotechnology Co., Ltd., were used as experimental animals. One week after the mice were
acclimated to the environment, the mice were randomly divided into groups, 6 per group. Each
group was given anti-human IL-17A chimeric monoclonal antibody or control monoclonal
antibody Secukinumab, at three doses of 0.7 nmol/kg, 7 nmol/kg or 70 nmol/kg, intravenous
injection, single administration. One hour after the administration, human IL-17A was injected
subcutaneously, 10 μg per mouse. Two hours later, retro-orbital blood sample was collected
without anticoagulation, and the blood sample was allowed to stand at room temperature for 30
minutes to 1 hour. After the coagulation of blood, the sample was centrifuged at 3000 rpm for 10
minutes to obtain a serum sample. The concentration of mouse CXCL1 (C-X-C Motif
Chemokine Ligand, also known as KC) in the serum was detected according to the instructions
using a mouse CXCL1 ELISA kit (RayBiotech, Catalog Number ELM-KC).
The result is shown in Figure 6. The anti-human IL-17A chimeric monoclonal antibody
inhibited the secretion of CXCL1 in human IL-17A-stimulated mice, showing a stronger activity
than the control monoclonal antibody Secukinumab.
Example 7. Pharmacokinetics Study of Chimeric Anti-Human IL-17A Monoclonal
Antibody in Rats
Female SD rats, 6 to 8 weeks old, purchased from Beijing Huafukang Biotechnology
Co., Ltd., were used as experimental animals. One week after the rats were acclimated to the
environment, the rats were randomly divided into groups, 3 rats per group. Anti-human IL-17A
chimeric monoclonal antibody and control monoclonal antibody Secukinumab were
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administered respectively at a dose of 20 nmol/kg by intravenous injection, single dose. At 0, 5
minutes, 30 minutes, 1 hour, 4 hours, 8 hours, 24 hours, 48 hours, 72 hours, 96 hours, 120 hours,
168 hours, 216 hours, 264 hours, 312 hours after administration, the retro-orbital blood sample
was collected without anticoagulation, and the blood sample was allowed to stand at room
temperature for 30 minutes to 1 hour; after coagulation, the blood sample was centrifuged at
3,000 rpm for 10 minutes, the obtained serum sample was frozen at -80 ° C and stored for testing.
The concentrations of anti-human IL-17A chimeric monoclonal antibody and control
monoclonal antibody Secukinumab in the serum were determined by ELISA. Briefly, human
recombinant IL-17A protein was coated on a high-absorbing ELISA plate with a carbonate
buffer solution with pH 9.6 at 4 ° C overnight. The plate was washed with PBST. To prevent
non-specific binding, the plate was blocked with PBST containing 5% nonfat milk powder, and
then washed with PBST. Then, the serum sample to be tested diluted with PBST containing 10%
mixed rat serum and 1% BSA was added and incubated at 25 ° C for 1 hour, and the plate was
washed with PBST. Horseradish peroxidase-labeled anti-human IgG antibody (Chemicon,
Catalog Number AP309P) diluted in PBST containing 5% skimmed milk powder was added,
incubated at 25 ° C for 1 hour, the then plate was washed with PBST. Finally, color development
was carried out using the colorimetric substrate TMB at room temperature for 10 minutes. Color
development was terminated by adding 100 μL/well of 1 M H SO . The absorbance at 450 nm
was read on a microplate reader.
The result is shown in Figure 7. A single intravenous injection dose of 20 nmol/kg of
anti-human IL-17A chimeric monoclonal antibody or control monoclonal antibody Secukinumab
showed similar concentration-time curves and pharmacokinetic features in rats. The
pharmacological parameters of the anti-human IL-17A chimeric monoclonal antibody are as
follows: half-life t was 458 hours; the area under the concentration-time curve AUC was
1/2 last
44,286 nM.hr; the estimated initial concentration C was 413 nM; the apparent volume of
distribution Vd was 115 mL/kg, the clearance rate CL was 0.17 mL/hr/kg; the mean residence
English Translation of
time MRT was 140 hours.
last
Example 8. Preparation of Humanized Anti-Human IL-17A Monoclonal Antibody
The humanized form of the anti-IL-17 antibody was obtained according to the method
of Leung et al. (1995, Molecule Immunol 32: 1413-27).
