Choi et al [102] have exploited the finding that increased produ

Choi et al. [102] have exploited the finding that increased production of IFN-γ is the hallmark of in vivo anti-4-1BB administration [103] https://www.selleckchem.com/GSK-3.html to treat EAU: treatment of C57BL/6 mice with IRBP peptide (an EAU-inducing agent) and anti-4-1BB led to expansion of IFN-γ+ CD11c+CD8+ T cells and indoleamine 2,3-dioxygenase (IDO)+ DCs and these, in combination, led to deletion of autoreactive CD4+ T cells [102]. Taken together, these various findings indicate that targeting CD137 is an attractive strategy for preventing the symptoms associated with various autoimmune diseases (Table 1, Fig. 1e). The Fas (Apo-1/CD95) and Fas ligand (FasL) are one of the extensively studied TNF superfamily members. The

Fas was described originally as a cell surface molecule capable of inducing apoptosis when stimulated by Fas ligand (FasL) or agonistic

anti-Fas mAb [104–106]. However, there are reports that ligation of Fas on freshly isolated T cells co-stimulates cellular activation and proliferation [107], an attribute that is somewhat conflicting with its proposed role in apoptosis. The Fas is expressed in most tissues [108] and is up-regulated further during inflammation [109,110]. selleck At the cellular level, Fas expression is low on freshly isolated lymphocytes but is up-regulated on activated T cells [111]. Also, proportions of Fas-positive cells in peripheral T and B cells have been reported to increase in humans with Etofibrate advancing age [112]. Conversely, the expression of FasL is governed tightly and is expressed, among others, by activated T cells [113]. The Fas and FasL have been shown to play critical roles in various diseases including fulminant hepatitis [114,115], graft-versus-host disease [116] and tissue-specific autoimmune disease [117]. Fas–FasL interactions also are important in T cell-mediated cytotoxicity [118], immune privilege tissues [119–121], activation-induced cell death (AICD) [122,123] and transplant tolerance [124]. The Fas- and FasL-deficient mice develop autoimmune diseases and lymphadenopathy

due to the inability to delete the autoreactive T and B lymphocytes [125,126]. The importance of the Fas–FasL pathway has been underscored in a number of autoimmune diseases, including lupus [118], SLE [127], autoimmune lymphoproliferative syndrome (ALPS) [128,129], Canale–Smith syndrome [130], type 2 autoimmune hepatitis [131], Hashimoto’s syndrome [132], insulin-dependent diabetes mellitus [133,134], MS [135], Sjögren’s syndrome [136], myasthenia gravis [137], EAE [138] and RA [139]. Increased Fas+ and FasL+ cells were observed on the glial cells, macrophages and infiltrating lymphocytes in the white matter of MS brains [135,140]. Also, acinar cells of salivary glands of Sjögren’s syndrome patients show high expression of Fas and FasL and were shown to die by apoptosis [141]. While patients with Hashimoto’s disease showed decreased sFas, increased levels were noted in Graves’ thyroiditis and SLE patients [142,143].

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