JP7093940B2 - Pharmaceutical composition for the treatment of systemic scleroderma - Google Patents

Description

The present invention relates to a pharmaceutical composition for the treatment of systemic scleroderma, which comprises an IL-17 pathway inhibitor as an active ingredient. The present invention relates to a therapeutic method for systemic scleroderma using an IL-17 pathway inhibitor.

Systemic scleroderma is a chronic disease characterized by hardening of the skin and internal organs. Systemic scleroderma includes "diffuse skin-hardening systemic scleroderma" (dcSSc), in which skin hardening extends to the proximal limbs (forearm, thigh) or trunk except for the face, and skin hardening is distal to the limbs (dcSSc). It is classified into two types, "localized skin scleroderma systemic scleroderma" (lcSSc), which is localized to the forearm (forearm, lower leg) and face. In patients with diffuse skin sclerosing systemic scleroderma, skin hardening progresses within 6 years of onset, and organ lesions such as lung, gastrointestinal tract, kidney and heart and joint flexion contracture progress in line with the progress of skin hardening. do. It has also been reported that 70% of severe skin hardening occurs within 3 years of onset.

Systemic scleroderma is a progressive disease for which the pathogenic mechanism is unknown, there is no established treatment for skin sclerosis, and long-term treatment is required. Therefore, the main treatment is generally symptomatic treatment or the use of drugs that suppress the progression of the disease. Furthermore, since the lesion site (organ) differs depending on the degree of disease progression of each patient, the treatment method is also selected according to the symptom of each patient. Typical treatments for each organ include small doses of corticosteroids (for skin sclerosis), cyclophosphamide (for pulmonary fibrosis), proton pump inhibitors (for reflux esophagitis), Examples include prostacycline derivatives (for vascular lesions), angiotensin converting enzyme inhibitors (for scleroderma renal crisis), endoserin receptor antagonists (for pulmonary hypertension) and the like. For skin hardening, drug therapy using corticosteroids and immunosuppressants is generally performed, but since there are concerns about side effects due to long-term administration of these drug therapies, establishment of a new treatment method is established. Is expected.

It has been suggested that in systemic scleroderma, IL-17A produced by Th17 cells and Th17 cells may be involved in skin fibrosis and pathological progression. The blood Th17 cell number and IL-17A concentration in patients with systemic sclerosis are higher than those in healthy adults, and a significant correlation with skin hardening has been observed (Non-Patent Documents 1-4). In a bleomycin-induced mouse systemic scleroderma model, a correlation between an increase in Th17 cell number and IL-17A concentration and skin and lung inflammation and hardening has been confirmed (Non-Patent Documents 5 and 6). It is known that the expression levels of IL-17RA mRNA and protein are increased in the lesioned skin of patients with systemic scleroderma. (Non-Patent Document 7)

Brodalumab is an IgG2 monoclonal antibody that binds to human IL-17RA and blocks the biological activity of IL-17A, IL-17F, IL-17A / F heterodimer, and IL-17E (IL-25). Patent Document 8-10). In Japan, it is approved as a therapeutic agent for the indications of psoriasis vulgaris, psoriatic arthritis, pustular psoriasis and psoriatic erythroderma for which existing treatments are inadequate.

International Publication No. 2008/054603

Arthritis Rheum, 2000, Vol. 43, p2455-2463 Eur Cytokine Netw, 2012, Vol. 23, p128-139 Artristis Res Ther, 2013, Volume 15, R151 Artristis Res Ther, 2014, Volume 16, R4 Clin Exp Rheumator, 2016, Vol. 34, Suppl 100 p14-22 Arthritis Rheum, 2012, Vol. 64, pp. 3726-3735 Human Immunology, 2015, Vol. 76, p22-29 Immunity, 2008, Vol. 28, No. 4, p. 454-467 J Allergy Clin Immunol, 2007, Vol. 120, No. 6, p. 1324-1331 J Immunol, 2005, Vol. 175, No. 1, p. 404-212

It is an object of the present invention to provide a novel technique useful for the treatment of systemic scleroderma which may be accompanied by progressive skin sclerosis.