The humanized template that best matches murine non-CDR region was selected from
Germline database. The template for the heavy chain variable region was IGVH4-59*01 and the
sequence is set forth in SEQ ID NO: 35. The template for the light chain variable region was
IGKV2-30*02 and the sequence is set forth in SEQ ID NO: 36. The CDR region of murine
antibody was grafted onto the selected humanized template, replacing the CDR region of the
human template. The obtained grafted humanized antibody heavy chain variable region has a
sequence set forth in SEQ ID NO: 37, and the grafted humanized antibody light chain variable
region has a sequence set forth in SEQ ID NO: 38. Nine positions selected by sequence
alignment were subjected to back mutations, including 4 positions on heavy chains: L4V, I49M,
V68I, V72R, and 5 positions on light chains: D1I, V2I, F41Y, R51L, Y92F. Different humanized
sequences were constructed by reducing the number of back mutations, and the heavy chain
sequences and the light chain variable region sequences are shown in Table 3. The heavy chain
variable region (SEQ ID NO: 27-34) of the humanized anti-human IL-17A monoclonal antibody
was linked to the heavy chain constant region (SEQ ID NO: 10) of human antibody IgG1 to
obtain corresponding full-length sequence of heavy chain. The light chain variable region (SEQ
ID NO: 19-26) of the humanized anti-human IL-17A monoclonal antibody was linked to the light
chain constant region (SEQ ID NO: 9) of the human Kappa antibody to obtain corresponding
full-length sequence of light chain. The full-length sequence of the heavy chain was combined
with the full-length sequence of the light chain to obtain a full-length sequence of the humanized
antibody. The full-length sequence was digested with EcoRI and HindIII, and then inserted into
X0GC vector.
English Translation of
Table 3. The Sequences of the Heavy Chain Variable Region and Light Chain Variable Region of
Anti-human IL-17A Humanized Antibody
VH SEQ ID NO:
Grafted 27
BM 28
AS15799 29
AS15802 30
AS15803 31
AS15805/ 32
AS15815
AS15810 33
AS15820 34
VL SEQ ID NO:
Grafted 19
BM 20
AS15799 21
AS15802/AS15803 22
AS15805 23
AS15810 24
AS15815 25
AS15820 26
Example 9. Antigen Binding Activity of Humanized Anti-human IL-17A Monoclonal
Antibody
The antigen binding activity of humanized anti-human IL-17A monoclonal antibody
was determined by ELISA. Recombinant human IL-17A (purchased from Sino Biological Inc.)
English Translation of
was coated on a 96-well high-absorbing ELISA plate with a carbonate buffer solution with pH
9.6, the coating concentration was 1 μg/mL, the coating amount was 100 μL per well, and the
coating was carried at 4 ° C out overnight. The plate was washed five times with PBST and
blocked with 300 μL/well of PBST containing 1% BSA and incubated at 25 °C for 1 hour. The
plate was washed five times with PBST. The control and the anti-human IL-17A chimeric
monoclonal antibody sample diluted in PBST containing 1% BSA were added, 100 μL per well,
incubated at 25 ° C for 1 hour. The plate was washed five times with PBST. Then, horseradish
peroxidase-labeled anti-human IgG antibody (Chemicon, Catalog Number AP309P) 1:2000
diluted in PBST containing 1% BSA was added, 100 μL was added to each well, incubated at
°C for 1 hour. The plate was washed five times with PBST. 100 μL/well of colorimetric
substrate TMB was added and incubated at room temperature for 10 minutes. Color development
was terminated by adding 100 μL/well of 1 M H SO . The absorbance at 450 nm was read on a
microplate reader.
The result is shown in Figure 8. All of the anti-human IL-17A humanized monoclonal
antibodies AS15799, AS15802, AS15803, AS15805, AS15810, AS15815 and AS15820 could
bind human IL-17A with a high affinity activity.
