Abstract
Rheumatoid arthritis (RA) is a chronic, progressive, systemic autoimmune disease that mostly affects small and large synovial joints. At the molecular level, RA is characterized by a profoundly defective innate and adaptive immune response that results in a chronic state of inflammation. Two of the most significant alterations in T-lymphocyte (T-cell) dysfunction in RA is the perpetual activation of T-cells that result in an abnormal proliferation state which also stimulate the proliferation of fibroblasts within the joint synovial tissue. This event results in what we have termed “apoptosis resistance”, which we believe is the leading cause of aberrant cell survival in RA. Finding therapies that will induce apoptosis under these conditions is one of the current goals of drug discovery. Over the past several years, a number of T-cell subsets have been identified. One of these T-cell subsets are the T-regulatory (Treg) cells. Under normal conditions Treg cells dictate the state of immune tolerance. However, in RA, the function of Treg cells become compromised resulting in Treg cell dysfunction. It has now been shown that several of the drugs employed in the medical therapy of RA can partially restore Treg cell function, which has also been associated with amelioration of the clinical symptoms of RA.
Highlights
Rheumatoid arthritis (RA) is a chronic, progressive inflammatory disease of synovial joints [1].Chronic inflammation results from aberrant innate and adaptive immune responses that help driveRA to the point of joint failure [2,3,4]
Wang et al [21] confirmed that the ratio of T follicular regulator (TFR) cells to T follicular helper (TFH) cells decreased as RA progressed and that this skewing of the TFR cells to TFH cells was correlated with changes in serum C-reactive protein, erythrocyte sedimentation rate, rheumatoid factor, anti-cyclic citrullinated peptide antibodies, IgG and the DAS-28, the latter a measure of disease activity
Taken together the data from this study suggested a “window-of-opportunity” when CTLA-4 expression on Treg cells was likely to be most critical in having an effect tantamount to ameliorating the clinical symptoms of RA
Summary
C.J. The role of the JAK/STAT signal pathway in rheumatoid arthritis. C.J. PI3K/Akt/PTEN/mTOR signaling: A fruitful target for inducing cell death in rheumatoid arthritis? S.Y.; Kwok, S.K.; Son, H.J.; Ryu, J.G.; Kim, E.K.; Oh, H.J.; Cho, M.L.; Ju, J.H.; Park, S.H.; Kim, H.Y. IL-17-mediated Bcl-2 expression regulates survival of fibroblast-like synoviocytes in rheumatoid arthritis through STAT3 activation. M.; Kawakami, A.; Tanaka, F.; Miyashita, T.; Nakamura, H.; Iwanaga, N.; Izumi, Y.; Arima, K.; Aratake, K.; Huang, M.; et al Significant inhibition of TRAIL-mediated fibroblast-like synovial cells apoptosis by IFN-γ through JAK/STAT pathway by translational regulation. A.P.; Kennedy, A.; Penn, H.; Amjadi, P.; Green, P.; Read, J.E.; Brennan, F.; Gregory, B.; Williams, R.O. Methotrexate restores regulatory T cell function through demethylation of the FoxP3 upstream enhancer in patients with rheumatoid arthritis. Abatacept (CTLA-4Ig) treatment reduces T cell apoptosis and regulatory T cell suppression in patients with rheumatoid arthritis.
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