In order to solve the above problems, the present invention provides the following [1]-[45].
[1] A pharmaceutical composition for treating systemic scleroderma, which comprises an IL-17 pathway inhibitor as an active ingredient.
[2] A pharmaceutical composition for treating systemic scleroderma with progressive skin sclerosis, which comprises an IL-17 pathway inhibitor as an active ingredient.
[3] The pharmaceutical composition of [1] or [2], wherein the IL-17 pathway inhibitor is at least one selected from an IL-17RA antagonist and an IL-23R antagonist.
[4] The pharmaceutical composition according to any one of [1]-[3], wherein the IL-17 pathway inhibitor is an antibody or an antibody fragment.
[5] The antibody is an anti-IL-17RA antibody, an anti-IL-17A antibody, an anti-IL-17A / F antibody, an anti-IL-23p40 subunit antibody and / or an anti-IL-23p19 subunit antibody, particularly brodalumab. The pharmaceutical composition according to [4], which is one or more selected from the group consisting of secukinumab, ixekizumab, netakizumab, bimekizumab, ustekinumab, tildrakizumab, risankizumab, milikizumab, brazikumab and guselkumab.
[6] The pharmaceutical composition of [5], wherein the antibody is brodalumab.
[7] The pharmaceutical composition according to any one of [1]-[6], wherein the systemic scleroderma is diffuse skin sclerosing systemic scleroderma (dcSSc).
[8] The pharmaceutical composition of [1]-[7] for lowering a patient's skin score (mRSS) by 3 or more from before treatment by 12 weeks after the start of administration.
[9] The pharmaceutical composition according to any one of [1]-[8], for lowering a patient's skin score (mRSS) by 5 or more from before treatment by 24 weeks after the start of administration.
[10] The pharmaceutical composition according to any one of [1]-[9], for lowering a patient's skin score (mRSS) by 7 or more from before treatment by 52 weeks after the start of administration.
[11] The pharmaceutical composition according to any one of [1]-[10] for use in a patient having a skin score (mRSS) of 20 or more and less than 30 before treatment.
[12] The pharmaceutical composition according to any one of [1]-[11], wherein the single dose of the IL-17 pathway inhibitor is 70 mg, 140 mg, 210 mg, or 280 mg.
[13] The single dose of the IL-17 pathway inhibitor is 210 mg, which is subcutaneously administered on the first day, one week, two weeks later, and then subcutaneously once every two weeks. [1] -A pharmaceutical composition according to any one of [12].
[14] The pharmaceutical composition according to any one of [1]-[13] for use in combination with a second therapeutic agent other than the IL-17 pathway inhibitor.
[15] The second therapeutic agent is a corticosteroid, an antifibrinolytic agent, an immunosuppressant, a proton pump inhibitor, a prostacycline derivative, an angiotensin converting enzyme inhibitor, an endoserine receptor antagonist and a type 2 cannabinoid receptor. The pharmaceutical composition of [14], which is at least one selected from the group consisting of antagonists.
[16] A pharmaceutical composition for treating systemic scleroderma, which comprises an IL-17 pathway inhibitor as an active ingredient.
The systemic scleroderma is diffuse scleroderma systemic scleroderma (dcSSc).
The IL-17 pathway inhibitor is brodalumab, the single dose of which is 210 mg, which is subcutaneously administered on the first day, one week, two weeks later, and then subcutaneously once every two weeks. Composition.

[17] An IL-17 pathway inhibitor for use in the treatment of systemic scleroderma.
[18] An IL-17 pathway inhibitor for use in the treatment of systemic scleroderma with progressive skin sclerosis.
[19] The IL-17 pathway inhibitor of [17] or [18], which is one or more selected from the IL-17RA antagonist and the IL-23R antagonist.
[20] An IL-17 pathway inhibitor according to any one of [17]-[19], which is an antibody or antibody fragment.
[21] Anti-IL-17RA antibody, anti-IL-17A antibody, anti-IL-17A / F, anti-IL-23p40 subunit antibody and / or anti-IL-23p19 subunit antibody or fragments thereof, particularly bladalumab, sexualumab. The IL-17 pathway inhibitor of [20], which is any one or more antibody selected from the group consisting of ixekizumab, netakimab, bimekizumab, ustekinumab, tildrakizumab, risankizumab, millikizumab, brazikumab and guselkumab.
[22] Brodalumab, an IL-17 pathway inhibitor of [21].
[23] The IL-17 pathway inhibitor according to any one of [17]-[22], wherein the systemic scleroderma is diffuse skin sclerosing systemic scleroderma (dcSSc).

[24] Use of IL-17 pathway inhibitors for the production of pharmaceutical compositions for the treatment of systemic scleroderma.
[25] Use of IL-17 pathway inhibitors for the production of pharmaceutical compositions for the treatment of systemic scleroderma with progressive skin sclerosis.
[26] Use of [24] or [25], wherein the IL-17 pathway inhibitor is at least one selected from IL-17RA antagonists and IL-23R antagonists.
[27] Use of any of [24]-[26], wherein the IL-17 pathway inhibitor is an antibody or antibody fragment.
[28] The antibody is an anti-IL-17RA antibody, an anti-IL-17A antibody, an anti-IL-17A / F antibody, an anti-IL-23p40 subunit antibody and / or an anti-IL-23p19 subunit antibody, particularly brodalumab. Use of [27], which is one or more selected from the group consisting of secukinumab, ixekizumab, netakizumab, bimekizumab, ustekinumab, tildrakizumab, risankizumab, mirikizumab, brodalumab and guselkumab.
[29] Use of [28], wherein the antibody is brodalumab.
[30] Use of any of [24]-[29], wherein the systemic scleroderma is diffuse skin sclerosing systemic scleroderma (dcSSc).