Example 10. Neutralization Activity of Humanized Anti-human IL-17A Monoclonal
Antibody In Vitro
The anti-human IL-17A antibody sample was diluted in DMEM complete medium
(GIBCO, Catalog Number 11995-073) containing 10% FBS (Hyclone, Catalog Number
SH30084.03). The starting concentration of the antibody was 160 nM and the final concentration
was 40 nM in the medium. The antibody was subjected to 5 fold serial dilution, and then added
to a cell culture plate, 50 μL per well. 20 ng/mL of human IL-17A (final concentration 5 ng/mL)
was diluted with the same complete medium and added to the cell culture plate at 50 μL per well.
The plate was incubated at 37 ° C for 1 hour in an incubator with 5% CO . The HFF-1 cells were
English Translation of
resuspended in complete medium and seeded into a 96-well cell culture plate at 100 μL per well,
5000 cells per well. The cells were incubated at 37 ° C for 24 hours in an incubator with 5% CO .
After the completion of the incubation, the cell culture plate was centrifuged at 250 ×g for 5
minutes, and the culture supernatant was removed, and the human IL-6 level was detected using
human IL-6 ELISA kit (R&D systems, Catalog Number S6050) according to the instructions.
The result is shown in Figure 9. Compared to Secukinumab, anti-human IL-17A
humanized monoclonal antibodies AS15799, AS15802, AS15803, AS15805, AS15810, AS15815
and AS15820 have stronger IL-17A neutralization activity and stronger effect on inhibiting the
human IL-17A-stimulated secretion of human IL-6 by HFF-1 cells in vitro.
Example 11. Detection of Purity and Thermal Stability of Humanized Anti-human IL-17A
Monoclonal Antibody by Size-exclusion High-performance Liquid Chromatography
(SE-HPLC)
TSKgel SuperSW3000 chromatography column (Catalog Number: 0018675) was used.
The mobile phase was 0.1mol/l of phosphate buffer (NaH PO -Na HPO ), 0.1 mol/l of sodium
2 4 2 4
sulfate buffer, pH 6.7; the flow rate was 0.35 mL/min; the column temperature was 25 ° C;
sample pool temperature was 4 ° C; detection wavelength was 280 nm. The sample was diluted
with sample buffer to 1 mg/mL, and the injection volume was 5 μL. The experiment result was
processed by Agilent High Performance Liquid Chromatograph 1260 System Workstation, and
purity was calculated by the percentage of the main peak using area normalization method. The
humanized anti-human IL-17A monoclonal antibody prepared above was subjected to SE-HPLC
purity assay. To determine the thermal stability of these monoclonal antibodies, the samples
were placed under high temperature conditions of 40 ° C, and the samples were subjected to
SE-HPLC assay at week 2 and week 4 respectively to observe thermal stability, and the result is
shown in Table 4 below. All of the humanized anti-human IL-17A antibodies showed good and
considerable stability.
English Translation of
Table 4. Thermal Stability of Humanized Anti-human IL-17A Monoclonal Antibody at 40 ° C by
SE-HPLC
SE-HPLC Purity
Humanized Anti-human IL-17A Monoclonal Antibody
T=0 Week 2 Week 4
AS15802 99.9% 98.5 97.3
AS15803 99.9% 98.3 96.9
AS15810 98.0% 96.9 95.9
AS15815 98.1% 97.2 96.5
AS15820 96.5% 95.7 94.5
Example 12. Determination of Tm Value of Humanized Anti-human IL-17A Monoclonal
Antibody
The melting temperature (Tm) of the humanized anti-human IL-17A monoclonal
antibody was determined by Differential Scanning Fluorimetry (DSF). DSF is a method for
detecting the thermal denaturation process of proteins in a sample by using the fluorescence
intensity change of the fluorescent indicator to determine the protein denaturation temperature.
