JP2000186046A - Therapeutic agent for and diagnosis of chronic rheumatism and - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain the subject therapeutic agent useful for treatment of chronic rheumatism by adding a material for inhibiting or neutralizing specific interleukin activities, or a material for inhibiting signal transduction of osteoclastogenesis of the above interleukin. SOLUTION: This therapeutic agent for chronic rheumatism contains (A) a material for inhibiting or neutralizing the activities of interleukin-17, preferably interleukin-17 neutralizing antibody, and/or (B) a material for inhibiting signal transduction of osteoclastogenesis of the interleukin-17, preferably osteoclastogenesis inhibitory factor(OCIF) as an active ingredient. The dosage of the therapeutic agent is preferably carried out by once or twice administrations of 0.05-500 mg dose per 30 days. Preferably, the dosage of the OCIF is carried out by one to several times administration of 0.01-100 mg dose, and in the case of a sustained release preparation, the dosage is carried out by once or twice administrations per seven to 15 days.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a novel therapeutic agent for rheumatoid arthritis, which comprises, as an active ingredient, a substance that inhibits the activity of interleukin-17, and a chronic agent for measuring interleukin-17 in blood or synovial fluid. The present invention relates to a method for diagnosing rheumatoid arthritis, and a method for screening for a substance as the active ingredient using a co-culture system of osteoblasts and the like and bone marrow cells.

[0002]

2. Description of the Related Art Rheumatoid arthritis (hereinafter referred to as RA) is a systemic chronic inflammatory disease characterized by the proliferation of synovium in multiple joints, and joint and bone deformation and destruction occur with time. Although the cause of RA is still unknown, many cytokines are involved in its pathogenesis, among which interleukin (IL-1), IL-6, tumor necrosis factor-α
It is known that inflammatory cytokines such as (TNF-α) play an important role. Antirheumatic drugs have been used to treat RA, including narrowly defined antirheumatic drugs and immunosuppressants. Examples of the antirheumatic drug in a narrow sense include an oral gold preparation, D-penicillamine and bucillamine having an SH group, lobenzarit disodium, salazosulfapyridine, actarit and the like. Examples of immunosuppressants include methotrexate and mizoribine, which are included in the broad category of antirheumatic drugs. The purpose of treatment with these antirheumatic drugs is to correct the immune abnormalities of RA, suppress the progress of the disease, and prevent bone destruction and consequent dysfunction. As described above, many antirheumatic drugs are used in the clinic, but all the drugs have side effects, and many side effects such as interstitial pneumonia, hematopoiesis, kidney and liver damage have been reported. In addition, these antirheumatic drugs reduce pain and arthritis, and improve quality of life (QOL).
Although it can be improved, it is considered difficult to control systemic inflammation, joint dysfunction (bone destruction), and the like. There is a demand for the development of an antirheumatic drug that has few side effects and is truly effective in treating RA, particularly in preventing and improving joint dysfunction (joint bone destruction). Further, there is a demand for an accurate method for diagnosing RA and a method for screening a therapeutic agent for RA.

[0003] Various inflammatory cytokines, among them, cytokines such as IL-1, IL-6 and TNF-α play an important role in the pathogenesis of RA. Regarding 6, treatment of RA through inhibition of signal transduction by IL-6 has been attempted. IL-6
As a method of inhibiting signal transduction, suppresses IL-6 production, neutralizes IL-6, inhibits binding between IL-6 and IL-6 receptor, IL-6 / 1L-6 receptor Methods such as inhibiting the binding between the body and gp130 have been considered. Specifically, as a method of inhibiting IL-6 signaling, treatment of RA with humanized anti-IL-6 receptor antibody has been attempted, and the possibility of RA treatment with humanized anti-IL-6 receptor antibody has been investigated. Is suggested. In addition, since humanized anti-IL-6 receptor antibody is thought to inhibit the promotion and activation of osteoclast formation by IL-6, it is expected to suppress the progression of joint lesions.

In recent years, interleukin-17 (hereinafter referred to as IL-17)
Have been discovered and their functions are being explored (clinical immunity, 29,
678-682 (1997)). IL-17 is known to induce synovial fibroblasts to produce inflammatory cytokines such as IL-6, IL-8, and GCSF, and to induce differentiation of mature neutrophils . Recently, it has been speculated that IL-17 may be involved in inflammatory diseases. However, IL-17 is a novel cytokine derived from T cells, and its involvement in the pathogenesis of RA has not been clarified. In addition, as described later, many of the inflammatory cytokines including IL-6 have an activity of promoting osteoclast formation by signaling through gp130,
It is known to have a bone resorption-enhancing effect, but IL-17
For its role in osteoclastogenesis,
Little is known.

