Abstract
In both mouse models and clinical patients with lupus, autophagy levels were significantly elevated and correlated with disease activity. Furthermore, autophagy can promote the survival of B and T cells, plasma cell differentiation, and antibody production. These results suggest that autophagy may promote the progression of lupus by regulating the survival of autoreactive immune cells. Therefore, we aimed at studying whether suppressing autophagy can modulate lupus progression in vivo. First, we found that the autophagy levels in splenocytes and lymphocytes of peripheral blood (PB) were elevated and positively correlated with disease severity in lupus-prone mice. The shAtg5-lentivirus, which effectively inhibits autophagy in vitro, was then injected into the lupus-prone mice. Autophagy levels in lymph node cells and PB lymphocytes were reduced following Atg5 suppression. We also found that lymphadenopathy and the numbers of plasma cells, CD4−CD8−, and CD4+ T cells decreased in mice treated with the shAtg5-lentivirus. The mice treated with shAtg5-lentivirus exhibited lower levels of proteinuria, serum anti-dsDNA antibody, B-cell activating factor (BAFF), and glomerular immune complex deposition. Therefore, targeting autophagy to moderate overactivated autophagy in immune cells seems to be a novel strategy for combination therapy of lupus.
Highlights
Systemic lupus erythematosus (SLE) is an autoimmune disease characterized by the production of antinuclear antibodies, such as the anti-dsDNA antibody
We measured the proteinuria levels of wild type C57BL/6 (WT), B6.lpr, and TREM-1-/-.lpr mice at 32 weeks of age to confirm the development of a lupus-like syndrome
We found that autophagy was increased in B6.lpr mice when compared with WT mice and was higher in TREM-1-/-.lpr mice (Figure 1(b))
Summary
Systemic lupus erythematosus (SLE) is an autoimmune disease characterized by the production of antinuclear antibodies, such as the anti-dsDNA antibody. Innate immune cells like plasmacytoid dendritic cells (pDCs) and myeloid dendritic cells (mDCs) can be activated by these ICs and release various lupus-related cytokines, such as IFN-α and B-cell activating factor (BAFF), and proinflammatory cytokines [2,3,4], which further promote the activation, proliferation, and survival of T and B cells. They are capable of promoting PC differentiation [3, 5, 6]. Certain targeting drugs that can deplete B cells or inhibit the activation and survival of B and T cells are currently being developed and used [1, 3, 4, 7]
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