[31] A method for treating systemic scleroderma, which comprises a procedure for administering a pharmaceutical composition containing an IL-17 pathway inhibitor as an active ingredient to a subject.
[32] A method for treating systemic scleroderma with progressive skin sclerosis, which comprises a procedure for administering a pharmaceutical composition containing an IL-17 pathway inhibitor as an active ingredient to a subject.
[33] The therapeutic method of [31] or [32], wherein the IL-17 pathway inhibitor is one or more selected from IL-17RA antagonists and IL-23R antagonists.
[34] The therapeutic method according to any one of [31]-[33], wherein the IL-17 pathway inhibitor is an antibody or an antibody fragment.
[35] The antibody is an anti-IL-17RA antibody, an anti-IL-17A antibody, an anti-IL-17A / F antibody, an anti-IL-23p40 subunit antibody and / or an anti-IL-23p19 subunit antibody or a fragment thereof. The treatment method of [34], which is particularly selected from the group consisting of brodalmab, secukinumab, ixekizumab, netakimab, bimekizumab, ustekinumab, tildrakizumab, risankizumab, mirikizumab, brazikumab and guselkumab.
[36] The therapeutic method of [35], wherein the antibody is brodalumab.
[37] The treatment method according to any one of [31]-[36], wherein the systemic scleroderma is diffuse skin sclerotype systemic scleroderma (dcSSc).
[38] The treatment method according to [31]-[37], wherein the skin score (mRSS) in the subject is lowered by 3 or more from that before the treatment by 12 weeks after the start of administration.
[39] The treatment method according to any one of [31]-[38], wherein the skin score (mRSS) in the subject is 5 or more lower than that before the treatment by 24 weeks after the start of administration.
[40] The treatment method according to any one of [31] to [39], wherein the skin score (mRSS) in the subject is lowered by 7 or more from that before the treatment by 52 weeks after the start of administration.
[41] The treatment method according to any one of [31] to [40], wherein the subject's pretreatment skin score (mRSS) is 20 or more and less than 30.
[42] The treatment method according to any one of [31]-[41], wherein the single dose of the IL-17 pathway inhibitor is 70 mg, 140 mg, 210 mg, or 280 mg.
[43] The single dose of the IL-17 pathway inhibitor is 210 mg, which is subcutaneously administered on the first day, one week, two weeks later, and thereafter once every two weeks. [31] -A treatment method according to any one of [42].
[44] The therapeutic method of any of [31]-[43], further comprising the procedure of administering a second therapeutic agent other than the IL-17 pathway inhibitor.
[45] The second therapeutic agent is a corticosteroid, an antifibrinolytic agent, an immunosuppressant, a proton pump inhibitor, a prostacycline derivative, an angiotensin converting enzyme inhibitor, an endoserine receptor antagonist and a type 2 cannabinoid receptor. The treatment method of [44], which is at least one selected from the group consisting of antagonists.

INDUSTRIAL APPLICABILITY The present invention provides a novel technique effective for the treatment of systemic scleroderma which may be accompanied by progressive skin sclerosis.

It is a graph which shows the change of the skin score (mRSS: modified Rodnan total sickness core) of each patient after the start of treatment. The vertical axis shows mRSS (0 is set at the start of treatment). The horizontal axis shows the period (weeks) from the first administration of brodalumab. It is a graph which shows the mean value of the change of mRSS of each patient after the start of treatment. The vertical axis shows mRSS (0 is set at the start of treatment). The horizontal axis shows the period (weeks) from the first administration of brodalumab.

Hereinafter, suitable embodiments for carrying out the present invention will be described. It should be noted that the embodiments described below show an example of a typical embodiment of the present invention, and the scope of the present invention is not narrowly interpreted by this.

The present invention relates to a pharmaceutical composition for treating a patient with systemic scleroderma, which may be accompanied by progressive skin sclerosis, containing an IL-17 pathway inhibitor as an active ingredient.

The present invention also includes a method for treating a patient with systemic scleroderma, which comprises a procedure for administering an IL-17 pathway inhibitor to a patient with systemic scleroderma who may be accompanied by progressive skin sclerosis. ..

Systemic scleroderma is a chronic disease characterized by hardening of the skin and internal organs. Systemic scleroderma is "diffuse skin-hardening systemic scleroderma (dcSSc)" in which skin hardening extends to the proximal limbs (forearm, thigh) or trunk except for the face, and skin hardening is distal to the limbs (dcSSc). It is classified into two types, "localized skin scleroderma systemic scleroderma (lcSSc)", which is localized to the forearm (forearm, lower leg) and face.