On the other hand, an osteoclast formation inhibitory factor (Osteoclasto)
genesis Inhibitory Factor (OCIF) is expressed in the culture medium of human normal fetal lung-derived fibroblasts IMR-90 (ATCC CCL-186).
It is found as a factor that specifically suppresses the formation of itroosteoblasts, and is a cytokine purified and purified from its culture solution (WO 96/26217; Tsuda et al .: Biochem. Bioph
ys. Res. Commun., 234, 137-142 (1997)). Furthermore, the internal amino acid sequence of the purified OCIF protein was determined (Tsud
a et al .: Biochem. Biophys. Res. Commun., 234, 137-
142 (1997)), DNA synthesized based on the amino acid sequence
From the IMR-90 cDNA library as a probe
OCIF cDNA has been cloned. This human OCIF cDNA
Is incorporated into an expression vector for animal cells, and transformed cells obtained by transducing the expression vector into animal cells are cultured, and a recombinant human OCIF is obtained from the culture solution (WO 96/26217). . Genetically modified OCIF (rOCI
Administration of F) significantly improves bone density and bone strength in immobilized and ovariectomized rats (WO96 / 26217, Simonet
et al .: Cell 89, 309-319, 1997), and also in normal rats, have been shown to result in a marked increase in bone density and bone volume with a decrease in osteoclast numbers. (Yasuda et al .: Endocrinology, 139, 1329-1337, (199
8)). OCIF exists in nature as a monomer (monomer type) and a dimer (homodimer type). Monomer type OCIF
Has a molecular weight of about 60 kD in reduced and non-reduced SDS-polyacrylamide gel electrophoresis (SDS-PAGE), and has a molecular weight of about 120 kDa in non-reduced SDS-PAGE.
kD and about 60 kD on SDS-PAGE under reducing. Human OC
Both IF and mouse OCIF consist of 380 amino acids with a homology of 86% between them. Homodimer OCIF is C-
It is formed by an intermolecular disulfide bond by the second cysteine residue from the terminal (Yamaguchi et al .: J.
Biol. Chem. 273, 5117-5123, (1998)). The specific activity in inhibiting osteoclastogenesis in vitro is comparable between monomeric and homodimeric OCIF with no difference. OCIF is N-
There are four cysteine-rich domains in the terminal region, and OCIF is a TNF receptor (TNFR)
Transmembrane belonging to the family (Transmembrane, TM)
It is a soluble new member without a region. Also, OC
The C-terminal region of IF contains the TNFR family Fas and TNFR-1
Homologous region homologous to the apoptosis-inducing region (death domain, DD) found in
(DHH) exists in two places. Furthermore, on the C-terminal side, there is a region showing affinity for heparin (Yamaguchi et al .: J. Chem.
Biol. Chem. 273, 5117-5123 (1998)).

[0006] RA is an intractable inflammatory disease mainly involving the synovium of the joint. Bone disorders in RA are classified into bone destruction occurring in the affected joint, osteoporosis around the affected joint which appears from the early stage of the disease activity, and systemic osteoporosis gradually appearing as the RA lesion progresses. In particular, it is known that osteoporosis around affected joints begins to develop from an early stage of the disease, and bone mineral content decreases more rapidly than at other sites. RA is a systemic chronic inflammatory disease, and many antirheumatic drugs, mainly anti-inflammatory agents and the like, are used for the treatment. As described above, these antirheumatic drugs have a wide variety of side effects, and it is difficult to prevent bone destruction in RA. Although the cause of RA is still unknown, many inflammatory cytokines are involved in its pathogenesis,
Interleukin-1 (IL-1), IL-6, TNF-α
Inflammatory cytokines have been shown to play an important role. This indicates that the concentration of IL-6 in synovial fluid is higher than that of osteoarthritis exhibiting joint symptoms similar to RA (Hirano, T. et al .: Eur. J. Immunol., 1
8, 1797-1801, (1988)). In fact, to develop more effective and less side-effect drugs,
Attempts have been made to treat RA through the inhibition of cytokine signaling by humanized antibodies that neutralize the effects of these individual inflammatory cytokines or humanized antibodies against these inflammatory cytokine receptors.

[0007] On the other hand, bone metabolism depends on the combined activity of osteoblasts responsible for bone formation and osteoclasts responsible for bone resorption. It is thought that the imbalance between bone formation and bone resorption causes abnormal bone metabolism. Osteoporosis, hypercalcemia, Paget's disease of bone, renal osteodystrophy, RA, osteoarthritis and the like are known as diseases accompanied by abnormal bone metabolism. In particular, joint bone destruction in RA is said to occur due to abnormally enhanced bone resorption. It is thought that the enhancement of bone resorption is caused by formation of osteoclasts responsible for bone resorption and promotion of bone resorption activity. Therefore, the prevention and / or treatment of joint bone destruction in RA includes specifically suppressing the abnormally enhanced bone resorption, ie, inhibiting (suppressing) osteoclast formation, and / or inhibiting osteoclasts. Inhibits (suppresses) the bone resorption activity of a substance, and a substance having such an action is expected as a more effective antirheumatic drug with less side effects.

[0008] The cells responsible for bone metabolism are osteoblasts and osteoclasts, and these cells interact closely with each other, and this phenomenon is called coupling. Osteoblasts / osteoblast-like stromal cells regulate osteoclast differentiation, maturation, and bone resorption activity by mature osteoclasts by cell-cell adhesion to osteoclast precursor cells and mature osteoclasts, respectively. Is known to be. Osteoblasts / osteoblastic stromal cells, three different signaling systems with various bone resorption factor, or active vitamin D ₃ is D ₃ receptors in the nucleus, interleukin -1 (IL-1), parathyroid Hormone (PTH) and prostaglandin E ₂ (PGE ₂ ) are protein ki
nase A, inflammatory cytokine IL-6, soluble IL
-6 receptor, IL-11, leukemia inhibitory factor (LIF) and oncostatin M, etc., receive a signal via gp130 to induce osteoclast differentiation inducer (osteoclastogenesis diffe).
(Suda et al .: Endocrine Rev. 1) has been proposed to express rentiation factor (ODF) on the cell membrane.
3, 66-80 (1992); Suda et al .: Bone 17, 87S-91S (19
95)). As described above, OCIF is a soluble receptor belonging to the TNF receptor and has been shown to specifically bind to ST2 cells, a mouse osteoblast-like stromal cell line treated with active vitamin D ₃ (Yasuda et al. : Endocri
nology, 139, 1329-1337 (1998)).

