WO2004096273A1 - Methods for treating interleukin-6 related diseases - Google Patents
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- WO2004096273A1 WO2004096273A1 PCT/JP2004/006211 JP2004006211W WO2004096273A1 WO 2004096273 A1 WO2004096273 A1 WO 2004096273A1 JP 2004006211 W JP2004006211 W JP 2004006211W WO 2004096273 A1 WO2004096273 A1 WO 2004096273A1
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- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K39/395—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum
- A61K39/39533—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum against materials from animals
- A61K39/3955—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum against materials from animals against proteinaceous materials, e.g. enzymes, hormones, lymphokines
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- A61K45/00—Medicinal preparations containing active ingredients not provided for in groups A61K31/00 - A61K41/00
- A61K45/06—Mixtures of active ingredients without chemical characterisation, e.g. antiphlogistics and cardiaca
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- A61K31/395—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins
- A61K31/495—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having six-membered rings with two or more nitrogen atoms as the only ring heteroatoms, e.g. piperazine or tetrazines
- A61K31/505—Pyrimidines; Hydrogenated pyrimidines, e.g. trimethoprim
- A61K31/519—Pyrimidines; Hydrogenated pyrimidines, e.g. trimethoprim ortho- or peri-condensed with heterocyclic rings
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- A61K39/395—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum
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- A—HUMAN NECESSITIES
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- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K39/395—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum
- A61K39/39533—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum against materials from animals
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- A—HUMAN NECESSITIES
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- C07K16/00—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies
- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/28—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
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- C07K16/18—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans
- C07K16/28—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants
- C07K16/2866—Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans against receptors, cell surface antigens or cell surface determinants against receptors for cytokines, lymphokines, interferons
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- A—HUMAN NECESSITIES
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- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
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- 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
- A61K2039/545—Medicinal preparations containing antigens or antibodies characterised by the dose, timing or administration schedule
Definitions
- the present invention relates to methods for the treatment of interleukin-6 (IL-6) related diseases by the combination of an interleukin-6 antagonist (IL-6 antagonist), particularly an antibody against interleukin-6 receptor (IL-6R) (anti-IL-6R antibody) with immunosuppressants and by administering the anti-IL-6R antibody at a high dose.
- IL-6 antagonist interleukin-6 antagonist
- IL-6R antibody against interleukin-6 receptor
- IL-6 is a cytokine also termed B cell stimulating factor-2 (BSF2) or interferon ⁇ 2.
- BSF2 B cell stimulating factor-2
- IL-6 was discovered as a differentiation factor involved in activation of B lymphocyte lineage cells (Hirano, T. et al., Nature, 324:73-76, 1986), and after then it has been demonstrated that IL-6 is the multifunctional cytokine which affects functions of various cells (Akira, S. et al., Adv. in Immunology, 54:1-78, 1993). It has been reported that IL-6 induces maturation of T lymphocyte lineage cells (Lotz, M. et al., J. Exp. Med., 167:1253- 1258, 1988).
- IL-6 transmits its biological activity via two types of protein on cells.
- One is IL-6 receptor which is a ligand binding protein with molecular weight of about 80 kD, to which IL-6 binds (Taga, T. et al., J. Exp.
- IL-6 receptor also occurs as soluble IL-6 receptor mainly composed of its extracellular region, in addition to a membrane binding type which penetrates through cell membrane and expresses on the cell membrane.
- WO 92/19759 describes various types of anti-IL-6R antibodies such as humanized anti-IL-6R antibodies and chimeric anti-IL-6R antibodies.
- WO 96/11020 describes the therapeutic agent for rheumatoid arthritis and the inhibitor of synovial cell growth of which primary ingredient is IL-6 antagonist such as anti-IL-6R antibody.
- WO 96/12503 describes the treatment of diseases attributed to IL-6 production, such as plasmacytosis, hyperimmunoglobulinemia, anemia, nephritis, cachexia, rheumatoid arthritis, Castleman's disease, and mesangial proliferative nephritis.
- WO 98/42377 describes protective/therapeutic agents of sensitized T cell related diseases such as multiple sclerosis, uveitis, chronic thyroiditis, delayed hypersensitivity, contact dermatitis and atopic dermatitis, of which active ingredient is anti-IL-6R antibody.
- W098/42377 describes the therapeutic agents of systemic erythematosus, of which active ingredient is anti-IL-6R antibody.
- WO99/47170 describes the therapeutic agents of Crohn's disease, of which active ingredient is anti-lL-6R antibody.
- WO00/10607 describes the therapeutic agents of pancreatitis, of which active ingredient is anti-IL-6R antibody.
- WO02/3492 describes the therapeutic agents of psoriasis, of which active ingredient is anti- IL-6R antibody.
- WO02/080969 describes the therapeutic agents of juvenile idiopathic arthritis, of which active ingredient is anti-IL-6R antibody.
- the present invention provides a pharmaceutical composition for the treatment of IL-6 related disease, comprising an interleukin-6 antagonist (IL-6 antagonist) and immunosuppressants.
- the invention also provides a pharmaceutical composition comprising immunosuppressants, for the effect enhancement on the use of an IL-6 antagonist for the treatment of IL-6 related disease.
- the invention also provides a pharmaceutical composition comprising immunosuppressants, for the prevention or reduction of allergic reactions upon the treatment of IL-6 related diseases with the IL-6 antagonist.
- the invention further provides a therapeutic agent for IL-6 related diseases to administer at a high dose, comprising an IL-6 antagonist.
- the invention further provides a pharmaceutical composition comprising an IL-6 antagonist at a high dose, for the prevention or reduction of allergic reactions upon the treatment of IL-6 related diseases.
- the IL-6 antagonist is preferably an anti-IL-6R antibody.
- the anti-IL-6R antibody is preferably a monoclonal antibody against IL-6R.
- the anti- IL-6R antibody is the monoclonal antibody against human IL-6R.
- the anti-IL-6R antibody is the monoclonal antibody against mouse IL-6R.
- the anti-IL-6R antibody is a recombinant type antibody.
- the human anti-IL-6R monoclonal antibody is, for example, PM-1 antibody.
- the mouse anti- IL-6R monoclonal antibody is, for example, MR16-1 antibody.
- the antibody may be further a chimeric antibody, a humanized antibody or a human antibody against IL-6R.
- Specific preferable anti-IL-6R antibody is, for example, humanized PM-1 antibody.
- the dosage of the IL-6 antagonist, particularly the anti-IL- 6R antibody is, for example, in the case of intravenous infusion, from 0.02 to 150 mg/kg/4 weeks or the dosage showing an anti-IL-6R antibody concentration in blood equivalent thereto, preferably from 0.5 to 30 mg/kg/4 weeks or the dosage showing the anti-IL-6R antibody concentration in blood equivalent thereto, and more preferably from 2 to 8 mg/kg/4 weeks or the dosage showing the anti-IL-6R antibody concentration in blood equivalent thereto.
- the dosage of the IL-6 antagonist, particularly the anti-IL-6R antibody is, for example, in the case of intravenous infusion, not less than 4 mg/kg/4 weeks or the dosage showing the anti- IL-6R antibody concentration in blood equivalent thereto, preferably from 6 to 16 mg/kg/4 weeks or the dosage showing an anti-IL-6R antibody concentration in blood equivalent thereto, and more preferably from 6 to 10 mg/kg/4 weeks or the dosage showing the anti-IL-6R antibody concentration in blood equivalent thereto.
- the dosage of MTX is, for example, from 1 to 100 mg/body/weeks or the dosage showing the MTX concentration in blood equivalent thereto, preferably from 4 to 50 mg/body/week or the dosage showing the MTX concentration in blood equivalent thereto, and particularly preferably from 10 to 25 mg/body/weeks or the dosage showing the MTX concentration in blood equivalent thereto.