The systemic scleroderma targeted by the pharmaceutical composition or therapeutic method of the present invention is not limited to either diffuse scleroderma systemic scleroderma or localized scleroderma systemic scleroderma. , Diffuse skin sclerotype systemic scleroderma is preferred.

Patients with systemic scleroderma who are the target of the pharmaceutical composition or treatment method of the present invention include patients with organ lesions or joint flexion contracture in the lung, gastrointestinal tract, kidney or heart, in addition to the symptoms of skin sclerosis. It may be.

The severity of skin sclerosis in systemic scleroderma can be assessed by known methods. For example, a modified Rodnan total skin sickness score (mRSS) can be evaluated by the following method described in the guidelines of the Japanese Dermatological Association.
The body is divided into 17 parts (both fingers, both hands back, both forearms, both upper arms, face, front chest, abdomen, both thighs, both lower legs, both feet back), and the degree of skin hardening is from 0 to 3 for each part. Evaluate on a 4-point scale (0 = normal, 1 = mild, 2 = moderate, 3 = high, total skin score from 0 to 51. When evaluating, pinch the skin with both thumbs and the thickness of the skin. Observe the mobility with the lower floor. The case where the skin lacks the mobility with the lower floor is 3 and the one with no clear skin hardening but feeling slightly thick is 1 and the middle is 2. In Japan, the severity of sclerosis is 0 (normal: 0), 1-9 (mild: 1), 10-19 (moderate: 2), 20-29 (severe: 3), 30 or more (normal: 0), 1-9 (mild: 1), 10-19 (moderate: 2), 20-29 (severe: 3), 30 or more, according to the total of mRSS in Japan. It is classified into (very seven: 4) (Journal of the Japanese Society of Dermatology, 126 (10), 1831-1896, 2016). The measurement method of mRSS is JR face, 1993; 20 (11): p 1892-1896 and JR face. , 1995; 22: p1281-1285.

The severity of skin hardening that is the subject of the pharmaceutical composition or therapeutic method of the present invention is not particularly limited, but mRSS is preferably 10 or more, more preferably 20 or more, and most preferably 20 or more and less than 30. That is, the severity of skin hardening is preferably moderate or higher, more preferably severe or higher, and most preferably moderate to severe.

The target of the pharmaceutical composition or the treatment method of the present invention may be a patient with systemic scleroderma whose effect is insufficient with the existing treatment.
The target of the pharmaceutical composition or the treatment method of the present invention may be a patient with systemic scleroderma having skin sclerosis, for which the existing treatment is insufficiently effective.
The subject of the pharmaceutical composition or treatment method of the present invention may be a patient with systemic scleroderma having moderate to severe skin sclerosis.
The subject of the pharmaceutical composition or therapeutic method of the present invention may be a patient with systemic scleroderma having skin sclerosis in the early stage of onset. The early stage of onset refers to within 6 years after the onset.
The subject of the pharmaceutical composition or therapeutic method of the present invention may be a patient with systemic scleroderma having reversible skin sclerosis. Reversible skin hardening refers to a condition in which the condition of the skin shows edema and hardening and does not lead to atrophy.

The improvement of skin hardening may be confirmed by a known method. For example, improvement of skin hardening can be confirmed by measuring mRSS over time after administration of the pharmaceutical composition of the present invention and confirming a decrease in mRSS as compared with before treatment.

The improvement of the symptoms of skin sclerosis is 1, 2, 3, 4, 5, 6, 7, 8, 9, after a specific period of time from the start of administration of the pharmaceutical composition or the treatment method, as compared to before the treatment with mRSS. Or it means that it has decreased by 10 or more. mRSS is 2 or more by 8 weeks, 3 or more by 12 weeks, 3 or more by 16 weeks, 4 or more by 20 weeks, 5 by 24 weeks from the start of the administration or treatment method of the pharmaceutical composition of the present invention. As mentioned above, it can be reduced by 6 or more by 40 weeks and 7 or more by 52 weeks.

The pharmaceutical composition and therapeutic method of the present invention improve or treat at least one symptom selected from the symptom of organ lesions or joint flexion contracture in the lung, gastrointestinal tract, kidney or heart, in addition to the symptom of skin sclerosis. Can be done. In addition, the pharmaceutical composition and therapeutic method of the present invention can improve or treat various symptoms based on systemic or local fibrosis. The improvement of each symptom can be evaluated by a known method. For example, improvement of lung function due to fibrosis in the lung can be evaluated by scoring lung function with a spirometer. Improvement of the symptoms of reflux esophagitis in the gastrointestinal tract can be evaluated by scoring patient symptoms using the F-scale questionnaire.

As used herein, the term "administration" means a single dose or multiple doses (hereinafter, also referred to as "continuous infusion").