An OCIF binding molecule expressed on the membrane by expression cloning using ¹²⁵ I-labeled OCIF (OCIF bindi
ng molecule, OBM) cDNA was cloned (Yas
udaet al. Proc. Natl. Acad. Sci. USA, 95, 3597-360
2 (1998)). This OCIF-binding molecule, OBM, is a membrane-bound protein, and the results of its biological activity test show that OBM has activity as an osteoclast differentiation-inducing factor (ODF). (Yasudaet al .: Proc. Natl. Acad. Sci.
USA, 95, 3597-3602 (1998)). That is, as described above, OBM is an osteoclast differentiation-inducing factor (osteoblast formation) expressed on osteoblasts / osteoblast-like stromal cells by three different signal transductions by various bone resorption factors including inflammatory cytokines. The mechanism of action of OCIF has been clarified that OCIF exerts an inhibitory effect on osteoclastogenesis by binding to this OBM (Yasuda et al .: E
ndocrinology, 139, 1329-1337 (1998); Yasuda et a
l .: Proc. Natl. Acad. Sci. USA, 95, 3597-3602 (199
8)).

[0010]

SUMMARY OF THE INVENTION IL-17 is a novel cytokine derived from T cells, but its role in osteoclast formation has been largely unclear. We believe that IL-17
Have a significant relationship with RA pathology. The present inventors have further studied and found that suppression of IL-17 activity and / or suppression of signal transduction leads to treatment of RA,
The present inventors have also found that one of the pharmacological effects of OCIF lies in the suppression or neutralization of IL-17 activity and / or the inhibition of osteoclastogenesis-induced signal transduction by IL-17. Then, when the content of IL-17 in blood or synovial fluid was measured, it was found that RA could be distinguished from osteoarthritis, trauma or gout according to the content. Furthermore, in the co-culture system of osteoblasts and the like and bone marrow cells, if the suppression of differentiation into osteoclasts is used as an index, a substance that suppresses or neutralizes the activity of IL-17 or signaling of osteoclast formation by IL-17 is considered A method for screening for an inhibitory substance has been found. Accordingly, an object of the present invention is to provide a therapeutic agent for RA, comprising as an active ingredient a substance that suppresses or neutralizes the activity of IL-17 in a living body and / or a substance that inhibits IL-17-induced osteoclastogenesis signal transduction. Is to do. Another object of the present invention is to provide a method for diagnosing RA by measuring IL-17 in blood or synovial fluid. It is a further object of the present invention to provide a method for screening a substance that suppresses or neutralizes IL-17 activity and / or a substance that inhibits IL-17 osteoclastogenesis signal transduction.

[0011]

DISCLOSURE OF THE INVENTION The present invention provides IL-1 in a living body.
7. A therapeutic agent for rheumatoid arthritis, comprising as an active ingredient a substance that inhibits or neutralizes the activity of No. 7 and / or a substance that inhibits signal transduction of osteoclast formation induction of IL-17. More specifically, examples of such a substance include a substance that neutralizes interleukin-17 activity as a substance that neutralizes interleukin-17 activity. Osteoclastogenesis Inhibitory Facto
r; OCIF). In addition, the present invention relates to a method for diagnosing rheumatoid arthritis, which measures the content of interleukin-17 in collected blood or synovial fluid, and diagnoses rheumatoid arthritis based on the measured value. Further, the present invention provides
Osteoclast induced by a substance that suppresses or neutralizes interleukin-17 activity and / or IL-17 in a co-culture system of osteoblasts or osteoblast-like stromal cells and bone marrow cells, using the inhibition of osteoclast differentiation as an index The present invention relates to a method for screening for a substance that inhibits cell formation-inducing signal transduction. INDUSTRIAL APPLICABILITY The present invention can be used as a medicament used for prevention and treatment of joint bone destruction in diseases such as RA, and also for diagnosis of RA or screening for searching for a substance effective for RA.

[0012]

DETAILED DESCRIPTION OF THE INVENTION According to the study of the present inventors, as shown in the examples below, IL-17 levels in synovial fluid are significantly (p <) in RA patients than in osteoarthritis patients. 0.
001) It was found to show high value. In addition, it was also revealed that IL-17 positive cells were present in CD4 ₊ and CD45RO ₊ T cells in synovial fluid tissue derived from RA patients. Thus, IL-17 is RA
It was suggested that it was deeply involved in the pathogenesis of the disease. In order to clarify the involvement of IL-17 in enhancing bone resorption, the present inventors conducted extensive studies on the effect of IL-17 on promoting osteoclast formation. In a co-culture system with blast cells, it was found that multinucleated osteoclasts were remarkably induced from bone marrow cells, and it was confirmed that they are deeply involved in the pathogenesis of RA, especially in the destruction of joint bone. From the above results, it was found that IL-17 is useful as a diagnostic marker for this disease state, and is also a useful index in screening for a production inhibitor or a signal transduction inhibitor as a therapeutic agent for RA. Furthermore, from the above, substances that suppress or neutralize the activity of IL-17 or
Substances that inhibit osteoclast formation signaling by IL-17 were expected to be promising as antirheumatic drugs. It was confirmed that such a substance, an anti-IL-17 neutralizing antibody or OCIF, suppressed the formation of osteoclasts. In particular, it was found that OCIF markedly inhibited the marked induction of osteoclast formation by IL-17. That is, OCIF completely inhibits not only the above-mentioned inflammatory cytokines known to be involved in the pathogenesis of RA but also the IL-17-induced osteoclast formation found in the present invention. It turned out to be. The present inventors have noted that RA patients
Increased IL-17 and, with the increase, promoted osteoclast formation and promoted bone destruction, and such bone destruction was selectively suppressed by the osteoclastogenesis inhibitor (OCIF) For the first time.

