Novel anti-inflammatory compounds for ulcerative colitis and rheumatoid arthritis therapy JANSA, P. 1, HOLÝ, A. 1, ZÍDEK, Z. 2, JANEBA, Z. 1, KOLMAN, V. 1 1 Institute of Organic Chemistry and Biochemistry AS CR v.v.i. 2 Institute of Experimental Medicine AS CR v.v.i.
Inflammatory bowel diseases (IBD) chronic, relapsing, and remitting inflammatory diseases Ulcerative colitis UC UC affects the large intestine (rectum colon). Inflammation is restricted to mucous parts. Crohn s disease CD CD affects both small and large intestine. Lesions penetrate whole intestine wall. Unknown etiology CLINICAL Rectal bleeding Diarrhea Fever Fatigue Weight loss Abdominal pain HISTOLOGICAL Mucin depletion Crypt distortion and abscesses Lymphoplasmacytic infiltration Prevalence 24.3 per 100,000 in Europe 19.2 per 100,000 in North America Medical costs Individual UC patient in the USA: $ 15,020 (average annual expenditure, 2013)
Rheumatoid arthritis (RA) chronic, autoimmune disorder resulting in chronic and systemic inflammation of joins Unknown etiology CLINICAL Articular: Joint pain Stiffness Swelling Bone destruction Figure source: http:// www.niams.nih.gov Prevalence 500-1500 per 100,000 Incidence 15, 36 per 100,000 Extra-articular: Eyes (scleritis,episcleritis); Pulmonary fibrosis Myocardial fibrosis Hepatomegaly and Splenomegaly Osteoporosis Medical costs Individual RA patient in the USA: $ 14,900 (average annual cost, 2010)
Current treatment of IBD and RA IBD Traditional therapy corticosteroids (prednisone; prednisolone) aminosalicylates (sulfasalazine; mesalazine) Purine-based thiopurines (azathioprine, 6-mercaptopurine) Cyclic molecules cyclosporine A macrolides (tacrolimus) Biologic agents anti-tnf-a(infliximab; adalimumab; certolizumab; golimumab) RA Disease-modifying antirheum. drugs (DMARD) glucocorticoids (cortison) aminosalicylates (sulfasalazine; mesalazine) methotrexate (priority in RA) leflunomide (alternative to MTX) hydroxychloroquine azathioprine Biologic agents anti-tnf-a(etanercept; infliximab; adalimumab; certolizumab; ) anti-il-1 (anakinra) anti-il-6 (tocilizumab) anti-b-cells (rituximab) anti-t-cells (abatacept)
Current pharmacotherapy and perspectives Results of current therapeutic strategies clearly highlight the need to develop new therapies All current therapeutic strategies for treating IBD and RA have only been moderately successful. A considerable proportion of patients are still refractory to conventional treatment. Both, traditional anti-inflammatory drugs and biologics provide partial clinical benefit. They may be associated with significant side effects and toxicity. Broader use of biologics is restricted by unfavorable pharmacoeconomy. The development of small-molecule compounds with similar efficacies remains an acute unmet medical need in diseases such as ulcerative colitis and rheumatoid arthrits.
Novel promising compounds Pyrimidine derivatives derivatives of 2-aminopyrimidine
Relevant in vitro biological activities Pyrimidine derivatives are inhibitors of nitric oxide (NO), prostaglandin (PGE 2 ) and cytokine production 125 Inhibition of NO and PGE2 production J_Pub/G67 Viability 125 J_Pub/G68 Inhibition of cytokine secretion IL-10 TNF-a 100 100 % of control response 75 50 % of control response 75 50 25 25 0 Control V II IX VIII Concentration 50 M VI X IV. 0 Control V II IX VIII Concentration 50 M VI X IV. Simultaneous inhibition of NO and PGE2 has a promising potential in the treatment of colitis and arthritis. (Dong et al., World J. Gastroenterol. 9:1307, 2003; Dudhgaonkar et al., Inflammopharmacology 15:188 2007; Sklyarov et al., J. Physiol. Pharmacol. 62:65, 2011) (Jang et al., Free Radical Biol. Med., 9:1511, 1998).
In vivo model of ulcerative colitis A number of murine models of colitis have been developed. Among various chemically induced colitis models, the dextran sulfate sodium (DSS)-induced colitis model is widely used because of its simplicity and many similarities with human ulcerative colitis. It allows the evaluation of potential therapeutics. Index of effectiveness 1.50 1.25 1.00 0.75 0.50 Sulfasalazine (ref) DAI suppression by 36.5% by 57.7% XV by 46.0% by 38.6% J_AA2/G18 XVI XIII XVIII XII VII XIV I III VI XVII XI more effective than SULFASALAZINE less effective than SULFASALAZINE Evaluation: Disease Activity Index (bleeding; stool consistency; weight loss) Colon length Histology Healthy Moderate colitis Compound code Moderate-severe colitis (grade 2)
In vivo model of rheumatoid arthritis Rat models of immune-mediated arthritis are the convential approach to evaluating efficacy of potential therapeutics. The frequently used is the rat adjuvant-induced arthritis. It is widely used because of its simplicity and many similarities with human disease. Routine screening: Volume of paw edema (of uninjected paw; plethymometer) Body weight Splenomegaly, hepatomegaly 2.75 2.50 Compound # I Compound # XIII Paw volume (ml) Compounds: p.o. 50 mg/kg/a day J_AA2/G1 14 12 AUC paw volume J_AA2/G7 2.25 Paw volume (ml) 2.00 1.75 1.50 AUC (Days 7-20) 10 8 6 1.25 1.00 FCA control Untreated control 4 2 14.2±0.1% 100±8.7% 85.7±9.8% 30.9±3.6% 0.75-1 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 FCA Day 0 P<0.001 Untreated control Diseased control I Compound code P<0.001 XIII.
Development and IP status Development status: ~700 original compounds have been prepared and tested (by now) Proof-of-concept was done using rodent arthritis and colitis models Preliminar toxicity data indicated sufficient therapeutic window p.o. application is possible and used in animal models Preliminary results of PK, bioavailability and genotoxicity are favorable Lead optimization is under way IP status EP and US patent application with priority date in Feb 2011 Further patent filing is expected The project is offered for co-development and/or licensing.
Novel anti-inflammatory compounds for ulcerative colitis and rheumatoid arthritis therapy CONTACT Dr. Jaromir Zahradka e-mail: zahradka@iocb-tto.cz tel.: +420 220 612 258 This is a project of Center for Development of Original Drugs with the financial support of