Abstract
Galectin-9 ameliorates various murine autoimmune disease models by regulating T cells and macrophages, although it is not known what role it may have in B cells. The present experiment shows that galectin-9 ameliorates a variety of clinical symptoms, such as proteinuria, arthritis, and hematocrit in MRL/lpr lupus-prone mice. As previously reported, galectin-9 reduces the frequency of Th1, Th17, and activated CD8+ T cells. Although anti-dsDNA antibody was increased in MRL/lpr lupus-prone mice, galectin-9 suppressed anti-dsDNA antibody production, at least partly, by decreasing the number of plasma cells. Galectin-9 seemed to decrease the number of plasma cells by inducing plasma cell apoptosis, and not by suppressing BAFF production. Although about 20% of CD19−/low CD138+ plasma cells expressed Tim-3 in MRL/lpr lupus-prone mice, Tim-3 may not be directly involved in the galectin-9-induced apoptosis, because anti-Tim-3 blocking antibody did not block galectin-9-induced apoptosis. This is the first report of plasma cell apoptosis being induced by galectin-9. Collectively, it is likely that galectin-9 attenuates the clinical severity of MRL lupus-prone mice by regulating T cell function and inducing plasma cell apoptosis.
Highlights
Systemic lupus erythematosus (SLE) is a systemic autoimmune disease characterized by autoantibody production against selfantigens
Since it is well known that MRL/lpr lupus-prone mice develop autoimmune arthritis and hemolytic anemia [11,12], we examined the effects of Gal-9 on these diseases
We found that in MRL/lpr lupus-prone mice, Gal-9 attenuates the severity of various symptoms, such as lupus nephritis, arthritis, and hemolytic anemia
Summary
Systemic lupus erythematosus (SLE) is a systemic autoimmune disease characterized by autoantibody production against selfantigens. Among SLE complications, lupus nephritis is the most serious and a major predictor of poor prognosis [1]. B-cell stimulatory factors promote the loss of B-cell tolerance and drive autoantibody production. B cell activation mediated by B-cell activator factor belonging to the TNF family (BAFF) and a proliferation-inducing ligand (APRIL) have been implicated in SLE pathogenesis [2,3,4]. This suggests that B cell regulation, in addition to T cell regulation, is required for SLE treatment [2]
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