As described above, the present inventors show that IL-17 levels in synovial fluid of RA patients are significantly (p <0.001) higher than those of osteoarthritis patients, and that Exerts a bone resorption effect through remarkable osteoclastogenesis-inducing activity, and was thus found to be a cytokine deeply involved in lesions such as joint bone resorption in RA. Furthermore, from these results, if the activity of IL-17 in the living body can be suppressed or neutralized and / or the signaling of osteoclast formation induction by IL-17 can be inhibited, RA is treated. Found that it is possible. Therefore, if a drug containing as an active ingredient a substance having an activity of suppressing or neutralizing the activity of IL-17 and / or a signal which inhibits IL-17-induced osteoclast formation-inducing signal transduction is used as an RA therapeutic agent, Treatment becomes possible. Examples of such a substance include a substance that suppresses the production of prostaglandin E ₂ (PGE ₂ ), a signal inhibitor that inhibits PGE ₂ , an antibody that neutralizes IL-17, and an osteoclast that is induced by IL-17. A substance such as an osteoclast formation inhibitory factor (OCIF) that inhibits the formation-inducing signal transduction can be exemplified, and an IL-17 neutralizing antibody or OCIF is particularly preferably used.

In the therapeutic agent for RA of the present invention containing an antibody that neutralizes IL-17 activity as an active ingredient, the IL-17 neutralizing antibody as an active ingredient can be any of a monoclonal antibody and a polyclonal antibody. Further, any of a human type and a mouse type can be used, but preferably, a humanized anti-human IL-1 is used.
7 Monoclonal antibodies are used. The production of the antibody can be performed by the following method. That is, a polyclonal antibody against IL-17 can be obtained by immunizing rabbits or goats with purified IL-17 by a conventional method, and purifying the obtained antiserum using a protein A column (Pharmacia). The neutralizing antibody for IL-17 can be selected as an index based on the suppression of production of IL-6 when IL-17 acts on synovial fibroblasts. Alternatively, a commercially available neutralizing antibody can be used (eg, manufactured by R & D System Inc.)
.

A monoclonal antibody against IL-17 can be prepared as follows. That is, Balb / c mice are immunized by administration of purified IL-17, and mouse spleen cells are fused with mouse myeloma by a conventional method to prepare a hybridoma, and a hybridoma producing an antibody against IL-17 is selected. As the immunizing antigen, purified IL-17 may be commercially available, or may be produced by a genetic recombination method using a known IL-17 gene. By cloning the obtained antibody-producing hybridoma several times (usually about three times), a stable purified hybridoma can be established. The antibody-producing hybridoma thus established is cultured, and a monoclonal antibody against IL-17 can be purified from the culture supernatant using a protein A column (Pharmacia). In addition, humanized antibodies are selected from human anti-monoclonal antibodies obtained by the above-described method.
Antibodies that neutralize IL-17 activity and have high affinity for human IL-17 (dissociation constant as low as possible, for example, 10 ^-10
M).

Next, a method (CDR-graf) in which all the variable regions (CDRs) which are the antigen recognition sites of the obtained mouse anti-human IL-17 monoclonal antibody are transplanted into the variable regions of human IgG
ting) can be humanized. Further, purified human IL-17 is administered to a transgenic mouse in which the entire human immune system is transplanted into a mouse, and the mouse is immunized. The spleen cells of the immunized mouse and the mouse myeloma are subjected to cell fusion by a conventional method as described above to prepare a hybridoma. Purification of antibody-producing hybridoma cultures using a protein A column yields fully human anti-human IL.
-17 Monoclonal antibodies can be obtained. By selecting an antibody that neutralizes human IL-17 activity and exhibits high affinity for human IL-17 from the obtained human monoclonal antibodies, the human anti-human IL targeted by the present invention is obtained. -17
A monoclonal antibody can be obtained. Human anti-human IL neutralizing the activity of human IL-17 thus obtained
The -17 monoclonal antibody can be used as a therapeutic agent for RA. Human IL-17 used as an immunogen is a known gene (Rouvier, E. et. Al, J. Immunol., 150, 5445 (199
3)) may be produced by genetic recombination,
Commercially available purified IL-17 can also be used.