The reagent used was SYPRO Orange Protein Fluorescent Dye (Sigma-Aldrich, USA, Catalog
Number S5692; 5000× concentration, in DMSO). AB 7500 Real Time PCR machine was
purchased from Applied Biosystems, Inc., USA. The protein fluorescent dye was diluted 1:50
with sample buffer, and 1 μL of the diluted dye was mixed with 19 μL of protein solution, so the
final dilution of the fluorescent dye was 1:1000. The diluted fluorescent dye was added to a
96-well plate, and three parallel wells were set for each sample. The plate was sealed with an
optical sealing film, centrifuged at 1000 rpm for 2 minutes to remove air bubbles. The RT-PCR
program was set as follows: melting curve was set in continuous mode, scanning temperature
range was 25 to 99 ° C, heating rate was 1% (about 1 ° C/min), and then 25 ° C for 2 min. Data
was collected during heating, the reporter group was set as “ROX”, the quenching group was set
English Translation of
as “None”, and the reaction volume was 20 μL. The sample concentration was 1 mg/mL, and the
reference solution was sample buffer. Fluorescence curves and the first derivative were plotted
using Protein Thermal Shift Software v1.3 software. In the DSF test, the midpoint temperature
of the first transition of the protein is usually considered as the denaturation temperature of the
thermal stability of the protein. The Tm values of the humanized anti-human IL-17A monoclonal
antibody were measured and the result is shown in Table 5 below. All of the humanized
anti-human IL-17A monoclonal antibodies have pretty good Tm value.
Table 5. Tm Value of Humanized Anti-human IL-17A Monoclonal Antibody
Humanized Anti-human IL-17A Monoclonal Antibodies Tm Value
AS15802 67.2 °C
AS15803 68.3 °C
AS15810 67.9 °C
AS15815 69.3 °C
AS15820 67.7 °C
Example 13. Detection of Charge Isomers of Humanized Anti-Human IL-17A Monoclonal
Antibody by Cation Exchange Chromatography (CEX)
Cation exchange chromatography column MabPac SCX-10 was used, 4 mm × 250 mm
(Catalog Number: 78655). 20 mmol/L of 2-(N-morpholine) ethanesulfonic acid (MES) (pH 5.6)
and 60 mmol/L of sodium chloride were used as mobile phase A; 20 mmol/L of MES (pH 5.6)
and 300 mmol/L of sodium chloride were used as mobile phase B. The flow rate was 0.5 mL/min;
the column temperature was 25° C; sample pool temperature was 4 ° C; detection wavelength was
280 nm; the sample loading volume was 50 μL (1 mg/mL); the elution was carried out in a linear
gradient from 5 to 50% over 60 minutes. The experiment result was processed by Agilent High
Performance Liquid Chromatograph 1260 System Workstation, and the percentage of the peak
area was calculated by the area normalization method. The humanized anti-human IL-17A
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monoclonal antibodies were subjected to CEX detection. To determine the chemical stability of
these monoclonal antibodies, the above samples were put under high temperature conditions of
40 ° C, and the samples were taken out at week 2 and week 4 respectively for CEX detection and
the changes in the proportion of charge variants was observed. The result is shown in Table 6.
All of the humanized anti-human IL-17A antibodies have a relatively low proportion of charge
variants.
Table 6. Changes in Charge Variants of Humanized Anti-human IL-17A Monoclonal Antibody at
40 ° C by CEX
Changes in Charge Variants
T=0 Week 2
AS15802 64.9 15.5 19.6 53.5 32.7 13.8
AS15803 61.8 17.5 20.7 51.7 37.5 10.8
AS15810 59.7 14 26.3 49.9 36.7 13.5
AS15815 60.3 14.4 25.3 47 40.4 12.6
AS15820 58.7 16.6 24.7 49.1 35.6 15.3
Example 14. Stability of Humanized Anti-human IL-17A Monoclonal Antibody under Low
pH Condition for Virus Inactivation
200 μg of the test sample was adjusted to pH 3.4 ± 0.05 with 1 mol/l citric acid mother
solution, and the final concentration of the sample was 1 mg/mL. The sample was left at room
temperature and sampled at 0, 1, 2, 4 and 6 hours respectively, and the pH was adjusted to 7.5
with 2 mol/l of Tris-HCl pH 9.5 mother solution. The samples were analyzed by the above SEC
method, and the result is shown in Table 7. The humanized anti-human IL-17A antibody could
tolerant low pH condition for virus inactivation for at least 6 hours, indicating a good stability.