- the dosage showing the drug (e.g., anti-IL-6R antibody MTX) concentration in blood means a dosage giving an equivalent therapeutic effect, and even when the transition of the concentration in blood varies according to the administration method such as intravenous injection and subcutaneous injection, it is regarded as the dosage showing the drug (e.g., anti-IL-6R antibody or MTX) concentration in blood so long as the therapeutic effect is equivalent.
- the IL-6 related diseases include,
- Acute chronic inflammatory diseases and autoimmune diseases nephritis, mesangial proliferative nephritis, Crohn's disease, ulcerative colitis, pancreatitis, juvenile idiopathic arthritis or systemic juvenile idiopathic arthritis, vasculitis, Kawasaki disease, rheumatoid arthritis, systemic erythematosus , psoriasis, Sjogren syndrome, adult Still's disease; neoplasmic diseases: multiple myeloma, Castleman's disease, malignant lymphoma, renal cancer; infectious diseases: infection with HIV, infection with EBV; cachexia: cachexia others: plasmacytosis, hyperimmunoglobulinemia, anemia and so on, and are preferably rheumatoid arthritis, plasmacytosis, hyperimmunoglobulinemia, anemia, nephritis, cachexia, multiple myeloma, Castleman's disease, mesangial
- the pharmaceutical composition of the invention can be administered orally or parenterally and systemically or topically.
- intravenous injection such as drip infusion, intramuscular injection, intraperitoneal injection, subcutaneous injection, suppository, colonic injection, oral enteric coating drug and the like can be selected, and the administration method can be appropriately selected depending on a age and condition of a patient.
- the upper and lower limits of the actual dosage are affected by the frequency of administration, for example, the dosage per dose increases in the case of long administration interval whereas it decreases in the case of short administration interval.
- the amount at an extent as the free antibody exists in blood is the effective dosage.
- there are methods to administer dividing one to several times for example, according to an administration schedule of twice/week, once/week, once/two weeks, once/4 weeks, once/6 weeks, once/8 weeks and the like by the method of intravenous injection such as drip infusion and subcutaneous injection.
- the administration schedule can be adjusted such as extending the administration interval from twice/week or once/week to once/2 weeks, once/3 weeks, once/4 weeks, once/6 weeks and once/8 weeks with observing the disease condition and changes of laboratory data in blood.
- the dosage of the anti-IL-6R antibody is typically, for example, in the case of the rheumatoid arthritis treatment, the dosage more than 0.5 mg/kg per week or the dosage showing an equivalent or more anti-rheumatic effect.
- the dosage is from 0.02 to 150 mg/kg, preferably from 0.5 to 30 mg/kg, and more preferably from 2 to 8 mg/kg.
- the anti-IL-6R antibody and the immunosuppressant are administered simultaneously or with a time interval.
- the immunosuppressants also encompass anti-rheumatic agents, adrenocortical hormone agents and the like, and include, for example, the following drugs.
- Hydroxychloroquine Hydroxychloroquine, sulfasalazine, leflunomide, etanercept, infliximab, adalimumab, D-penicillamine, oral gold compound, injectable gold compound (intramuscular injection), minocycline, sodium gold thiomalate, auranofin, D-penicillamine, lobenzarit, bucillamine, actarit; Adrenocortical hormone agents: Cortisone, hydrocortisones
- Cortisone acetate hydrocortisone, hydrocortisone sodium phosphate, hydrocortisone sodium succinate, fludrocortisone acetate Prednisolone, prednisolones
- Prednisolone prednisolone sodium succinate, prednisolone sodium phosphate, halopredone acetate Methyl prednisolones Methyl prednisolone, methyl prednisolone acetate, methyl prednisolone sodium succinate Triamcinolones
- the dosage of the immunosuppressant is, for example when MTX is combined for the rheumatoid arthritis treatment, for example in the case of orally administering, from 1 to 100 mg/body per week, preferably from 4 to 50 mg, and more preferably from 7.5 to 25 mg/body.
- a high dosage of the anti-IL-6R antibody means the dosage capable of preventing or reducing the allergic reaction, which is equal to or more than a minimum dosage effective for the treatment of IL-6 related diseases.
- the dosage includes 4 mg/kg or more, preferably from 6 to 16 mg/kg, and more preferably from 6 to 10 mg/kg.
- the above administration method, interval, and dosage are exemplifications of preferable examples, and the administration method, interval, and dosage which show similar therapeutic effects can be appropriately selected. For instance, it is possible to select the administration method, interval, and dosage which show the similar effects to those of the above preferable examples by measuring the concentrations of various medicines in blood.
- the invention includes the administration method, interval, and dosage which achieve the equivalent concentrations in blood to those of the above examples.
- the IL-6 antagonist used in the invention may be used without regard to its origin, type and form as long as it exhibits the preventive or therapeutic effect on IL-6 related diseases.
- the IL-6 antagonists are substances which inhibit biological activity of IL-6.
- the IL-6 antagonists are preferably the substances having an inhibitory effect on the binding to either IL-6, IL-6R or gpl30.
- the IL-6 antagonists include anti-IL-6 antibody, anti-IL-6R antibody, anti-gpl30 antibody, modified IL-6, modified soluble IL-6R, or partial peptides of IL-6 or IL-6R, as well as low molecular substances which exhibit the similar activity thereto.
- the anti-IL-6 antibody used in the invention can be obtained as polyclonal or monoclonal antibody using means known in the art.
- the monoclonal antibody derived from mammalian animals is preferable.
- the monoclonal antibodies derived from mammalian animals include those in produced hybridomas, and those produced in host cells transformed with expression vector containing the antibody gene by gene engineering technique. This antibody inhibits the binding of IL-6 to IL-6 receptor by binding to IL-6 to block signaling of IL-6 biological activity into cells.
- Such antibodies include MH166 (Matsuda, T. et al., Eur. J. Immunol., 18:951-956, 1988) and SK2 (Sato, K.
- Hybridomas producing the anti-IL-6 antibody can be made basically using the technology known in the art as follows. That is, the hybridomas can be made by performing immunization using IL-6 as a sensitized antigen according to the standard immunization method, fusing the resultant immunized cells to parent cells known in the art by the standard cell fusion method, and screening cells producing the monoclonal antibody by the standard screening method.
- the anti-IL-6 antibody can be made as follows.
- human IL-6 used as the sensitized antigen to obtain the antibody can be obtained using the genel amino acid sequence of IL-6 disclosed in Eur. J.Biochem., 168:543-550, 1987; J. Immunol., 140:1534- 1541, 1988; or Agr. Biol. Chem., 54:2685-2688, 1990.
- the gene sequence of IL-6 is inserted into the expression vector known in the art, which transforms appropriate host cells, subsequently, the target IL-6 protein is purified from the cells or the culture supernatant by the method known in the art, and the purified IL-6 protein can be used as the sensitized antigen.
- the fusion protein of the IL-6 protein with the other protein may be used as the sensitized antigen .
- the anti-IL-6 receptor antibody used in the invention can be obtained as polyclonal or monoclonal antibody using means known in the art.
- the anti-IL-6 receptor antibody used in the invention the monoclonal antibody derived from mammalian animals is preferable.
- the monoclonal antibodies derived from mammalian animals include those in produced hybridomas, and those produced in host cells transformed with expression vector containing the antibody gene by gene engineering technique. This antibody inhibits the binding of IL-6 to IL-6 receptor by binding to IL-6 receptor to block signaling of IL-6 biological activity into cells.