In the RA therapeutic agent of the present invention comprising OCIF as an active ingredient, OCIF prepared by various methods can be used as long as it is purified to such an extent that it can be used as a medicine. As a method for preparing OCIF, for example, a method of culturing primary cultured cells or cell lines that produce OCIF and separating and purifying it from the culture supernatant to obtain OCIF (WO96 / 26217; Tsudaet
al., Biochem. Biophys. Res.Commun., 234, 137-142
(1997)), a gene encoding OCIF was inserted into an appropriate vector by a genetic engineering technique, and this was introduced into an appropriate host to construct a transformed cell line. To obtain recombinant OCIF (WO
96/26217; WO96 / 20621; Simonet etal .: Cell 89,
309-319, 1997). As a specific method for purifying OCIF from the culture supernatant of primary culture cells or cell lines, for example, chromatography using S-Sepharose or heparin Sepharose, gel filtration chromatography, HPLC using a reverse phase column, It can be purified by a conventional protein purification method (Tsuda et al .: Bioch.
em. Biophys. Res. Commun. 234, 137-142 (1997)).

Further, using a gene recombination method, a gene encoding the amino acid sequence of human OCIF is inserted into an expression vector for animal cells containing SR-α or CMV promoter, and this gene has been used by genetic engineering techniques. Various host cells, such as Escherichia coli, Bacillus subtilis, yeast, filamentous fungi, plant or animal cells, etc., preferably animal cells, such as Chinese hamster ovary (CHO) cells, Namalba cells, mouse C1
27 cells, monkey COS cells, etc., and can be purified in the same manner from the resulting culture of transformed cells. In the OCIF thus obtained, a part of the amino acid sequence is deleted or replaced by another amino acid, or a mutant in which another amino acid sequence is partially inserted or an N-terminal region essential for activity. It may be a variant in which the four existing cysteine-rich domains are conserved and the entire C-terminal region has been replaced by another protein molecule, such as immunoglobulin Fc. A drug containing OCIF and the like obtained in this manner,
That is, the agent of the present invention can be used as an agent for preventing and / or treating joint bone destruction in chronic rheumatism. OCIF, in particular, inhibits IL-17 destruction of joint bone,
1. Suppresses osteoclastogenesis-induced signal transduction by IL-6 and TNF-α, and is therefore effective for a wider range of inflammatory RA.

The RA therapeutic agent of the present invention is safely orally or parenterally administered to humans or animals as a medicament. For parenteral administration, for example, injections can be prepared by a conventional method. When human IL-17 neutralizing antibody or OCIF is used as an injection, dissolve in an appropriate solvent such as sterile water, buffer solution, or physiological saline, sterilize by filtration with a filter, etc., and then place in a sterile container. It can be prepared by filling. The antibody content in the injection is usually about 0.001 to 20 w / v%, while the OCIF content is usually about 0.0001 to 5 w / v%, preferably 0.001 to 1 w / v%.
It is adjusted to about w / v%. When OCIF or an antibody is used as an active ingredient, the content of the antibody or OCIF in the preparation can be appropriately adjusted according to the dosage form, the applicable disease, and the like. Upon formulation, a stabilizer and an adsorption inhibitor are preferably added. As the stabilizer, for example, albumin, gelatin, sugar alcohols such as mannitol and sorbitol, amino acids such as glycine and alanine, glucose, dextran, polyethylene glycol and the like are used. In addition, as an adsorption inhibitor, albumin,
Nonionic surfactants such as gelatin and polysorbates 20 and 80 are used. The liquid preparation is desirably stored by freezing or lyophilizing to remove water. The lyophilized preparation is used after reconstitution by adding distilled water for injection or the like at the time of use. The RA therapeutic agent of the present invention is administered by an appropriate administration route in a dosage form according to the disease state of the applicable disease. For example, the injection can be administered intravenously, subcutaneously, intramuscularly, or intraarticularly in the prevention and / or treatment of joint bone destruction which is a feature of the present drug application. The dose at that time is appropriately adjusted depending on the condition, age, body weight, etc. of the patient. However, since the humanized antibody usually has an extremely long half-life (around 20 days), 0.05 to 500 mg should be administered once every 30 days.
It may be administered about to twice. On the other hand, OCIF may be administered at a dose of 0.01 to 100 mg once or several times a day, or as a sustained-release preparation once or twice a day for 7 to 15 days. When the therapeutic agent of the present invention is orally administered, for example, it is formulated into tablets, granules, fine granules, powders, soft or hard capsules, solutions, emulsions, syrups, etc. Can be prepared according to a conventional method.

In the present invention, RA can be diagnosed by measuring the IL-17 content in the collected blood or synovial fluid. Usually, it is judged positive when the concentration is 2 ng / ml or more. In order to measure the IL-17 content, an enzyme immunoassay kit (ELISA) or a radioimmunoassay kit (RIA) using an IL-17 antibody can be used. IL-1
7 As the IL-17 antibody used for the measurement reagent, either a polyclonal antibody or a monoclonal antibody can be used. Antibodies can be prepared by the methods described above,
By constructing an ELISA or RIA by combining these polyclonal antibody-polyclonal antibody, polyclonal antibody-monoclonal antibody, monoclonal antibody-monoclonal antibody against IL-17, the IL-17 content in human serum and synovial fluid can be increased. It can be measured with sensitivity. RA patients have specifically increased IL-17 in serum and synovial fluid, and can clearly distinguish patients with osteoarthritis that are indistinguishable from RA patients in diagnosis.