Table 7. Stability of Humanized Anti-human IL-17A Monoclonal Antibody under Low pH
Condition detected by SE-HPLC
English Translation of
Humanized Anti-human SE-HPLC Purity
IL-17A Monoclonal
st nd th th
T=0 1 Hour 2 Hour 4 Hour 6 Hour
Antibody
AS15802 99.9% 99.8 99.9 99.9 99.8
AS15803 99.9% 99.8 99.8 99.9 99.9
AS15810 98.0% 98.1 98.1 98.0 98.2
AS15815 98.1% 98.4 98.3 98.3 98.5
AS15820 96.5% 96.4 96.4 96.5 96.7
Example 15 Pharmacokinetics Study of Humanized Anti-Human IL-17A Monoclonal
Antibody in Rats
Female SD rats, 6 to 8 weeks old, purchased from Beijing Huafukang Biotechnology
Co., Ltd., were used as experimental animals. One week after the rats were acclimated to the
environment, the rats were randomly divided into groups, 3 rats per group. Anti-human IL-17A
chimeric monoclonal antibody and control antibody were administered respectively at a dose of
nmol/kg by subcutaneous injection, single administration. At 0, 1 hour, 4 hours, 8 hours, 24
hours, 48 hours, 72 hours, 96 hours, 120 hours, 168 hours, 216 hours, 264 hours, 312 hours, 360
hours, 408 hours and 480 hours after administration, the retro-orbital blood sample was collected
without anticoagulation, and the blood sample was allowed to stand at room temperature for 30
minutes to 1 hour; after coagulation, the blood sample was centrifuged at 3,000 rpm for 10
minutes, the obtained serum sample was frozen at -80 ° C and stored for testing.
The concentrations of anti-human IL-17A chimeric monoclonal antibody and control
antibody in the serum were determined by ELISA. Briefly, human recombinant IL-17A protein
was coated on a high-absorbing ELISA plate with a carbonate buffer solution with pH 9.6 at
4 ° C overnight. The plate was washed with PBST. To prevent non-specific binding, the plate was
blocked with PBST containing 5% nonfat milk powder, and then washed with PBST. Then, the
English Translation of
serum sample to be tested diluted with PBST containing 10% mixed rat serum and 1% BSA was
added and incubated at 25 ° C for 1 hour, and the plate was washed with PBST. Horseradish
peroxidase-labeled anti-human IgG antibody (Chemicon, Catalog Number AP309P) diluted in
PBST containing 5% skimmed milk powder was added, incubated at 25 ° C for 1 hour, the then
plate was washed with PBST. Finally, color development was carried out using the colorimetric
substrate TMB at room temperature for 10 minutes. Color development was terminated by
adding 100 μL/well of 1 M H SO . The absorbance at 450 nm was read on a microplate reader.
The result is shown in Figure 10. The single subcutaneous injection of 15 nmol/kg of
different anti-human IL-17A humanized monoclonal antibody, control monoclonal antibody
Secukinumab, and control monoclonal antibody Ixekizumab showed similar concentration-time
curves and pharmacokinetic features in vivo.
Finally, it should be understood that the above embodiments are only used to illustrate
the technical solution of the present disclosure instead of limiting it; although the present
disclosure has been described in detail with reference to the foregoing embodiments, it should be
understood by those having ordinary skill in the art that the technical solutions described in the
foregoing embodiments may be modified, or some or all of the technical features may be
equivalently replaced; and the modifications or replacements, however, would not make the
substances of the corresponding technical solutions depart from the scope of the technical
solutions of the embodiments of the present disclosure.
Industrial Applicability: the antibody and functional fragment thereof provided by the
present disclosure can specifically bind to IL-17A, and can be used for prevention and/or
treatment of a disease associated with overexpression and/or over-release of IL-17A, for example,
airway inflammation, asthma, bronchial asthma, allergic asthma, chronic obstructive pulmonary
disease, idiopathic pulmonary fibrosis, rheumatoid arthritis, osteoarthritis, ankylosing spondylitis,
psoriatic arthritis, psoriasis, multiple sclerosis, systemic sclerosis, systemic lupus erythematosus,
lupus nephritis, scleroderma, ulcerative colitis, inflammatory bowel disease, uveitis, helicobacter
English Translation of
pylori-associated gastritis, osteoporosis, bone erosion, intraperitoneal abscess and adhesions,
Addison's disease, gamma globulin deficiency, alopecia areata, celiac disease, Chagas disease,
Crohn's disease, allograft rejection, Behcet's disease, sepsis, septic or endotoxin shock and
ischemia.
