Rheumatoid arthritis (RA) is an autoimmune disease that can cause damage to the joints, cartilage and bone. There is no cure but early diagnosis can help mitigate damage. Sometimes RA is particularly difficult to treat, for example when the disease took a long time to be diagnosed.
Associate Professor Masao Tanaka, Graduate School of Medicine, Kyoto University, Japan, leads a team of researchers working to improve understanding of the causes of poor response to treatment in RA with a long morbidity. The goal is to restore patients' therapeutic responsiveness, thereby
improving outcomes. A previous focus for Tanaka was on a protein called FSTL1. He is now exploring DIP2 as a binding molecule for FSTL1. Other important mechanisms Tanaka is exploring are DNA methylation and the mechanisms of carnitine, which has been found to decrease a variety of activation
signalling by inhibiting ceramide production in T cells. He and the team are exploring the involvement of these mechanisms in DIP2. In his most recent investigations, Tanaka is exploring DIP2C as a novel regulator for epithelial-mesenchymal transition of RA synovium and a potential therapeutic
target. He is focusing on molecules that are expressed in the cells in joints, making the work directly applicable to RA. The team is carrying out a cohort study called KURAMA (Kyoto University Rheumatoid Arthritis Management Alliance) that involves around 2,000 outpatients with RA. Ultimately,
Tanaka hopes to identify a reproducible combination of patient conditions and therapeutic interventions that achieve better treatment results for RA patients.
B cells as a therapeutic target in autoimmune diseases other than rheumatoid arthritis