As described above, osteoclast formation by IL-17 is caused by IL-17 acting on osteoblasts / osteoblast-like stromal cells to produce prostaglandin E ₂ (PGE ₂ ). PG
E ₂ again receives the osteoblast / osteoblastic stromal cells via the protein kinase A signaling by, osteoclastogenesis differentiation inducing agent to the cell surface, expressing OBM, to promote osteoclastogenesis. Therefore, in a co-culture system of osteoblasts or osteoblast-like stromal cells and bone marrow cells, IL-17 activity is suppressed or neutralized by a substance that inhibits or neutralizes IL-17, and / or IL-17 It is possible to screen for substances that inhibit osteogenesis-inducing signaling. Specifically, primary cultured osteoblasts and mouse bone marrow cells derived from the skeletal skeleton of neonatal mice, or mouse spleen cells and mouse osteoblast-like stromal cell lines, and IL-17-induced osteoclasts in a co-culture system with ST2 Using a formation-inducing activity (tartrate-resistant acid phosphatase activity: TRAP activity or calcitonin receptor expression) as an index, a test substance is added to this culture system and cultured, and the above-mentioned TRAP activity or calcitonin receptor expression is expressed. A substance that neutralizes or suppresses IL-17 activity of interest and / or inhibits osteoclastogenesis-induced signaling by IL-17 by measuring or more directly observing osteoclast formation Substances can be screened. Both TRAP activity and calcitonin receptor expression can be easily measured with high sensitivity using a commercially available immunoassay kit and ¹²⁵ I-labeled salmon calcitonin (manufactured by Amersham). Substances that are positive in this screening system are those that inhibit IL-17 activity, inhibit IL-17-induced osteoclastogenesis promoting signal to osteoblasts / osteoblast-like stromal cell lines, or produce PGE ₂ Is detected.

[0022]

The present invention will be described in more detail with reference to the following examples, which are merely illustrative, and do not limit the present invention.

[0023]

Example 1 Polyclonal anti-neutralizing IL-17 activity
The effect of a polyclonal antibody, which neutralizes the activity of IL-17, which inhibits osteoclastogenesis by the body, on the in vitro osteoclastogenesis-inducing activity of IL-17 was examined in the same manner as in Example 5. That is, in a co-culture system of osteoblasts and bone marrow cells, IL-17 (1 ng / ml, a recombinant product, PeproTech
EC company), active vitamin D ₃ (1 α, 25 (OH) ₂ D ₃ , 10 ^-8 M,
IL-1β (10 ng / ml, Genzyme) or PTH (200 ng / ml, Asahi Kasei) or IL-1β
7 IL-17 (Genetically modified product Pepro Tech
2.5 μg / ml of a polyclonal neutralizing antibody against IL-17 obtained from goat serum immunized with E.C., Inc. and 5 μg / ml for a culture supplemented with active vitamin D ₃ , PTH or PGE _2.
ml of polyclonal neutralizing antibody to IL-17 was added. Osteoclast formation was evaluated by fixing adherent cells in each well after culturing for 6 days, and then performing TRAP staining and counting the number of TRAP-positive osteoclasts. For TRAP staining, adherent cells
Fix with 10% formaldehyde for 3 minutes, air dry the surface of each well, then use 0.01% AS-MS phosphate (Sig
ma) and 50 mM sodium tartrate in a acetic acid buffer containing 0.03% red violet LB salt as a dye for the reaction product at room temperature for 10 minutes. TR
AP cells appear as dark red. TRAP positive multinucleated cells containing three or more nuclei were counted as osteoclasts. Each experiment was repeated four times and the results obtained are shown in FIG. Further, in order to confirm that these cells are osteoclasts, the method of Udagawa et al. (Udagawa et al .: Proc) using salmon calcitonin (Amersham) whose calcitonin receptor expression was labeled with ¹²⁵ I. .Natl.Acad. Sci. USA.87, 7
260-7264 (1990)), it was confirmed to be osteoclasts. As a result, it was revealed that a polyclonal neutralizing antibody against IL-17 specifically inhibited the osteoclast formation-inducing activity of IL-17. As is evident from these results, the polyclonal neutralizing antibody against IL-17 suppresses joint bone resorption by IL-17 present at high levels in RA synovial fluid, and is useful as a therapeutic agent for RA.

[0024]

Example 2 Inhibition of Osteoclast Formation by OCIF The effect of OCIF on the in vitro osteoclast formation induction activity by IL-17 was examined in the same manner as in Example 1. That is, in a co-culture system of osteoblasts and bone marrow cells, OCIF was used in the presence of IL-17 (1 ng / ml) as an osteoclastogenesis inducer.
It was added to a concentration of 1.5 to 50 ng / ml and cultured for 6 days. After completion of the culture, the number of TRAP-positive multinucleated cells (osteoclasts) was counted. Each experiment was repeated four times and the results obtained were
As shown in FIG. As a result, osteoclast formation by IL-17
IF was shown to suppress dose-dependently and almost completely inhibit osteoclast formation at a concentration of 25 ng / ml.