- Such antibodies include MR16-1 antibody (Tamura, T. et al., Proc. Natl. Acad. Sci. USA, 90:11924-11928,
- PM-1 antibody Hirata, Y. et al., J. Immunol., 143:2900-2906, 1989
- AUK-12-20 antibody AUK64-7 antibody or AUK146-15 antibody
- the particularly preferable antibody includes PM-1 antibody.
- the hybridoma cell line producing PM-1 antibody as PM-1 has been internationally deposited at International Patent Organism Depository (AIST Tsukuba Central 6, 1-1, Higashi 1-chome, Tsukuba-shi, Ibaraki Pref.) on the basis of Budapest Treaty as FERM BP-2998 on July 12, 1989.
- the hybridoma cell line producing MR16-1 antibody as rat- mouse hybridoma MR16-1 has been internationally deposited at International Patent Organism Depository (AIST Tsukuba Central 6, 1-1, Higashi 1-chome, Tsukuba-shi, Ibaraki Pref.) on the basis of Budapest Treaty as FERM BP-5875 on March 13, 1997.
- Hybridomas producing the anti-IL-6 receptor monoclonal antibody can be made basically using the technology known in the art as follows. That is, the hybridomas can be made by performing immunization using IL-6 receptor as a sensitized antigen according to the standard immunization method, fusing the resultant immunized cells to parent cells known in the art by the standard cell fusion method, and screening cells producing the monoclonal antibody by the standard screening method.
- the anti-IL-6 receptor antibody can be made as follows. For instance, human IL-6 receptors used as the sensitized antibody to obtain the antibody can be obtained by using IL-6 receptor gene/amino acid sequences disclosed in European Patent Application Publication No. EP325474 and JP-A-3-155795, respectively.
- the IL-6 receptor protein has two types, i.e., one expressed on cells and one dissociated from the cell membrane (soluble IL-6 receptor) (Yasukawa, K. et al., J. Biochem., 108:673-676).
- the soluble IL-6 receptor is substantially composed of an extracellular region of the IL-6 receptor, and is different from the membrane binding IL-6 receptor in lacking a transmembrane region or transmembrane and intracellular regions. Both IL-6 receptor proteins may be used as long as they are used as the sensitized antigen for the production of the anti-lL- 6 receptor antibody used in the invention.
- the gene sequence of IL-6 receptor is inserted into the expression vector known in the art, which transforms appropriate host cells, subsequently, the target IL-6 receptor protein is purified from the cells or the culture supernatant by the method known in the art, and the purified IL-6 receptor protein can be used as the sensitized antigen. Also, the cells expressing IL-6 receptor and the fusion protein of the IL-6 receptor protein with the other protein may be used as the sensitized antigen.
- E. coli containing plasmid, pIBIBSF2R including cDNA encoding human IL-6 receptor as HBl01-pIBIBSF2R has been internationally deposited at International Patent Organism Depository (AIST Tsukuba Central 6, 1-1, Higashi 1-chome, Tsukuba-shi, Ibaraki Pref.) on the basis of Budapest Treaty as the access No. FERM BP-2232 as of January 9, 1989.
- the anti-gpl30 antibody used in the invention can be obtained as polyclonal or monoclonal antibody using means known in the art.
- the monoclonal antibody derived from mammalian animals is preferable.
- the monoclonal antibodies derived from mammalian animals include those in produced hybridomas, and those produced in host cells transformed with expression vector containing the antibody gene by gene engineering technique. This antibody inhibits the binding of IL-6/IL-6 receptor complex to gpl30 by binding to gpl30 to block signaling of IL-6 biological activity into cells.
- Such antibodies include AM64 antibody (JP-A-3- 219894), 4B11 antibody and 2H4 antibody (US 5571513), B- S12 antibody and B-P8 antibody ( JP-A-8-291199 ) .
- Hybridomas producing the anti-gpl30 monoclonal antibody can be made basically using the technology known in the art as follows. That is, the hybridomas can be made by performing immunization using gpl30 as a sensitized antigen according to the standard immunization method, fusing the resultant immunized cells to parent cells known in the art by the standard cell fusion method, and screening cells producing the monoclonal antibody by the standard screening method.
- the monoclonal antibody can be made as follows.
- gpl30 used as the sensitized antigen to obtain the antibody can be obtained by using the gpl30 gene/amino acid sequences disclosed in European Patent Application Publication No. EP 411946.
- the gene sequence of gpl30 is inserted into the expression vector system known in the art, which transforms appropriate host cells, subsequently, the target gpl30 protein is purified from the cells or the culture supernatant by the method known in the art, and the purified gpl30 protein can be used as the sensitized antigen. Also, the cells expressing gpl30 and the fusion protein of the gpl30 protein with the other protein may be used as the sensitized antigen.
- Mammalian animals immunized with the sensitized antigen are not particularly limited, but preferably selected in consideration of compatibility with parent cells used for cell fusion. In general, rodent animals such as mouse, rat and hamster are used.
- Immunization of the animal with the sensitized antigen is carried out according to the methods known in the art. As the general methods, it is carried out by injecting the sensitized antigen to the animal intraperitoneally or subcutaneously. Specifically, it is preferred that the sensitized antigen is appropriately diluted and suspended with PBS (phosphate-buffered saline) or saline, which is mixed with an appropriate amount of standard adjuvant, e.g., Freund's complete adjuvant to be emulsified, and subsequently administered to the mammalian animal several times with an interval of 4 to 21 days. Also, an appropriate carrier can be used upon the immunization with the sensitized antigen.
- PBS phosphate-buffered saline
- saline phosphate-buffered saline
- an appropriate carrier can be used upon the immunization with the sensitized antigen.
- the animal is immunized in this way and it is confirmed that levels of the desired antibody are increased in serum. Subsequently, the immunized cells are removed from the mammalian animal, and are committed for cell fusion. Preferable immunized cells committed for cell fusion particularly include spleen cells.
- the cell fusion of the above immunized cells with myeloma cells can be carried out basically according to the methods known in the art, e.g., Milstein 's method (Kohler G. and Milstein C, Methods Enzymol., 73:3-46, 1981).
- the above cell fusion is performed, for example, in the standard nutrient culture medium in the presence of a cell fusion accelerator.
- a cell fusion accelerator for example, polyethyleneglycol (PEG), Sendai virus (HVJ) and the like are used, and an auxiliary agent such as dimethylsulfoxide can be further added/used as desired in order to increase the fusion efficiency.
- a use ratio of the immunized cells to the myeloma cells is preferably, for example, 1 to 10 folds of the immunized cells to the myeloma cells.
- media used for the above cell fusion the use of RPMI 1640 medium, MEM medium suitable for growth of the myeloma cell line, and the other standard media used for this type of cell culture is possible, and further serum supplement such as feral calf serum (FCS) can be combined.
- FCS feral calf serum
- the target fused cells are formed by thoroughly mixing the above immunized cells with the myeloma cells at the given amounts in the above medium, adding PEG solution, e.g., PEG solution with average molecular weight of about 1000 to 6000 prewarmed at 37°C at a standard concentration of 30 to 60% (w/v), and mixing. Subsequently, a cell fusion agent and the like which are not preferable for the growth of the hybridomas can be removed by repeating the manipulation of sequentially adding the appropriate medium and removing the supernatant by centrifuge.
- PEG solution e.g., PEG solution with average molecular weight of about 1000 to 6000 prewarmed at 37°C at a standard concentration of 30 to 60% (w/v
- the hybridomas are selected by culturing in the standard selection medium, e.g., HAT medium (medium containing hypoxanthine, aminopterin and thymidine).
- HAT medium medium containing hypoxanthine, aminopterin and thymidine.
- the culture in the HAT medium is continued for typically from several day to several weeks, sufficient time period until cells other than the target hybridomas (non-fused cells) die out. Then, the standard limiting dilution method is performed, and the hybridomas producing the target antibody are screened and cloned.
