<p>Autoantibody- and complement-mediated cytotoxicity can cause autoimmune astrocytopathy that leads to CNS inflammatory demyelination. Formyl peptide receptor 2 (FPR2/ALX) governs the activation and propagation of immune response. However, the precise role of FPR2/ALX in neuroinflammation and the effect of FPR2/ALX stimulation on autoimmune astrocytopathy are poorly understood. Using a mouse model of autoimmune astrocytopathy induced by AQP4-IgG- and complement-mediated cytotoxicity, we found that the stimulation of FPR2/ALX with the small-molecule agonist Quin-C1 led to reduced brain lesion volume, astrocyte loss and demyelination. This was accompanied by enhanced anti-inflammatory activity of microglia and reduced infiltration of lymphocytes in the brain. FPR2/ALX stimulation also led to increased phosphorylation of SYK and AKT in mice with autoimmune astrocytopathy. Notably, the benefits of FPR2/ALX stimulation were attenuated in mice with autoimmune astrocytopathy after microglial depletion using the CSF1R inhibitor PLX5622 or natural killer (NK) cell depletion using an anti-NK1.1 monoclonal antibody. Additionally, the protective effects of FPR2/ALX stimulation were diminished in mice with autoimmune astrocytopathy that received the SYK inhibitor R406. Collectively, our findings demonstrate that FPR2/ALX stimulation may represent a promising therapeutic strategy to attenuate detrimental neuroinflammation in autoimmune astrocytopathy by modulating microglia and NK cells.</p><p></p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

FPR2/ALX stimulation modulates microglia and natural killer cells to restrict autoimmune astrocytopathy

  • Cai-yun Qi,
  • Li-xiang Chen,
  • Yi-wei Fu,
  • Peng-xu Wang,
  • Wei Zhang,
  • Ya-li Han,
  • Tong-xiao Xu,
  • Yuan Li,
  • Xiao-zhen Wang,
  • Gui-yun Cui,
  • Hao Chen,
  • Ming-Wei Wang,
  • Qiang Liu

摘要

Autoantibody- and complement-mediated cytotoxicity can cause autoimmune astrocytopathy that leads to CNS inflammatory demyelination. Formyl peptide receptor 2 (FPR2/ALX) governs the activation and propagation of immune response. However, the precise role of FPR2/ALX in neuroinflammation and the effect of FPR2/ALX stimulation on autoimmune astrocytopathy are poorly understood. Using a mouse model of autoimmune astrocytopathy induced by AQP4-IgG- and complement-mediated cytotoxicity, we found that the stimulation of FPR2/ALX with the small-molecule agonist Quin-C1 led to reduced brain lesion volume, astrocyte loss and demyelination. This was accompanied by enhanced anti-inflammatory activity of microglia and reduced infiltration of lymphocytes in the brain. FPR2/ALX stimulation also led to increased phosphorylation of SYK and AKT in mice with autoimmune astrocytopathy. Notably, the benefits of FPR2/ALX stimulation were attenuated in mice with autoimmune astrocytopathy after microglial depletion using the CSF1R inhibitor PLX5622 or natural killer (NK) cell depletion using an anti-NK1.1 monoclonal antibody. Additionally, the protective effects of FPR2/ALX stimulation were diminished in mice with autoimmune astrocytopathy that received the SYK inhibitor R406. Collectively, our findings demonstrate that FPR2/ALX stimulation may represent a promising therapeutic strategy to attenuate detrimental neuroinflammation in autoimmune astrocytopathy by modulating microglia and NK cells.