The single dose of the IL-17 pathway inhibitor used in the present invention is not particularly limited, and may be used at a dose that can be clinically applied with reference to the package insert of each inhibitor. Specifically, when the IL-17 pathway inhibitor is brodalumab, the single dose is preferably 70 mg or more, more preferably 140 mg or more, and most preferably 210 mg. The dose may be appropriately increased or decreased during the continuous infusion of the therapeutic agent. The single dose is typically 70 mg, 140 mg, 210 mg, or 280 mg.

The administration interval of the pharmaceutical composition is not particularly limited, but for example, it is administered on the 1st day (hereinafter, also referred to as the 0th week), the 1st week and the 2nd week, and thereafter once every 2 weeks or 4 times. Administer once a week. The dosing interval may be appropriately extended or shortened. It is desirable that the administration interval is 1st day, 1st week, 2nd week, and thereafter once every 2 weeks.
The dose and the dosing interval are particularly preferably 210 mg as a single dose, and are administered once every two weeks on the first day, one week, two weeks, and thereafter.

The administration period of the pharmaceutical composition is not particularly limited, and may be, for example, 8, 10, 12, 16, 20, 24, 36, 48 or 52 weeks after the start of administration, or may be administered longer than 52 weeks. The administration period is preferably longer than 52 weeks. A drug holiday may be included during the dosing period.

The IL-17 pathway inhibitor in the present invention inhibits the interaction between IL-17RA and IL-17RA ligands (IL-17A, IL-17F, IL-17A / F, IL-17E, etc.) and is physiological. Includes a wide range of substances that can block active signals. Hereinafter, an antagonist that inhibits the interaction between IL-17RA and IL-17RA ligand and blocks the bioactivity signal is referred to as "IL-17RA antagonist".
IL-23 is known to induce Th17 cells that produce IL-17RA ligand and is located upstream of the IL-17 pathway (Nature Reviews Drag Discovery 2015, volume 14, p11-12). Therefore, the IL-17 pathway inhibitor of the present invention also includes a substance that can inhibit the interaction between IL-23 and IL-23R and block the bioactivity signal. Hereinafter, an antagonist that inhibits the interaction between IL-23 and IL-23R and blocks the bioactive signal is referred to as an "IL-23R antagonist".
The IL-17RA antagonist is, for example, an antagonist having an activity of inhibiting the binding of IL-17RA to an IL-17RA ligand, an antagonist having an activity of inhibiting IL-17RA activation initiated by the binding of the IL-17RA ligand, and the like. Alternatively, it may be an antagonist having an activity of inhibiting the association between IL-17RA and a receptor forming a heterodimer.
The IL-23R antagonist may be, for example, an antagonist having an activity of inhibiting the binding of IL-23R and IL-23, or an antagonist having an activity of inhibiting the association of p19 and p40, which are subunits of IL-23. ..

The IL-17RA and IL-23R antagonists can be, for example, small molecules, antibodies or fragments thereof, siRNAs, antisense oligonucleotides. The IL-17RA antagonist and the IL-23R antagonist are preferably antibodies or antibody fragments.

Specific examples of the antibody as an IL-17RA antagonist include anti-IL-17RA antibody, anti-IL-17A antibody, anti-IL-17F antibody, anti-IL-17A / F antibody, anti-IL-17E antibody and fragments thereof. ..

Specific examples of small molecules as IL-17RA antagonists include dihydroorotoic acid dehydrogenase inhibitors. Examples of the dihydroorotoic acid dehydrogenase inhibitor include bidfludimus.

Specific examples of the antibody as an IL-23R antagonist include anti-IL-23p40 subunit antibody and anti-IL-23p19 subunit antibody.

Specific examples of the anti-IL-23p40 subunit antibody include ustekizumab. Specific examples of the anti-IL-23p19 subunit antibody include tiderakizumab, risankizumab, millikizumab, bragicumab and guselkumab.

The IL-17 pathway inhibitor is preferably an IL-17RA antagonist and an IL-23R antagonist, more preferably an IL-17RA antagonist. The IL-17RA antagonist is preferably brodalumab, which is an anti-IL-17RA antibody, netakimab, secukinumab or ixekizumab, which is an anti-IL-17A antibody, bimekizumab, which is an anti-IL-17A / F antibody, and most preferably brodalumab.