- desired human antibody having binding activity to the desired antigen or cells expressing the antigen can be obtained by sensitizing human lymphocytes with the antigen protein or the cells expressing the antigen in vitro, and fusing the sensitized B lymphocytes with human myeloma cells, e.g., U266 (see JP-B-1-59878) .
- the antigen or antigen expressing cells may be administered to transgenic animals having repertoire of human antibody gene to obtain the desired human antibody according to the method described above (See International Patent Application Publication Nos. WO 93/12227, WO 92/03918, WO 94/02602, WO 94/25585, WO 96/34096, WO 96/33735).
- the hybridoma producing the monoclonal antibody made in this way can be cultured in the standard culture medium, and also can be stored in liquid nitrogen for a long time.
- the method where the hybridomas are cultured according to the standard method and the monoclonal antibody is obtained as its culture supernatant, or the method where the hybridomas are propagated by administering to the compatible mammalian animal therewith and the monoclonal antibody is obtained as its ascites.
- the former method is suitable for obtaining the antibody with a high purity
- the latter method is suitable for producing the antibody at a large scale.
- the production of the hybridoma producing the anti-IL-6 receptor antibody can be carried out by the method disclosed in JP-A-3-139293.
- the method where hybridomas producing PM-1 antibody internationally deposited at International Patent Organism Depository (AIST Tsukuba Central 6, 1-1, Higashi 1-chome, Tsukuba- shi, Ibaraki Pref.) as FERM BP-2998 on July 12, 1989 on the basis of Budapest Treaty are injected intraperitoneally to BALB/c mouse to obtain the ascites and PM-1 antibody is purified from this ascites can be carried out.
- the method where the present hybridomas are cultured in the appropriate medium for example, RPMI 1640 medium, hybridoma SFM medium (supplied from GIBCO-BRL), PFHM-II medium (supplied from GIBCO-BRL) containing 10% fetal calf serum and 5% BM-Condimed Hi (supplied from Boehringer Mannheim) and PM-1 antibody is purified from its culture supernatant can be carried out.
- the appropriate medium for example, RPMI 1640 medium, hybridoma SFM medium (supplied from GIBCO-BRL), PFHM-II medium (supplied from GIBCO-BRL) containing 10% fetal calf serum and 5% BM-Condimed Hi (supplied from Boehringer Mannheim) and PM-1 antibody is purified from its culture supernatant
- the monoclonal antibody it is possible to use recombinant type antibody produced by cloning the antibody gene from the hybridoma, inserting the gene into an appropriate vector, introducing this into host cells, and using gene engineering technology (see, for example, Borrebaeck, C.A.K. and Larrick, J.M. , Therapeutic Monoclonal Antibodies, published in the United Kingdom by Macmillan Publishers Ltd., 1990). Specifically, mRNA encoding the variable (V) region of the antibody is isolated from the cells producing the target antibody, e.g., hybridomas.
- total RNA is prepared by the methods known in the art, e.g., guanidine ultracentrifuge method (Chirgwin, J.M.. et al., Biochemistry, 18:5294-5299, 1979), AGPC method (Chomczynski, P. et al., Anal. Biochem. , 162:156- 159, 1987), and mRNA is prepared by the use of mRNA Purification Kit (supplied from Pharmacia). Also, mRNA can be directly prepared by the use of QuickPrep mRNA Purification Kit (supplied from Pharmacia). cDNA of the antibody V region is synthesized from the resultant mRNA using reverse transcriptase.
- cDNA can be carried out using AMV Reverse Transcriptase First-strand cDNA Synthesis Kit and the like. Also, 5'-Ampli FINDER RACE kit (supplied from Clontech) and 5 ' -RACE method using PCR (Frohman, M. A. et al., Proc. Natl. Acad. Sci. USA, 85:8998-9002, 1988;
- Belyavsky A. et al., Nucleic Acids Res., 17:2919-2932, 1989) can be used to synthesize and amplify cDNA.
- the target DNA fragment is purified from the resultant PCR product, and ligated to the vector DNA. Further, a recombinant vector is made by this, which is introduced into E. coli, and colonies are selected to prepare the desired recombinant vector.
- the base sequence of the target DNA is confirmed by the method known in the art, e.g., deoxy method. If the DNA encoding the V region of the target antibody is obtained, this is ligated to DNA encoding the constant (C region) region of the desired antibody, and then it is incorporated into the expression vector. Or the DNA encoding the V region of the antibody may be incorporated into the expression vector containing the C region of the antibody.
- the antibody gene is incorporated into the expression vector so as to express under the expression regulation regions such as enhancer and promoter as described later.
- host cells can be transformed with this expression vector to express the antibody.
- artificially modified gene recombinant antibodies e.g., chimeric antibody, humanized antibody and human antibody can be used for the purpose of reducing allogenic antigenicity for human.
- modified antibodies can be made using the known methods .
- the chimeric antibody can be obtained by ligating the DNA encoding the antibody V region obtained as above to the DNA encoding the human antibody C region and incorporating this into expression vector to be introduced to host to produce (see European Patent Application Publication NO. EP 125023, International Patent Application Publication No. WO 92/19759). Using these known methods, the chimeric antibody useful for the invention can be obtained.
- the plasmids containing DNA encoding the V regions of the L and H chains of the PM-1 chimeric antibody were named pPM-k3 and pPM-hl, respectively, and E. coli having these plasmids have been internationally deposited at National Collections of Industrial, Food and Marine Bacteria Limited (23 St. Machar Drive, Aberdeen AB2 1RY, Scotland, United Kingdom) as NCIMB 40366 and NCIMB 40362, respectively on February 12, 1991 on the basis of Budapest Treaty.
- the humanized antibodies are also referred to as reshaped human antibodies, are those in which the complementarity determining region (CDR) of the> antibody of the mammalian animal other than human, e.g., mouse is transplanted in the complementarity determining region of the human antibody, and its general gene recombinant method has been known (see European Patent Application Publication NO. EP 125023, International Patent Application Publication No. WO 92/19759).
- CDR complementarity determining region
- the DNA sequence designed to link the CDR of the mouse antibody to the framework region (FR) of the human antibody is synthesized by PCR from several oligonucleotides made to have an overlapping portion at the terminus.
- the resultant DNA is ligated to the DNA encoding the human antibody C region, then it is incorporated into the expression vector, which is introduced into the host to produce the humanized antibody (see European Patent Application Publication NO. EP 239400, International Patent Application Publication No. WO 92/19759) .
- FR of the human antibody ligated via the CDR those are selected where the complementarity determining region forms a good antigen binding site.
- Amino acids in the framework region of the antibody variable region may be substituted as needed such that the complementarity determining region of the reshaped human antibody forms the proper antigen binding site (Sato, K. et al., Cancer Res., 53:851-856, 1993).
- the human antibody C region is used for the chimeric antibody and humanized antibody.
- the human antibody C region includes C ⁇ , and for example, C ⁇ l, C ⁇ 2, C ⁇ 3 or C ⁇ 4 can be used.
- the human antibody C region may be modified to improve stability of the antibody or the production thereof.
- the chimeric antibody is composed of the variable region of the antibody derived from the mammalian animal other than human and the C region derived from the human antibody.
- the humanized antibody is composed of the complementarity determining region the antibody derived from the mammalian animal other than human and the framework region and the C region derived from the human antibody. Therefore, these have reduced antigenicity in the human body and thus are useful as the antibody used in the invention.
- humanized antibody used in the invention include humanized PM-1 antibody (see International Patent Application Publication No. WO 92-19759).
- variable region of the human antibody can be expressed on the surface of phages as a single strand antibody (scFv) by the phage display method, and the phages bound to the antigen can be selected.
