Current treatments for rheumatoid arthritis relieve the inflammation that leads to joint destruction, but the immunologic defect that triggers the inflammation persists to cause relapses, according to research conducted at 嘿嘿视频 Medical Center and the University of Pittsburgh.
Known as autoantibodies and produced by the immune system鈥檚 B cells, these defective molecules mistakenly attack the body's own proteins in an example of autoimmune disease. Now the results of a study published in Arthritis & Rheumatology suggest that clinical trials for new rheumatoid arthritis drugs should shift from their sole focus on relieving inflammation to eliminating the B cells that produce these antibodies.
鈥淲e have developed a test for measuring the underlying autoimmunity in rheumatoid arthritis patients that should be used to evaluate new treatment regimens,鈥 says senior author , professor in the departments of and at 嘿嘿视频 and co-director of its Musculoskeletal Center of Excellence. 鈥淲e believe this provides a road to a cure for rheumatoid arthritis.鈥
Rheumatoid arthritis is a chronic inflammatory autoimmune disease that affects 1.5 million people in the United States. The current standard of care begins with methotrexate, a drug that reduces inflammation. It is often followed by drugs that block a molecule called tumor necrosis factor (TNF), which promotes inflammation. Both of these classes of drugs can blunt the swelling and inflammation associated with rheumatoid arthritis and at times even allow people with the condition to go into clinical remission that requires continued treatment. But when people with rheumatoid arthritis halt these medications, symptoms generally flare up sooner or later. According to Silverman, the reduction of inflammation does not directly reflect the autoimmune disease that causes rheumatoid arthritis.
In the study, researchers focused on 鈥渕emory鈥 B cells, immune system cells that remember the initial errant immune encounter that recognized the body鈥檚 own proteins as foreign. In rheumatoid arthritis, memory B cells secrete molecules called anti-citrullinated protein antibodies (ACPAs). Doctors currently confirm a rheumatoid arthritis diagnosis with a blood test that looks for ACPAs, which are present in 80 percent of people with rheumatoid arthritis.
Silverman and his colleagues developed sensitive assays to detect a range of different autoantibodies present in the disease. The researchers then established a cell culture system to stimulate memory B cells, and used the assays to test what kind of antibodies the B cells produced.
The researchers tested blood samples from people with rheumatoid arthritis and from people without the condition. They found high levels of APCA-secreting memory B cells in the blood of people with these autoantibodies, but not in people without autoantibodies or in the people without rheumatoid arthritis.
They then looked at people with rheumatoid arthritis who had achieved remission with either methotrexate or a TNF inhibitor. The researchers found that APCA levels were directly proportional to the recirculating memory B cells in the blood stream, confirming that current drug treatments do not affect the underlying autoimmunity in rheumatoid arthritis.
The next step, Silverman says, is to conduct long-term prospective clinical trials of new rheumatoid arthritis drugs, using the team鈥檚 new test to determine each drug鈥檚 effect on autoimmunity. The current metrics for evaluating the effectiveness of new rheumatoid arthritis drugs remain focused on reducing inflammation but not curing the disease, he says.
鈥淲e need to develop longer-term vision of how to improve the treatment of rheumatoid arthritis,鈥 Silverman says. 鈥淭his new tool may show that agents that target other molecules or cells have advantages that were previously not considered now that we can better measure those effects.鈥
Silverman鈥檚 co-authors are Adam J. Pelzek, Caroline Gr枚nwall, PhD, Pamela Rosenthal, MD, and Jeffrey D. Greenberg, MD, at 嘿嘿视频; Mandy McGeachy, PhD, and Larry Moreland, MD, at the University of Pittsburgh; and William F.C. Rigby, MD, at Dartmouth Medical School.
This work was supported by the National Institutes of Health (NIH) grants R01AI090118, R01AI068063, R01-AR42455, N01-AR-4-2271, an American Recovery and Reinvestment Act supplement, and a National Institute of Allergy and Infectious Diseases/NIH and NYU School of Medicine-Immunology and Inflammation Training grant T32 AI100853. Research conducted at NYU School of Medicine鈥檚 Translational Research Laboratory and Cytometry and Cell Sorting Laboratory was supported by NYU-HHC CTSI grant UL1 TR000038, and the NYU Laura and Isaac Perlmutter Cancer Center support grant P30CA016087 from the National Center for Advancing Translational Sciences.
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