Claims (28)
1. An antibody capable of specifically binding to IL-17A or a functional fragment thereof, wherein the antibody or the functional fragment thereof comprise a light chain and a heavy chain; the light chain comprises a light chain CDR consisting of CDR-L1, CDR-L2 and CDR-L3; the heavy chain comprises a heavy chain CDR consisting of CDR-H1, CDR-H2 and CDR-H3; the amino acid sequences of the CDR-L1, CDR-L2 and CDR-L3 are respectively set forth in SEQ ID NO: 1, 2 and 3; the amino acid sequences of the CDR-H1, CDR-H2 and CDR-H3 are respectively set forth in SEQ ID NO: 4, 5 and 6.
2. The antibody or the functional fragment thereof according to claim 1, wherein the antibody or the functional fragment thereof is an IL-17A chimeric antibody or a functional fragment thereof, or an IL-17A humanized antibody or a functional fragment thereof.
3. The antibody or the functional fragment thereof according to claim 1, wherein the antibody comprises a constant region sequence of any one selected from the group consisting of human IgG1, IgG2, IgG3, IgG4, IgA, IgM, IgE and IgD.
4. The antibody or the functional fragment thereof according to claim 1, wherein the functional fragment is one or more selected from the group consisting of F(ab') , Fab', Fab, Fv, scFv, and bispecific antibody.
5. The antibody or the functional fragment thereof according to claim 2, wherein the amino acid sequences of light chain variable region and heavy chain variable region of the IL-17A chimeric antibody or the functional fragment thereof are respectively set forth in SEQ ID NO: 7 and SEQ ID NO:8.
6. The antibody or the functional fragment thereof according to claim 2, wherein the amino acid sequence of the light chain constant region and the heavy chain constant region of the IL-17A chimeric antibody or functional fragment thereof are respectively set forth in SEQ ID NO: 9 and SEQ ID NO: 10.
7. The antibody or the functional fragment thereof according to claim 2, wherein light chain framework region of the IL-17A humanized antibody or the functional fragment thereof comprises FR-L1, FR-L2, FR-L3 and FR-L4, and heavy chain framework region of the IL-17A humanized antibody or the functional fragment thereof comprises FR-H1, FR-H2, FR-H3 and FR-H4; the FR-L1 is selected from the amino acid sequence set forth in SEQ ID NO: 11 and the amino sequence having the following substitution or a combination thereof: the 1 amino acid D is replaced by I; the 2 amino acid V is replaced by I; the FR-L2 is selected from the amino acid sequence set forth in SEQ ID NO: 12 and the amino sequence having the following substitution or a combination thereof: the 4 amino acid F is replaced by Y; the 14 amino acid R is replaced by L; the FR-L3 is selected from the amino acid sequence set forth in SEQ ID NO: 13 and the amino sequence having the following substitution or a combination thereof: the 35 amino acid Y is replaced by F; the FR-L4 is selected from the amino acid sequence set forth in SEQ ID NO: 14; the FR-H1 is selected from the amino acid sequence set forth in SEQ ID NO: 15 and the amino sequence having the following substitution or a combination thereof: the 4 amino acid L is replaced by V; the FR-H2 is selected from the amino acid sequence set forth in SEQ ID NO: 16 and the amino sequence having the following substitution or a combination thereof: the 15 amino acid I is replaced by M; the FR-H3 is selected from the amino acid sequence set forth in SEQ ID NO: 17 and the amino sequence having the following substitution or a combination thereof: the 2 amino acid V is replaced by I; the 6 amino acid V is replaced by R; the FR-H4 is selected from the amino acid sequence set forth in SEQ ID NO: 18.