- scFv single strand antibody
- the DNA sequence encoding the variable region of the human antibody bound to the antigen can be determined. If the DNA sequence of scFv bound to the antigen is demonstrated, the sequence can be made by an appropriate expression vector to obtain the human antibody.
- the antibody gene constructed as described above can be expressed and obtained by the methods known in the art.
- the antibody gene can be expressed by the DNA in which commonly useful promoter, the antibody gene to be expressed, and poly A signal 3' downstream therefrom are functionally bound, or by the vector containing them.
- promoter/enhancer can include human cytomegalovirus immediate early promoter/enhancer.
- the viral promoter/enhancer of retrovirus, polyoma virus, adenovirus, simian virus 40(SV40), and the promoter/enhancer derived from the mammalian cells human elongation factor l ⁇ (HEFl ⁇ ) can be used.
- the expression can be performed according to Mulligan et al ' s method (Mulligan, R. C. et al., Nature, 277:108-114, 1979) in the case of using SV40 promoter/enhancer, or Mizushima et al's method (Mizushima, S and Nagata, S., Nucleic Acids Res., 18:5322, 1990) in the case of using HEFl ⁇ promoter/enhancer .
- the gene can be expressed by functionally binding commonly useful promoter, a signal sequence for antigen secretion and the antibody gene to be expressed.
- the promoters can include lacZ promoter and araB promoter. Ward et al's method
- lacZ promoter and araB promoter can be used in the cases of using lacZ promoter and araB promoter, respectively.
- pelB signal sequence Lei, S. P. et al., Bacteriol., 169:4379-4383, 1987
- pelB signal sequence Lei, S. P. et al., Bacteriol., 169:4379-4383, 1987
- the antibody produced in the periplasm is isolated, and subsequently used by appropriately refolding the antibody structure (see, for example, WO 96/30394).
- the expression vector can include aminoglycoside phosphotransferase (APH) gene, thymidine kinase (TK) gene, E. coli xanthine guanine phosphoribosyl transferase (Ecogpt) gene, dihydrofolate reductase (dhfr) gene and the like as selection markers.
- APH aminoglycoside phosphotransferase
- TK thymidine kinase
- Ecogpt E. coli xanthine guanine phosphoribosyl transferase
- dhfr dihydrofolate reductase
- an optional production system can be used for the production of the antibody used in the invention.
- the production system in vitro include the production system using eukaryotic cells and the production system using prokaryotic cells.
- animal cells there are the production systems using animal cells, plant cells, or fungus cells.
- animal cells (1) mammalian cells, e.g., CHO, COS, myeloma, BHK (baby hamster kidney), HeLa, Vero, etc., (2) amphibian cells, e.g., oocytes of Xenopus, or (3) insect cells, e.g., sf9, sf21, Tn5, etc. are known.
- plant cells the cell derived from Nicotiana tabacum is known and this can be cultured as callus.
- yeast for example, genus Saccharomyces, e.g., Saccharomyces cerevisiae
- Filamentous for example, genus Aspergillus, e.g., Aspergillus niger
- prokaryotic cells there are the production systems using bacterial cells.
- bacterial cells E. coli and Bacillus subtilis are known.
- the antibody can be obtained by introducing the target antibody gene into these cells by transformation and culturing the transformed cells in vitro. The culture is carried out according to the methods known in the art.
- DMEM fetal calf serum
- MEM fetal calf serum
- RPMI 1640 fetal calf serum
- IMDM fetal calf serum
- FCS fetal calf serum
- the antibody may be produced in vivo by transferring the cells in which the antibody gene is introduced into a peritoneal cavity of the animal.
- the production systems in vivo include the production systems using animals and the production systems using plant cells.
- animal cells there are the production system using mammalian animals and insects.
- a goat, swine, sheep, mouse, cattle and the like can be used (Vicki Glaser, Spectrum Biotechnology Applications, 1993).
- insects a silk worm can be used.
- tobacco can be used.
- the antibody gene is introduced into these animals or plants, the antibody is produced in the body of the animal or plant, and is collected.
- the antibody gene is prepared as a fusion gene by inserting in a midstream of the gene encoding the protein inherently produced in milk such as goat ⁇ casein.
- the DNA fragment containing the fusion gene inserted the antibody gene is injected into goat embryo, which is transferred in a female goat.
- the desired antibody is obtained from the milk of a transgenic goat born from the goat which received the embryo or progenies thereof.
- Appropriate hormones may be used for the transgenic goat in order to increase an amount of the milk containing the desired antibody (Ebert, K. M. et al., Bio/Technology, 12:699-702, 1994).
- the silk worms are infected with baculovirus inserted the target antibody gene, and the desired antibody is obtained from body fluid of these silk worms (Maeda, S. et al., Nature, 315:592-594, 1985).
- the target antibody gene is inserted into plant expression vector, e.g., pMON 530, and this vector is introduced into bacteria such as Agrobacterium tumefaciens.
- the tobacco such as Nicotiana tabacum, is infected with these bacteria, and the desired antibody is obtained from leaves of this tobacco (Julian, K. C, Ma, et al., Eur. J. Immunol., 24:131-138, 1994).
- the DNA encoding the antibody heavy chain (H chain) or light chain (L chain) may be separately incorporated into the expression vectors, which may simultaneously transform the host, or the DNA encoding the H chain and L chain are incorporated into a single expression vector, which may transform the host (see International Patent Application Publication No. WO 94-11523).
- the antibody used in the invention may be fragments of the antibody or modification thereof as long as the antibody is suitably used.
- the fragments of the antibody include, for example, Fab, F(ab') 2 , Fv, or single chain Fv (scFv) where Fv of the H and L chains are linked by an appropriate linker.
- the antibody is treated with enzyme, such as papain, pepsin, to generate the antibody fragments, or the gene encoding the antibody fragment is constructed, and this is introduced into the expression vector, which is expressed in an appropriate host cells (see, for example, Co, M. S. et al., J. Immunol., 152:2968-2976, 1994; Better, M. & Horwitz, A. E., Methods in Enzymology, 178:476-496, 1989; Plueckthun, A. & Skerra, A., methods in Enzymology, 178:476-496, 1989; Lamoyi, E., Methods in Enzymology, 121:652-663, 1989;
- enzyme such as papain, pepsin
- scFv By ligating the H chain V region to the L chain V region, scFv is obtained.
- the H chain V region and the L chain V region are preferably linked via a linker, preferably a peptide linker (Huston, J. S. et al., Proc. Natl. Acad. Sci. USA, 85:5879-5883, 1988).
- the H chain V region and the L chain V region in scFv may de derived from any of those described as the above antibody.
- the peptide linker which links the V regions used is, for example, a given single chain peptide composed of 12 to 19 amino acid residues.
- DNA encoding scFv is obtained by amplifying the DNA portion encoding the desired amino acid sequence among DNA encoding the H chain or H chain V region and L chain or L chain V region of the above antibody, which are used as templates using primers which define the both ends thereof by PCR method, then further by amplifying DNA encoding the peptide linker portion and the both ends thereof combining a pair of primers which define to be linked to the H and L chains. Also, once the DNA encoding scFv is made, the expression vector containing them, and the host transformed with the expression vector can be obtained according to the standard methods, and scFv can be obtained using the host according to the standard methods.
- Antibody referred to in the invention includes these antibody fragments.
- modification of the antibody it is also possible to use the antibody bound to various molecules such as polyethyleneglycol (PEG).
- PEG polyethyleneglycol
- Antibody referred to in the invention includes these antibody modification. In order to obtain such antibody modifications, they can be obtained by giving chemical modification to the obtained antibody. These methods have been already established in this field.