The pharmaceutical composition or therapeutic method of the present invention can be used in combination with a second therapeutic agent or a second therapeutic method.
The second therapeutic agent is, for example, a corticosteroid, an antifibrinolytic agent, an immunosuppressant, a proton pump inhibitor, an angiotensin converting enzyme inhibitor, an endothelin receptor antagonist prostacycline derivative or a type 2 cannabinoid receptor antagonist. be.
Examples of corticosteroids include bredonizolone.
Antifibrotic agents include, for example, pirfenidone and nintedanib.
Immunosuppressants include, for example, cyclophosphamide, mycophenolate mofetil, cyclosporine, tacrolimus, azathioprine, mizoribine and methotrexate.
Proton pump inhibitors include, for example, omeprazole, lansoprazole, rabeprazole and esomeprazole.
Examples of angiotensin converting enzyme inhibitors include captopril, enalapril, alacepril, imidapril and temocapril.
Endothelin receptor antagonists include, for example, bosentan, ambrisentan and macitentan.
Examples of the prostacyclin derivative include iloprost, beraprost, treprostinil, epoprostenol or clinprost.
Examples of the type 2 cannabinoid receptor antagonist include renavasam.
Second treatment methods include, for example, high-dose intravenous immunoglobulin therapy (IVIG) or phototherapy.
In the pharmaceutical composition or therapeutic method of the present invention, two or more kinds of IL-17 pathway inhibitors may be used in combination.
When the IL-17 pathway inhibitor and the second therapeutic agent are used in the pharmaceutical composition and the therapeutic method of the present invention, they can be administered to a patient at the same time or at different times. Therefore, the pharmaceutical composition or the therapeutic method of the present invention also includes an embodiment in which the second therapeutic agent is used in combination.

The antibody used in the present invention may be either a monoclonal antibody or a polyclonal antibody, and is preferably a monoclonal antibody that binds to a single epitope.

The antibody may be a monoclonal antibody produced from a hybridoma or a recombinant antibody produced by a gene recombination technique. Examples of recombinant antibodies include mouse antibodies, rat antibodies, human chimeric antibodies (hereinafter simply referred to as "chimeric antibodies"), and humanized antibodies (also referred to as humanized dependency determination region (CDR) transplanted antibodies. ), And human antibodies. Chimeric antibodies, humanized antibodies, or human antibodies are preferably used to reduce immunogenicity in humans.

Specifically, examples of the monoclonal antibody used in the present invention include an antibody selected from the following (A) to (F) and the antibody fragment thereof.
(A) The CDR1, CDR2, and CDR3 of the heavy chain variable region (denoted as VH) of the antibody contain the amino acid sequences represented by SEQ ID NOs: 1, 2, and 3, respectively, and the light chain variable region of the antibody (referred to as VH). A monoclonal antibody in which CDR1, CDR2, and CDR3 of (denoted as VL) contain the amino acid sequences set forth in SEQ ID NOs: 4, 5, and 6, respectively;
(B) A monoclonal antibody in which the VH of the antibody contains the amino acid sequence represented by SEQ ID NO: 7 and the VL of the antibody contains the amino acid sequence represented by SEQ ID NO: 8.
(C) A monoclonal antibody in which the heavy chain (H chain) of the antibody contains the amino acid sequence represented by SEQ ID NO: 9 and the L chain of the antibody contains the amino acid sequence represented by SEQ ID NO: 10.
(D) An antibody that competes with any one of the antibodies selected from (A) to (C) and binds to IL-17RA;
(E) An antibody that binds to an epitope present in IL-17RA to which any one of the antibodies selected from the above (A) to (C) binds; and (F) any of the above (A) to (C). An antibody having 90% or more sequence identity with the amino acid sequence of the antibody of 1 and having the same binding specificity and binding activity as the antibody.

In the present invention, the VH CDR1, CDR2, and CDR3 of the antibody contain the amino acid sequences set forth in SEQ ID NOs: 1, 2, and 3, respectively, and the VL CDR1, CDR2, and CDR3 of the antibody are respectively sequenced. Monoclonal antibodies containing the amino acid sequences set forth in Nos. 4, 5, and 6, or monoclonal antibodies in which the VH of the antibody comprises the amino acid sequence set forth in SEQ ID NO: 7 and the VL of the antibody comprises the amino acid sequence set forth in SEQ ID NO: 8. One embodiment of the antibody is the anti-human IL-17RA human monoclonal antibody AM H14 / AM _L 14 (Patent Document 1) and the recombinant anti-human IL-17RA human antibody _bladrumab .

In the present invention, the "monoclonal antibody" refers to an antibody secreted by a single cloned antibody-producing cell, which recognizes only one epitope (antibody determinant) and has an amino acid sequence (primary structure) constituting the monoclonal antibody. ) Is a uniform antibody.

An "epitho" is a single amino acid sequence recognized by a monoclonal antibody for binding; a three-dimensional structure consisting of an amino acid sequence; sugar chains, glycolipids, polysaccharides, amino groups, carboxyl groups, phosphoric acid, sulfuric acid, etc. An amino acid sequence to which a modified residue is bound; and a three-dimensional structure consisting of an amino acid sequence to which the modified residue is bound. The "three-dimensional structure" is a three-dimensional structure possessed by a naturally occurring protein, and refers to a three-dimensional structure composed of a protein expressed in the cell or on the cell membrane.

