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עמוד בית
Mon, 25.11.24

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January 2015
Przemyslaw Kotyla MD PhD, Katarzyna Jankiewicz-Ziobro MD PhD, Aleksander Owczarek MD PhD and Eugene J. Kucharz MD PhD

Background: Targeted anti-tumor necrosis factor-alpha (TNFα) therapy in patients with rheumatoid arthritis (RA) has resulted in dramatic improvement in the course of the disease and prognosis. One of the features of RA is hyperplasia of synovial cells, particularly RA synovial fibroblasts (RA-SF), caused partially by impaired apoptosis of RA-SF cells. It has been shown that TNFα may inhibit apoptosis in RA-SF cells and this process may be reversed by the use of TNFα antagonists.

Objectives: To determine the influence of etanercept, an anti-TNFα agent, on sFas (CD 95) receptor.

Methods: We analyzed serum levels of sFaS and TNFα in a group of 26 patients with high RA disease activity who were selected to start treatment with etanercept. Assessment of sFas receptor and TNFα levels was performed before and 6 months after treatment with etanercept.

Results: Treatment with etanercept resulted in increased TNFα levels (log TNFα 0.602 vs. 1.17, P < 0.05) but no change in sFas levels (log sFas 3.17 vs. 3.11, P = 0.37). As expected, treatment resulted in significant reduction in both disease activity and levels of inflammatory markers.

Conclusions: Etanercept may increase TNFα levels in patients with RA. We also speculate that the Fas pathway is not the main apoptotic pathway in patients with RA treated with etenercept, since sFas, a marker of apoptotic activity, remained unchanged and was not influenced by disease activity and concomitant treatment. 

December 2014
Zahava Vadasz MD, Doron Rimar MD and Elias Toubi MD
October 2014
Piercarlo Sarzi-Puttini MD and Fabiola Atzeni MD PhD
August 2012
S. Bezalel, I. Asher, D. Elbirt and Z.M. Sthoeger

Current treatments for systemic lupus erythematosus (SLE) are effective in reducing morbidity and mortality but are not specific and have severe adverse effects. Based on understanding of the different dysregulated immunological pathways involved in SLE pathogenesis, specific targeted therapies were developed. This review presents the current and the near-future novel biological immune targeted treatments, such as B cell-targeted therapy, cytokine blockade, peptide-based treatments and other novel treatments for SLE.
 

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