8. The antibody or the functional fragment thereof according to claim 7, wherein the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is one selected from SEQ ID NO: 19-26.
9. The antibody or the functional fragment thereof according to claim 7, wherein the heavy chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is one selected from SEQ ID NO: 27-34;
10. The antibody or the functional fragment thereof according to claim 7, wherein (a) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 19; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 27; (b) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 20; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 28; (c) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 21; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 29; (d) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 22; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 30; (e) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 22; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 31; (f) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 23; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 32; (g) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 24; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 33; (h) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 25; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 32; or (i) the light chain variable region sequence of the IL-17A humanized antibody or the functional fragment thereof is set forth in SEQ ID NO: 26; the corresponding heavy chain variable region sequence is set forth in SEQ ID NO: 34.
11. The antibody or the functional fragment thereof according to claim 7, wherein the amino acid sequences of the light chain constant region and the heavy chain constant region of the IL-17A humanized antibody or the functional fragment thereof are respectively set forth in SEQ ID NO: 9 and SEQ ID NO: 10.
12. An isolated nucleic acid molecule selected from: A) DNA or RNA, encoding the antibody or the functional fragment thereof according to any one of claims 1 to 11; and B) a nucleic acid complementary to the nucleic acid as defined in A).
13. A composition, comprising the antibody and/or the functional fragment thereof according to any one of claims 1 to 11, or a compound of the antibody and/or the functional fragment thereof together with other components, as an active ingredient.
14. The composition according to claim 13, wherein the antibody or the functional fragment thereof are coupled to at least one diagnostic agent and/or therapeutic agent to form an immunoconjugate.
15. The composition according to claim 14, wherein the diagnostic agent is one or more selected from the group consisting of a radionuclide, a radioactive contrast agent, a paramagnetic ion, a metal, a fluorescent label, a chemiluminescent label, an ultrasound contrast agent, and a photosensitizer.
16. The composition according to claim 15, wherein the radionuclide is one or more selected 110 111 177 18 52 62 64 67 67 68 86 90 from the group consisting of In, In, Lu, F, Fe, Cu, Cu, Cu, Ga, Ga, Y, Y, 89 94 94 99 120 123 124 125 131 154-158 32 11 13 15 186 188 51 Zr, mTc, Tc, mTc, I, I, I, I, I, Gd, P, C, N, O, Re, Re, Mn, 52 55 72 75 76 82 83 mMn, Co, As, Br, Br, mRb and Sr.
17. The composition according to claim 15, wherein the paramagnetic ion is one or more selected from the group consisting of chromium (III), manganese (II), iron (III), iron (II), cobalt (II), nickel (II), copper (II), neodymium (III), samarium (III), ytterbium (III), gadolinium (III), vanadium (II), terbium (III), dysprosium (III), holmium (III) and erbium (III).
18. The composition according to claim 14, wherein the therapeutic agent is one or more selected from the group consisting of a naked antibody, a cytotoxic agent, a drug, a radionuclide, a boron atom, an immunomodulator, an anti-apoptotic agent, a photosensitizing therapeutic, an immunoconjugate and an oligonucleotide.
19. The composition according to claim 18, wherein the drug is one or more selected from the group consisting of dexamethasone, diclofenac, nabumetone, meloxicam, celecoxib, methotrexate, cyclophosphamide, azathioprine, cyclosporine A and vincristine.
20. The composition according to claim 18, wherein the oligonucleotide is one or more selected from the group consisting of shRNA, miRNA and siRNA.
21. The composition according to claim 18, wherein the immunomodulator is one or more selected from the group consisting of a cytokine, a chemokine, a stem cell growth factor, a lymphotoxin, a hematopoietic factor, a colony stimulating factor (CSF), an interferon, an erythropoietin, a thrombopoietin, an interleukin (IL), granulocyte-colony stimulating factor (G-CSF), granulocyte macrophage-colony stimulating factor (GM-CSF) and stem cell growth factor.