In the present invention, the antibody molecule is also referred to as immunoglobulin (hereinafter referred to as Ig). Human antibodies are classified into IgA1, IgA2, IgD, IgE, IgG1, IgG2, IgG3, IgG4, and IgM isotypes, depending on the differences between their molecular structures. IgG1, IgG2, IgG3, and IgG4, which have relatively high amino acid sequence homology, are also collectively referred to as IgG.
As the antibody class used in the present invention, the IgG class is preferable, and IgG selected from IgG1, IgG2, IgG4 and an Fc variant in which one or more amino acid residue substitutions are added to the Fc region of the isotype antibody. Class is more preferred.

In the present invention, an antibody molecule is composed of a polypeptide called a heavy chain (H chain) and a light chain (L chain).

Further, the H chain is composed of VH and H chain constant regions (also referred to as CH) from the N-terminal side, and the L chain is composed of VL and L chain constant regions (also referred to as CL) from the N-terminal side, respectively. Ru.

"Chimera antibody" refers to an antibody composed of VH and VL of antibodies derived from animals other than humans and CH and CL of human antibodies. The type of animal from which the variable region is derived is not particularly limited as long as it is an animal that can be used for producing hybridomas such as mice, rats, hamsters, and rabbits.

A "humanized antibody" is an antibody (humanized CDR transplanted antibody) obtained by transplanting a CDR of VH and VL derived from a non-human animal antibody into an appropriate position of VH and VL of a human antibody.

"Human antibody" means an antibody that can be naturally present in the human body or an antibody consisting of an amino acid sequence encoded by a human gene. Human antibodies also include antibodies obtained from human antibody phage libraries or human antibody-producing transgenic animals produced based on genetic engineering, cell engineering, and developmental engineering techniques.

In the present invention, the type of antibody fragment is not particularly limited, and examples thereof include peptides containing Fab, Fab', F (ab') ₂ , scFv, diabodies, dsFv, and CDRs.

The pharmaceutical composition of the present invention may contain only an IL-17 pathway inhibitor as an active ingredient, but is usually mixed with one or more pharmacologically acceptable carriers and a pharmaceutical product. It is preferable to provide it as a pharmaceutical preparation manufactured by any method well known in the technical field of science. Specific examples of the pharmaceutical product contain 140 mg / mL of recombinant anti-human IL-17RA human antibody bladrumab as an active ingredient, and 10 mmol / L L-glutamic acid as an additive, 3% (w / v) L-. Includes pharmaceutical formulations and the like prepared with proline and 0.010% (w / v) polysorbate 20 and the like. In addition, the pharmaceutical product contains 140 mg / mL of recombinant anti-human IL-17RA human antibody bladrumab, and as an additive, 30 mmol / L L-glutamic acid, 2.4% (w / v) L-proline, Also included are pharmaceutical formulations with a pH of 4.8, comprising 0.01% (w / v) of polysorbate 20. The pharmaceutical product can be produced, for example, by the method described in International Publication No. 2011/088120.

The route of administration of the IL-17 pathway inhibitor in the pharmaceutical composition or therapeutic method of the present invention is preferably the most effective route for treatment. Specific examples of the route of administration include oral administration or parenteral administration such as intraoral, intraairway, rectal, subcutaneous, intramuscular or intravenous administration, and subcutaneous or intravenous administration is preferable, and subcutaneous administration is more preferable. Examples of the dosage form include sprays, capsules, tablets, powders, granules, syrups, emulsions, suppositories, injections, ointments, tapes and the like, and injections are preferred.

The device for administering the therapeutic agent of the present invention can be appropriately selected during treatment. Dosing devices include, but are not limited to, prefilled syringes and automatic syringes.

[Test Example 1: Phase I clinical trial of recombinant anti-human IL-17RA human antibody brodalumab in patients with systemic scleroderma]
(1) Outline of the study Phase I clinical study of recombinant anti-human IL-17RA human antibody brodalumab in patients with systemic scleroderma with moderate to severe skin sclerosis (hereinafter referred to simply as "clinical study"). The outline of (referred to as) is presented in Table 1. Patients with systemic scleroderma who met the conditions shown in Table 2 were selected as the subjects of the clinical study, and the safety and efficacy when brodalumab was administered were evaluated. Each subject received 210 mg of brodalumab subcutaneously once every two weeks on day 1, week 1, and week 2, and thereafter until week 50.

Brodalumab was prepared according to a conventional method as a recombinant human antibody derived from CHO cells having the antibody variable region amino acid sequence described in Patent Document 1.