- the antibody produced and expressed as the above can be isolated from inside and outside of cells and the host, and purified to be homogenous.
- the isolation and purification of the antibody used in the invention can be carried out by affinity chromatography.
- the column used in the affinity chromatography includes, for example, protein A column and protein G column. Carriers used for the protein A column include Hyper D, POROS, Sepharose F. F. and the like.
- the other isolation/purification methods used for normal proteins can be used, and the methods are not limited at all.
- the antibody used in the invention can be isolated and purified by appropriately selecting and combining chromatography other than the above affinity chromatography, filter, ultrafiltration, salting out, dialysis and so on.
- chromatography include ion exchange chromatography, hydrophobic chromatography, gel filtration and the like.
- HPLC high performance liquid chromatography
- reverse phase HPLC may be used.
- Measurement of concentrations of the antibody obtained above can be carried out by the measurement of absorbance or by ELISA. That is, in the case of the measurement of the absorbance, the antibody is appropriately diluted with PBS(-) followed by measuring the absorbance at 280 nm, and the concentration is calculated by 1 mg/ml as 1.35 OD.
- the measurement can be carried out as follows. That is, 100 ⁇ l of goat anti-human IgG (supplied from TAG) diluted at 1 ⁇ g/ml with 0.1 M bicarbonate buffer (pH 9.6) is added to a 96-well plate (supplied from Nunc), and is incubated overnight at 4°C to immobilize the antibody.
- Modified IL-6 used in the invention is substances having binding activity to IL-6 receptor and which do not transmit the biological activity of IL-6. That is, since the modified IL-6 does not transmit the biological activity of IL-6 although it binds to IL-6 receptor competitively with IL-6, it blocks signal transduction by IL-6.
- the modified IL-6 is made by introducing variants by substituting amino acid residues in the amino acid sequence of IL-6.
- IL-6 which is a source of the modified IL-6 can be obtained from any origin, but it is preferably human IL-6 in consideration of its antigenicity.
- the modification of IL-6 is carried out by forecasting its secondary structure of IL-6 amino acid sequence using the molecular modeling program known in the art, e.g., WHATIF (Vriend et al., Mol. Graphics, 8:52-56, 1990) and further by evaluating effects of amino acid residues to be substituted on the whole protein.
- the gene encoding the modified IL-6 is obtained by introducing the variants by the conventional PCR method such that the amino acids are substituted using the vector containing the base sequence encoding human IL-6 gene as the template.
- the modified IL-6 can be obtained by incorporating this into the appropriate vector as needed and following to the above methods for the expression, production and purification of the recombinant antibody.
- modified IL-6 are disclosed in Brakenhoff et al., J. Biol. Chem., 269:86-93, 1994 and Savino et al., EMBO J., 13:1357-1367, 1994, WO 96/18648 and WO 96/17869.
- Partial peptides of IL-6 or partial peptides of IL-6 receptor used in the invention have binding activity to IL-6 receptor or IL-6, respectively, and are substances which do not transmit the biological activity of IL-6. That is, the partial peptide of IL-6 or the partial peptide of IL-6 receptor specifically inhibits the binding of IL-6 to IL-6 receptor by binding to and capturing IL-6 receptor or IL-6, respectively. Consequently, since they do not transmit the biological activity of IL-6, they block the signal transduction by IL-6.
- the partial peptide of IL-6 or the partial peptide of IL-6 receptor is the peptide composed of partial or entire amino acid sequence involved in the binding of IL- 6 to IL-6 receptor in the amino acid sequence of IL-6 or IL-6 receptor.
- Such a peptide is composed of typically from 10 to 80, preferably from 20 to 50, and more preferably from 20 to 40 amino acid residues.
- the partial peptide of IL-6 or the partial peptide of IL-6 receptor can be made by defining the region involved in the binding to IL-6 or IL-6 receptor in the amino acid sequence of IL-6 or IL-6 receptor and synthesizing its partial or entire amino acid sequence by the methods commonly known, e.g., gene engineering technique or peptide synthesis methods.
- the partial peptide of IL-6 or the partial peptide of IL-6 receptor can be obtained by inserting the DNA sequence encoding the desired peptide into the expression vector and following to the above expression, production and purification methods of the recombinant antibody.
- the synthesis can be carried out according to Zoku Iyakuhin, Kaihatu Vol. 14 Peptide Gosei, (Ed., Yajima, H., Hirokawa Shoten, 1991).
- the solid phase synthesis method used is, for example, the method where the peptide chain is extended by binding an amino acid corresponding to the C terminus of the peptide to be synthesized to a support which is insoluble in an organic solvent, and alternately repeating a reaction in which one amino acid is sequentially condensed in the direction from the C to N terminus in amino acids of which c-amino group and side chain functional groups are protected with appropriate protecting groups and a reaction in which the protecting group of ⁇ -amino group is eliminated in the amino acids or peptide attached on the resin.
- the solid phase synthesis methods are broadly classified into Boc method and Fmoc method depending on the types of protecting groups used.
- deprotection reaction and cleavage reaction of the peptide chain from the support are carried out.
- hydrogen fluoride or trifluoromethane sulfonate and TFA can be typically used in Boc method and Fmoc method, respectively.
- Boc method the above protected peptide resin is treated with hydrogen fluoride in the presence of anisole. Then, the elimination of the protecting group and the cleavage from the support are carried out to recover the peptide. This is lyophilized to yield the crude peptide.
- Fmoc method for example, in TFA, the deprotection reaction and the cleavage reaction of the peptide chain from the support can be carried out by the same manipulation as the above.
- the resultant crude peptide can be isolated and purified by applying on HPLC.
- the elution can be performed under an optimal condition using a water- acetonitrile solvent typically used for the purification of protein.
- Fractions corresponding to peaks in a profile of the resultant chromatography are collected and lyophilized.
- the peptide fractions purified in this way are identified by analysis of molecular weights by mass spectrometry, amino acid composition analysis or amino acid sequence analysis.
- compositions of the invention may be those containing pharmaceutically acceptable carriers and additives depending on their administration pathways.
- Such carriers and additives include water, pharmaceutically acceptable organic solvents, collagen, polyvinyl alcohol, polyvinylpyrrolidone, carboxyvinyl polymer, sodium carboxymethylcellulose, sodium polyacrylate, sodium arginate, water-soluble dextran, sodium carboxymethyl starch, pectin, methyl cellulose, ethyl cellulose, xanthane gum, gum arabic, casein, gelatin, agarose, diglycerin, propyleneglycol, polyethylene glycol, petrolatum, paraffin, stearyl alcohol, stearic acid, human serum albumin (HSA), mannitol, sorbitol, lactose, acceptable surfactants as pharmaceutical additives and the like.
- the additives used are selected appropriately from the above or in combination depending on their formulation, but are not limited thereto.
- MRA is a recombinant humanised anti-human interleukin-6 receptor monoclonal antibody of the IgGl sub-class that inhibits the function of the cytokine interleukin-6 (IL-6).
- IL-6 cytokine interleukin-6
- Subjects Patients with rheumatoid arthritis diagnosed based on the 1987 disease classification of the American College of Rheumatology (ACR) , of at least 6 months duration were enrolled. Patient must have active disease and had an inadequate response to, or disease flare on MTX given for at least 6 months at a dose of at least 12.5 mg weekly or 10 mg weekly in the case of intolerance.
- ACR American College of Rheumatology
- Study design a double-blind, randomized, parallel group study by central randomization method
- MRA + MTX 0 mg/kg (placebo) + MTX, 2 mg/kg MRA + MTX, 4 mg/kg MRA + MTX, 8 mg/kg MRA + MTX, 2 mg/kg MRA + ' MTX placebo, 4 mg/kg MRA + MTX placebo, and 8 mg/kg MRA + MTX placebo.