22. The composition according to claim 18, wherein the radionuclide is one or more selected 111 111 177 211 212 213 211 62 67 90 125 131 from the group consisting of In, At, Lu, Bi, Bi, Bi, At, Cu, Cu, Y, I, I, 133 32 33 47 111 67 153 161 152 166 161 166 186 188 189 211 I, P, P, Sc, Ag, Ga, Sm, Tb, Dy, Dy, Ho, Ho, Re, Re, Re, Pb, 212 223 225 77 89 99 105 149 169 194 58 80 99 103 109 Pb, Ra, Ac, As, Sr, Mo, Rh, Pm, Er, Ir, Co, mBr, mTc, mRh, Pt, 119 189 192 219 215 221 255 11 13 15 75 198 199 224 77 113 Sb, mOs, Ir, Rn, Po, Fr, Fm, C, N, O, Br, Au, Au, Ac, Br, mIn, 95 97 103 105 107 203 121 122 125 165 167 168 197 109 Ru, Ru, Ru, Ru, Hg, Hg, mTe, mTe, mTe, Tm, Tm, Tm, Pt, Pd, 142 143 161 57 58 51 59 75 201 76 169 Pr, Pr, Tb, Co, Co, Cr, Fe, Se, Tl, Br and Yb.
23. Use of the composition according to any one of claims 14 to 22 in the manufacture of a medicament for the prevention and/or treatment of a disease associated with overexpression and/or over-release of IL-17A.
24. The use according to claim 23, wherein the disease is one or more selected from the group consisting of airway inflammation, asthma, bronchial asthma, allergic asthma, chronic obstructive pulmonary disease, idiopathic pulmonary fibrosis, rheumatoid arthritis, osteoarthritis, ankylosing spondylitis, psoriatic arthritis, psoriasis, multiple sclerosis, systemic sclerosis, systemic lupus erythematosus, lupus nephritis, scleroderma, ulcerative colitis, inflammatory bowel disease, uveitis, helicobacter pylori-associated gastritis, osteoporosis, bone erosion, intraperitoneal abscess and adhesions, Addison's disease, gamma globulin deficiency, alopecia areata, celiac disease, Chagas disease, Crohn's disease, allograft rejection, Behcet's disease, sepsis, septic or endotoxin shock and ischemia.
25. Use of the antibody capable of specifically binding to IL-17A or the functional fragment thereof according to any one of claims 1 to 11 in the manufacture of a medicament for the prevention and/or treatment of a disease associated with overexpression and/or over-release of IL-17A.
26. The use according to claim 25, wherein the disease is one or more selected from the group consisting of airway inflammation, asthma, bronchial asthma, allergic asthma, chronic obstructive pulmonary disease, idiopathic pulmonary fibrosis, rheumatoid arthritis, osteoarthritis, ankylosing spondylitis, psoriatic arthritis, psoriasis, multiple sclerosis, systemic sclerosis, systemic lupus erythematosus, lupus nephritis, scleroderma, ulcerative colitis, inflammatory bowel disease, uveitis, helicobacter pylori-associated gastritis, osteoporosis, bone erosion, intraperitoneal abscess and adhesions, Addison's disease, gamma globulin deficiency, alopecia areata, celiac disease, Chagas disease, Crohn's disease, allograft rejection, Behcet's disease, sepsis, septic or endotoxin shock and ischemia.
27. A drug for prevention and/or treatment of a disease associated with overexpression and/or over-release of IL-17A, comprising the antibody capable of specifically binding to IL-17A or the functional fragment capable of specifically binding to IL-17A thereof according to any one of claims 1 to 11, and a pharmaceutically acceptable carrier; or the drug comprises the composition according to any one of claims 14 to 22 and a pharmaceutically acceptable carrier.
28. The antibody or the functional fragment thereof according to claim 1, substantially as herein described with reference to any one of the Examples and/or
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201610827097 | 2016-09-14 | ||
| CN201610827097.2 | 2016-09-14 | ||
| PCT/CN2017/101083 WO2018050028A1 (en) | 2016-09-14 | 2017-09-08 | Antibody specifically binding to il-17a and functional fragment thereof |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| NZ752189A NZ752189A (en) | 2021-10-29 |
| NZ752189B2 true NZ752189B2 (en) | 2022-02-01 |
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