(2) Test results For the subjects who participated in the clinical study, the skin score (mRSS), which indicates the degree of skin hardening, was measured over time from the initial administration of brodalumab. The obtained results are shown in FIGS. 1 and 2. In mRSS, a doctor pinches the skin in 17 places throughout the body with both thumbs, and the degree of skin hardening is evaluated on a scale of 0 to 3 for each part (0 = normal, 1 = mild, 2 = moderate, 3 = altitude, total 0-51). The total severity of skin due to mRSS was classified as 0 = normal, 1-9 = mild, 10-19 = moderate, 20-29 = severe, and 30 or more = very severe.

Information on the subjects who participated in the clinical trial is presented in Table 3. As shown in the table, 7 of 8 patients with systemic scleroderma with moderate to severe skin sclerosis had severe (mRSS 20-29) skin sclerosis.

As shown in FIG. 1, in all 8 patients with systemic scleroderma having moderate to severe skin sclerosis, the mRSS at 12 weeks after the start of administration was 3 or more from the baseline (mRSS at the start of treatment). It has declined. Similarly, at 24 weeks after the start of administration, mRSS decreased by 5 or more from baseline, and at 52 weeks after the start of administration, mRSS decreased by 7 or more from baseline. Treatment with brodalumab has been shown to result in a marked reduction in skin score as early as 12, 24 or 52 weeks after the start of treatment in patients with systemic scleroderma with moderate to severe skin sclerosis. rice field.

Treatment with corticosteroids (dexamethasone IV pulse therapy) traditionally applied for skin scleroderma in systemic scleroderma has been performed for 6 months to obtain a 4.5 reduction (mean) from the baseline of mRSS. It is said to take a long time (Rhcumatol lnt, 1994, 14, 91-94). In addition, even in the conventional treatment with the immunosuppressant cyclophosphamide, the decrease in mRSS from the baseline 12 months after the start of treatment was only 3.6 (N Engl J Med, 2006, 354, 2655-66). ), It has been reported that conventional treatment with azathioprine, which is also an immunosuppressant, does not improve skin sclerosis even 18 months after the start of treatment (Cin Rhcumatol, 2006, 25, 205-212).
On the other hand, treatment with brodalumab is 12 weeks, 24 weeks or 52 weeks after the start of treatment in all patients with systemic scleroderma with moderate to severe skin sclerosis, including 7 patients with severe skin sclerosis. Was able to achieve a significant reduction in mRSS. This result indicates that brodalumab can be applied to systemic scleroderma with moderate to severe skin sclerosis and has a therapeutic effect at a very early stage compared to conventional drugs.

SEQ ID NO: 1: Amino acid sequence of bladrumab_HCDR1 SEQ ID NO: 2: Amino acid sequence of bladarmab_HCDR2 SEQ ID NO: 3: Amino acid sequence of bladarmab_HCDR3 SEQ ID NO: 4: Amino acid sequence of bladarmab_LCDR1 SEQ ID NO: 5: Amino acid sequence of bladarmab_LCDR2 SEQ ID NO: 6: Brodalmab _LCDR3 amino acid sequence SEQ ID NO: 7: Brodalmab _VH amino acid sequence SEQ ID NO: 8: Brodalmab _VL amino acid sequence SEQ ID NO: 9: Brodalmab _H chain amino acid sequence SEQ ID NO: 10: Brodalmab _L chain amino acid sequence

Claims (8)

A pharmaceutical composition for the treatment of systemic scleroderma containing brodalumab as an active ingredient .
A pharmaceutical composition in which a single dose of brodalumab is 210 mg, which is subcutaneously administered on the first day, one week, two weeks later, and thereafter once every two weeks . The pharmaceutical composition according to claim 1, wherein the systemic scleroderma is diffuse skin sclerosing systemic scleroderma (dcSSc). The pharmaceutical composition according to claim 1 or 2, wherein the skin score (mRSS) of a patient is lowered by 3 or more from that before the treatment by 12 weeks after the start of administration. The pharmaceutical composition according to any one of claims 1 to 3, wherein the skin score (mRSS) of a patient is lowered by 5 or more from that before the treatment by 24 weeks after the start of administration. The pharmaceutical composition according to any one of claims 1 to 4, wherein the skin score (mRSS) of a patient is lowered by 7 or more from that before the treatment by 52 weeks after the start of administration. The pharmaceutical composition according to any one of claims 1 to 5, for use in a patient having a skin score (mRSS) of 20 or more and less than 30 before treatment. The pharmaceutical composition according to any one of claims 1 to 6 , for use in combination with a second therapeutic agent other than brodalumab . The second therapeutic agent is from corticosteroids, antifibrotic agents, immunosuppressants, proton pump inhibitors, prostacycline derivatives, angiotensin converting enzyme inhibitors, endoserine receptor antagonists and type 2 cannabinoid receptor antagonists. The pharmaceutical composition according to claim 7 , wherein the pharmaceutical composition is at least one selected from the group.

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