- MRA or placebo administration is given by intravenous infusion, at 4-week intervals.
- MTX or MTX placebo administration is given orally, once weekly, at 10-25 mg/week.
- Study Method The assigned dose was administered by intravenous infusion, four times in total at 4-week intervals, and efficacy and safety were evaluated at 2- week intervals up to 16 weeks, and follow-up observation was done at 20 weeks.
- the primary endpoint for efficacy was the rate of ACR 20 at 16 weeks (4 weeks after the last dose).
- Secondary endpoints included rates of ACR 50 and ACR 70 at 16 weeks (4 weeks after the last dose).
- ACR improvement criteria The cases where among the following 7 items, the number of swelling joints and the number of pain joints are improved by 20% or more and improvement by 20% or more is observed in three out of the remaining five items are determined as 20% or more improvement in ACR criteria. Further, 50% and 70% improvement cases indicate the patient cases where the above 20% improved parts are improved by 50% and 70%, respectively.
- ACR 20 improvement rate was significantly higher in all groups except the MRA alone 2 mg/kg group compared to the control group.
- ACR 50 and 70 improvement rate were 53.1% and 36.7%, respectively, which were statistically significantly higher than those of the control group which were 28.6% and 16.3%, respectively.
- MRA alone groups statistically significant dose dependency was observed in ACR 20 improvement rate.
- ACR50 and ACR70 improvement rate the statistically significant dose dependent response was observed in both MRA alone and MTX-combined groups .
- the mean difference (95% CI) between the MRA 8 mg/kg + MTX group and the MTX group was -3.62 (-5.39, -1.84). There was a statistically significant linear dose-relationship between the MRA combination therapy groups (p 0.004).
- the safety evaluation sets, the full analysis sets, and PPS were 359, 354, and 307, respectively.
- Total 359 patients were enrolled, 299 completed the study, and the 60 were withdrawn.
- 33 were due to adverse events one was due to complication with the other disease, seven were due to adverse events, 7 were due to the use of drugs with prohibited concomitant use, five were due to withdrawal of informed consent, one was due to lost to follow up, and 22 were due to lack of efficacy (including multiple reasons).
- MRA monotherapy A clear dose-response was observed for MRA monotherapy and for MRA combined with methotrexate.
- the effectiveness of MRA to treat patients with rheumatoid arthritis was confirmed for both MRA monotherapy and for MRA combined with methotrexate.
- safety of MRA was confirmed in both MRA monotherapy and for MRA combined with methotrexate.
- Reference example 1 Preparation of human soluble IL-6 receptor
- the soluble IL-6 receptor was made by the PCR method using plas id, pBSF2R.236 containing cDNA encoding IL-6 receptor obtained according to Yamasaki et al's method (Yamasaki, K. et al., Science, 241:825-828, 1988).
- the plasmid, pBSF2R.236 was digested with a restriction enzyme, Sphl to obtain IL-6 receptor cDNA, which was then inserted into mpl8 (supplied from Amersham) .
- Variants were introduced into the IL-6 receptor cDNA in PCR method by in vitro mutagenesis system (supplied from Amersham) using synthetic oligoprimers designed to introduce a stop codon into the cDNA of IL-6 receptor. This manipulation introduced the stop codon at position 345 of the amino acid to give the cDNA encoding the soluble IL-6 receptor.
- the soluble IL-6 receptor cDNA was ligated to the plasmid pSV (supplied from Pharmacia) to afford the plasmid pSVL344 in order to express the cDNA in CHO cells.
- the soluble IL-6 receptor cDNA digested with Hindlll-Sall was inserted into the plasmid pECEdhfr containing cDNA of dhfr to give CHO cell expression plasmid pECEdhfr344.
- dhfr-CHO cell line DXB-11 (Urlaub, G. et al., Proc. Natl. Acad. Sci. USA, 77:4216-4220, 1980).
- the transfected CHO cells were cultured for 3 weeks in ⁇ MEM selection medium containing 1 mM of glutamine, 10% of dialyzed FCS, 100 U/ml of penicillin and 100 ⁇ g/ml of streptomycin without nucleoside.
- CHO cell line 5E27 which produces the human soluble IL-6 receptor.
- CHO cell line 5E27 was cultured in Iscove's modified Dulbecco medium (IMDM, supplied from Gibco) containing 5% FBS. The culture supernatant was collected, and the concentration of the soluble IL-6 receptor in the culture supernatant was measured by ELISA. As a result, it was affirmed that the soluble IL-6 receptor was present in the culture supernatant.
- IMDM Iscove's modified Dulbecco medium
- BALB/c mouse was immunized with 10 ⁇ g of recombinant IL-6 (Hirano, T. et al., Immunol. Lett., 17:41, 1988) along with Freund's complete adjuvant, and the immunization was continued every one week until anti-IL-6 antibody was detected in serum.
- Immunized cells were removed from local lymph nodes and fused with myeloma cell line, P3U1 using polyethyleneglycol 1500.
- Hybridomas were selected according to Oi et al's method (Selective Methods in Cellular Immunology, W. H. Freeman and Co., San Francisco, 351, 1980) using HAT medium, and the hybridoma producing anti-human IL-6 antibody was established.
- IL-6 binding assay was carried out as follows for the hybridomas producing anti-human IL-6 antibody. That is, a flexible polyvinyl 96-well microplate (supplied by Dynatech Laboratories, Inc., Alexandra, VA) was coated with 100 ⁇ l of goat anti-mouse Ig (10 ⁇ l/ml; supplied from Cooper Biomedical Inc., Malvern, PA) in 0.1 M carbonate-hydrogen carbonate buffer (pH 9.6) at 4°C overnight. Then, the plate was treated with 100 ⁇ l of PBS containing 1% of bovine serum albumin (BSA) for 2 hours at room temperature.
- BSA bovine serum albumin
- the anti-IL-6 antibody MH166 produced by the hybridoma has a subtype of IgGl ⁇ . Then, neutralization activity of MH166 antibody for the growth of hybridomas was examined using IL-6 dependent mouse hybridoma clone MH60.BSF2.
- MH60.BSF2 cells were dispensed at 1 x 10 4 /200 ⁇ l/well, a sample containing MH166 antibody was added thereto followed by being cultured for 48 hours, and 0.5 ⁇ Ci/well of 3 H thymidine (New England Nuclear, Boston, MA) was added. « After an additional 6 hours' culture, the cells were placed on glass filter paper, and treated using an automatic harvester (Labo Mash Science Co., Tokyo, Japan). Rabbit anti-IL-6 antibody was used as the control.
- MH166 antibody inhibited 3 H thymidine uptake of MH60.BSF2 cells induced by IL-6 in a dose dependent manner. This demonstrated that MH166 antibody neutralized the activity of IL-6.
- Anti-IL-6 receptor antibody MT18 made by Hirano et al's method (Hirano, Y. et al., J. Immunol., 143:2900- 2906, 1989) was bound to Sepharose 4B (supplied from
- BALB/c mouse was immunized with the above partially purified IL-6 receptor obtained from 3 x 10 9 U266 cells every 10 days four times, and subsequently hybridomas were made by the standard method. Binding activity to IL- 6 receptor was examined in the hybridoma culture supernatants from growth positive wells by the following method. U266 cells at 5 x 10 7 were labeled with 35 S- methionine (2.5 mCi), and solubilized with the above digitonin buffer.
- solubilized U266 cells were mixed with 0.04 ml volume of MT18 antibody bound to Sepharose 4B beads, subsequently washed with the digitonin buffer six times, then 3S S-methionine labeled IL-6 receptor was eluted with 0.25 ml of the digitonin buffer (pH 3.4), and neutralized with 0.025 ml of 1M Tris (pH 7.4).