Known bone resorbing factors, including inflammatory cytokines such as IL-1β, IL-6 and IL-11, and active vitamin D ₃ , PTH, PGE ₂ , etc., cause osteoblasts via three different signal transduction systems. It has already been shown that these signals are transmitted to cells / osteoblast-like stromal cells, and that they express an OCIF binding molecule (OCM) having an osteoclastogenesis-inducing activity on the cell surface ( Yasuda et a
l .: Endocrinology, 139, 1329-1337 (1998)). Since OCIF also completely suppresses IL-17-induced osteoclast formation, which was newly clarified in the present invention, the present inventors induced OBM expression on osteoblasts by IL-17 stimulation. I checked it. Also, the presence or absence of OCIF expression induction and the presence or absence of β-Actin induction as a control were confirmed. Various concentrations of IL-7, NS398 (10 ^-8 M), IL-1β (1 ng / ml), TNF-α (1
(0 ng / ml) or in the presence or absence of active vitamin D ₃ (10 ⁻⁸ M), mouse osteoblasts were cultured for 3 days. After culturing, 20μg of total RNA from the same cells and probe
Northern blot analysis was performed using OBM cDNA. The results are shown in FIG. Only OBM was specifically induced. As a result,
IL-1β and TN, bone resorption factors that have already been identified
Like the F-alpha and active vitamin D _3, IL-17 acts on osteoblasts revealed that promote concentration-dependent manner the gene expression of OBM. Also, induction of OCIF was independent of the presence of these bone resorption factors. As a result, inhibition of IL-17-induced osteoclastogenesis by OCIF blocks OBM-induced osteoclast-forming signals by binding of OCIF to OBM induced by IL-17 on osteoblasts. It became clear that it was due to. These results clearly show that OCIF completely suppresses the osteoclast formation-promoting effect of all cytokines known to be deeply involved in the pathogenesis of RA, including IL-17, that is, bone resorption. became. In particular, OCIF is useful for RA treatment because it inhibits osteoclast formation against IL-17, which is present at high levels in RA synovial fluid. Furthermore, OCIF has been recognized as a cytokine with high specificity as an osteoclastogenesis inhibitor, and has extremely low toxicity (Yasu
da et al .: Endocrinology, 139, 1329-1337 (1998); M
izuno et al .: Biochem. Biophys. Res. Commun. 247,
610-615 (1998)), and is promising as an extremely safe and highly effective therapeutic agent for RA, particularly as a bone resorption inhibitor in joints.

[0026]

Example 3 Production of OCIF-Containing Formulation The drug of the present invention includes two antibodies, an antibody that neutralizes IL-17 activity and OCIF. In general, the dose of an antibody for therapeutic purposes is determined by the dose of a hormone or cytokine. It is relatively high compared to the dose, and has excellent stability as a protein. For this reason, no problem occurs even if a known formulation method is adopted.
Therefore, the examples in the preparation of the preparations mainly exemplify the formulation of OCIF. Of course, a preparation containing an antibody as an active ingredient can be similarly carried out in accordance with the preparation of OCIF in this example. Genetically modified products were used for the preparation of OCIF. Formulation Example 1 A solution containing 1 mg of OCIF, 1 g of sorbitol and 10 mg of polysorbate 80 in 100 ml of physiological saline was sterile-filtered, and 1 ml of
After dispensing into sterile vials, freeze-dried and sealed to obtain a freeze-dried preparation.

Formulation Example 2 876.6 mg of sodium chloride in 1OmM phosphate buffer (pH 7.4), 1m of OCIF
g and 100 mg of low-molecular-weight gelatin, then dissolve in the same buffer.
Adjust to 00 ml. After sterile filtration, each 1 ml was dispensed into a sterile vial, freeze-dried and sealed to obtain a freeze-dried preparation.

Formulation Example 3 OCIF 1 mg, mannitol 2 in 100 ml of physiological saline for injection
g, a solution containing 8010 mg of polysorbate is sterile filtered,
After dispensing 1 ml at a time into sterile vials, the mixture was freeze-dried to obtain a freeze-dried preparation.

Formulation Example 4 A solution containing 1 mg of OCIF, 2 g of glycine and 10 mg of polysorbate 80 in 100 ml of physiological saline is sterile-filtered, dispensed into sterile vials 1 ml at a time, and freeze-dried to obtain a freeze-dried preparation. Was.

[0030]

Example 4 RA patients, osteoarthritis patients, trauma patients and
Measurement of IL-17 in synovial fluid of gout patients 43 RA patients (both male and female), 9 osteoarthritis (OA) patients, 4 trauma (Tr) patients, and 7 control patients The concentration of IL-17 in synovial fluid from patients with gout (G) was measured. The amount of IL-17 in synovial fluid is determined by ELISA kit (Boisource
International Corporation) according to the attached protocol. FIG. 4 shows the results. As a result, IL-17 levels in joint synovial fluid are often high in RA,
There were significant (p <0.001) differences between patients with OA.

[0031]