- the hybridoma culture supernatant (0.05 ml) was mixed with 0.01 ml of Protein G Sepharose (supplied from Pharmacia). After washing, the Sepharose was incubated with 0.005 ml of the 35 S-methionine labeled IL-6 receptor solution prepared above. Immunoprecipitate was analyzed by SDS-PAGE, and the hybridoma culture supernatants which reacted with IL-6 receptor were examined. Consequently, a reaction positive hybridoma clone, PM-1 (FERM BP-2998) was established. The antibody produced by the hybridoma, PM-1 has a subtype of IgG ⁇ .
- Inhibitory activity of the antibody produced by the hybridoma PM-1 was examined for the binding of IL-6 to human IL-6 receptor using the human myeloma cell line, U266.
- the human recombinant IL-6 was prepared from E. coli (Hirano, T. et al., Immunol. Lett., 17:41-45, 1988), and 125 l-labeled (Taga, T. et al., J. Exp. Med., 166:967- 981, 1987) by Bolton-Hunter reagent (New England Nuclear, Boston, MA) .
- U266 cells at 4 x 10 5 were cultured with 70%(v/v) of the hybridoma PM-1 culture supernatant and 14000 cpm of 125 I-labeled IL-6.
- a sample (70 ⁇ l) was layered on 300 ⁇ l of FCS in a 400 ⁇ l microfuge polyethylene tube, and centrifuged followed by measuring radioactivity on the cells.
- a monoclonal antibody against mouse IL-6 receptor was prepared by the method described in Saito, T. et al., J. Immunol., 147:168-173, 1991.
- mice which produce mouse soluble IL-6 receptor were cultured in IMDM medium containing 10% FCS, and the mouse soluble IL-6 receptor was purified from the culture supernatant using an affinity column where the anti-mouse IL-6 receptor antibody RS12 (See the above Saito, T. et al.) was fixed onto Affigel 10 gel (supplied from
- mice soluble IL-6 receptor 50 ⁇ g was mixed with Freund's complete adjuvant, which was injected into peritoneal cavity of a Wistar rat. After two weeks, additional immunization was started with
- the hybridoma culture supernatants were added to a plate coated with rabbit anti-rat IgG antibody (supplied from Cappel), and subsequently the mouse soluble IL-6 receptor was reacted. Then, the hybridomas producing the antibody against the mouse soluble IL-6 receptor were screened by ELISA method using rabbit anti-mouse IL-6 receptor antibody and alkaline phosphatase labeled sheep anti-rabbit IgG. The hybridoma clone in which the production of the antibody was affirmed was subcloned twice, and a single hybridoma clone was obtained. This clone was named MR16-1.
- MH60.BSF2 cells Neutralization activity of the antibody produced by this hybridoma was examined for signal transduction of mouse IL-6 by uptake of 3 H thymidine using MH60.BSF2 cells (Matsuda, T. et al., J. Immunol., 18:951-956, 1988).
- MH60.BSF2 cells were prepared to be 1 x 10 4 cells/200 ⁇ l/well in a 96-well plate. To this plate, 10 pg/ml of mouse IL-6 and 12.3 to 1000 ng/ml of MR16-1 antibody or RS12 antibody were added, then cultured at 37 °C for 44 hours at 5% C0 2 , and subsequently l ⁇ Ci/well of 3 H thymidine was added.
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- Pain & Pain Management (AREA)
- Orthopedic Medicine & Surgery (AREA)
- Physical Education & Sports Medicine (AREA)
- Medicines Containing Antibodies Or Antigens For Use As Internal Diagnostic Agents (AREA)
- Medicines That Contain Protein Lipid Enzymes And Other Medicines (AREA)
- Pharmaceuticals Containing Other Organic And Inorganic Compounds (AREA)
- Peptides Or Proteins (AREA)
Abstract
Description
Claims
Priority Applications (24)
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EP22170375.4A EP4098279A1 (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6 related diseases |
EP21158548.4A EP3903819A1 (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6 related diseases |
KR1020137003255A KR20130030822A (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6-related diseases |
CN2004800114011A CN1849135B (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6-related diseases |
KR1020097008629A KR101385822B1 (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6-related diseases |
MXPA05011266A MXPA05011266A (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6 related diseases. |
JP2006507726A JP4869063B2 (en) | 2003-04-28 | 2004-04-28 | Method for treating interleukin-6 related diseases |
CA2523577A CA2523577C (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6 related diseases |
KR1020147019105A KR101542336B1 (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6-related diseases |
AU2004233700A AU2004233700B2 (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6 related diseases |
EP04730090A EP1617869A1 (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6 related diseases |
US10/554,407 US7521052B2 (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6 related diseases |
NZ543073A NZ543073A (en) | 2003-04-28 | 2004-04-28 | Methods for treating interleukin-6 related diseases |
BRPI0409910-9A BRPI0409910A (en) | 2003-04-28 | 2004-04-28 | Methods for the Treatment of Interleukin-6 Related Diseases |
CN202010040597.8A CN111068062B (en) | 2003-04-28 | 2004-04-28 | Methods of treating interleukin-6 related diseases |
IL171285A IL171285A (en) | 2003-04-28 | 2005-10-06 | Pharmaceutical compositions containing an interleukin- 6 antagonist and uses thereof |
NO20054959A NO336061B1 (en) | 2003-04-28 | 2005-10-25 | Pharmaceutical composition and use of an anti-interleukin-6 receptor antibody |
HK07102042.7A HK1096859A1 (en) | 2003-04-28 | 2007-02-23 | Methods for treating interleukin-6 related diseases |
US12/382,160 US8709409B2 (en) | 2003-04-28 | 2009-03-10 | Method for treating rheumatoid arthritis by administering an anti-IL-6 antibody and methotrexate |
US14/026,558 US20140017236A1 (en) | 2003-04-28 | 2013-09-13 | Methods for treating interleukin-6 related diseases |
US14/495,001 US20150010554A1 (en) | 2003-04-28 | 2014-09-24 | Methods for treating interleukin-6 related diseases |
US15/919,429 US10744201B2 (en) | 2003-04-28 | 2018-03-13 | Method for treating rheumatoid arthritis with a human IL-6 receptor antibody and methotrexate |
US16/939,518 US20210170024A1 (en) | 2003-04-28 | 2020-07-27 | Method for treating rheumatoid arthritis with a human il-6 receptor antibody and methotrexate |
US17/334,341 US20210283250A1 (en) | 2003-04-28 | 2021-05-28 | Method for treating rheumatoid arthritis with a human il-6 receptor antibody and methotrexate |
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GB0309619.5 | 2003-04-28 | ||
GB0309619A GB2401040A (en) | 2003-04-28 | 2003-04-28 | Method for treating interleukin-6 related diseases |
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US12/382,160 Division US8709409B2 (en) | 2003-04-28 | 2009-03-10 | Method for treating rheumatoid arthritis by administering an anti-IL-6 antibody and methotrexate |
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EP (5) | EP3903819A1 (en) |
JP (9) | JP4869063B2 (en) |
KR (4) | KR20060010765A (en) |
CN (4) | CN105617387B (en) |
AR (1) | AR044104A1 (en) |
AU (1) | AU2004233700B2 (en) |
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MX (1) | MXPA05011266A (en) |
MY (1) | MY146986A (en) |
NO (1) | NO336061B1 (en) |
NZ (2) | NZ567717A (en) |
RU (2) | RU2367471C2 (en) |
TW (1) | TWI400086B (en) |
UA (1) | UA86587C2 (en) |
WO (1) | WO2004096273A1 (en) |
ZA (1) | ZA200508427B (en) |
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