Example 5 Activity of IL-17 to Induce Osteoclast Formation in Vitro 0.1% of skulls (20 to 30) obtained from neonatal mice
Primary cultured osteoblasts were prepared by digesting 5 times in a sequence using collagenase and 0.2% dispase.
On the other hand, mouse bone marrow cells were obtained from mature mice. Co-culture of osteoblasts and bone marrow cells was performed by the method of Udagawa et al.
al .: Proc. Natl. Acad. Sci. USA, 87, 7260-7264 (19
90)). That is, using a 48-well plate,
Primary cultured osteoblasts (2 × 10 ⁴ cells / well) and bone marrow cells (5 × 10 ⁵ cells / well) were combined with 10% bovine serum (FBS, JRH Bio
α-MEM (GIBCO BRAL) containing a test substance and a test substance
Co-cultured in 0.3 ml). Four culture wells were used for each test substance containing IL-17, and the culture was replaced on day 3 with fresh medium. Osteoclast formation is determined by TRAP staining after fixation of adherent cells in each well after culturing for 6-7 days.
It was evaluated by counting the number of AP-positive osteoclasts. TRAP
For staining, adherent cells were washed with 10% formaldehyde for 3 hours.
The surface of each well is air-dried, then 0.03% red violet LB salt as a staining dye for the reaction product in the presence of 0.01% AS-MS phosphate (Sigma) as substrate and 50 mM sodium tartrate. In an acetate buffer containing
Incubated at room temperature for 10 minutes. TRAP-positive cells appear as dark red. TRAP positive multinucleated cells containing three or more nuclei were counted as osteoclasts. FIG. 5 shows the results. As a result, IL-17 is converted to osteoclast precursor cells (hematopoietic cells)
Has the activity of inducing osteoclast formation in a dose-dependent manner from
It was revealed that the activity was exhibited at a low concentration of 0.01 to 10 ng / ml. In addition, since osteoclasts induced by IL-17 form innumerable bone resorption pits on the ivory section, it was confirmed that they were mature osteoclasts having bone resorption activity. In the synovial fluid of RA patients in Example 4
IL-17 is deeply involved in the pathogenesis of RA, as evident from the significantly high level of IL-17 and the remarkable activity of IL-17 to induce osteoclastogenesis in this example, ie, the activity of enhancing bone resorption. It has been suggested. Therefore, the reagent for measuring IL-17 is
Useful as a diagnostic for RA.

[0032]

[Example 6] In vitro osteoclast formation induction activity by IL-17
In a similar manner as the screening in Example 5 of a substance that inhibits sex, the co-culture system of osteoblasts and bone marrow cells, IL-17 as osteoclast formation promoting factors, the active vitamin D ₃ or PGE ₂ was added And indomethacin or cyclooxygenase-2 as an anti-inflammatory drug
NS398, a specific inhibitor of (Cox-2), was added and cultured for 6 days. IL-17 was added at 1 ng / ml, and active vitamin D ₃ and PGE ₂ were added at 10 ^-8 M and 10 ^-6 M, respectively. Indomethacin and NS398 were both
10 ^-8 M was added. After 6 days of culture, TRAP-positive multinucleated cells were counted. Each test was performed four times and cell numbers were expressed as mean ± SEM. FIG. 6 shows the results. As a result, it was revealed that the promotion of osteoclast formation by IL-17 was specifically suppressed by indomethacin and Cox-2 inhibitors. Nonsteroidal anti-inflammatory drugs are essential for the treatment of RA, especially
Cox-2 specific inhibitors are expected as RA treatments with few side effects. As described above, when screening was performed using the inhibition of in vitro osteoclast formation by IL-17 as an index, compounds that were conventionally known as therapeutic agents for RA or compounds that were expected to be promising were easily and Screening was successful. Therefore, the present invention is useful as a screening system for RA therapeutic agents.

[0033]

According to the present invention, a substance which suppresses or neutralizes the activity of IL-17 in a living body and / or a substance which inhibits signal transduction of osteoclast formation induction by IL-17 is used as an active ingredient. A therapeutic agent for RA, a diagnostic method for RA characterized by measuring IL-17 in blood or synovial fluid, and a method for screening a substance that suppresses the osteoclastogenesis system formed by IL-17 are provided. . IL-17 is an RA diagnostic marker
A screening method using an osteoclast-forming system by IL-17 is useful as a screening method for RA drugs.

[Brief description of the drawings]

FIG. 1 shows the inhibitory effect of osteoclast formation by a polyclonal antibody that neutralizes the activity of IL-17 in Example 1.

FIG. 2 shows the concentration-dependent osteoclast formation inhibitory effect of OCIF of Example 2.

FIG. 3 shows various osteoclastogenesis-inducing factors and IL-1 of Example 2.
7 shows the results of Northern blot analysis confirming that OBM is expressed.

FIG. 4 IL-1 in synovial fluid of rheumatoid patients (RA), osteoarthritis patients (OA), trauma patients (Tr), and gout patients (G) of Example 4.
7 shows a box-and-whisker diagram showing the results of measuring the content by ELISA.

FIG. 5 shows that in the co-culture system of osteoblasts and bone marrow cells of Example 5, IL-17 promotes osteoclast formation in a concentration-dependent manner.

FIG. 6 shows that IL-17-induced osteoclastogenesis of Example 6 is suppressed by NS398 and indomethacin.

Claims (5)

[Claims] 1. A method for treating rheumatoid arthritis, comprising as an active ingredient a substance that inhibits or neutralizes the activity of interleukin-17 and / or a substance that inhibits signaling of osteoclastogenesis of interleukin-17. Agent. 2. The therapeutic agent according to claim 1, wherein an interleukin-17 neutralizing antibody is used as a substance that neutralizes the activity of interleukin-17. 3. An osteoclastogenesis inhibitor as a substance inhibiting interleukin-17 signaling of osteoclastogenesis.
The therapeutic agent according to claim 1, wherein (Osteoclastogenesis Inhibitory Factor; OCIF) is used. 4. A method for diagnosing rheumatoid arthritis, comprising measuring the content of interleukin-17 in collected blood or synovial fluid and diagnosing rheumatoid arthritis disease based on the measured value. 5. A substance that suppresses or neutralizes interleukin-17 activity in a co-culture system of osteoblasts or osteoblast-like stromal cells and bone marrow cells, using as an index the suppression of differentiation into osteoclasts and / or A screening method for a substance that inhibits interleukin-17 osteoclast formation signal transduction, which comprises screening a substance that inhibits interleukin-17 osteoclast formation signal transduction.