炎症
医学
神经毒性
基因剔除小鼠
血脑屏障
骨髓
缺血
炎症体
巨噬细胞
免疫学
下调和上调
神经科学
中枢神经系统
促炎细胞因子
髓样
神经炎症
脑损伤
细胞生物学
神经保护
病理
癌症研究
脑缺血
先天免疫系统
冲程(发动机)
趋化性
造血
基因敲除
外围设备
药品
全身炎症
平衡
组织蛋白酶
作者
Miao Wang,Zhentai Huang,Zhihong Du,Jiajing Shan,Qing Ye,Lingxiao Lu,Ming Jiang,Fei Xu,Ziyang Liu,David J.R. Fulton,Rehana K. Leak,Babak Razani,Jun Chen,Xiaoming Hu
摘要
Circulating monocyte-derived macrophages (MDMø) rapidly invade the brain after stroke, exerting both detrimental and beneficial effects. Elucidating mechanisms that mediate detrimental properties of MDMø may identify therapeutic strategies to divert MDMø from destructive phenotypes, while preserving their favorable effects. Toward this goal, the current study explores the function of Galectin-3 (GAL3) in MDMø and elucidates mechanisms whereby MDMø-derived GAL3 exacerbates stroke injury. In the acutely injured brain, GAL3 expression was upregulated primarily within MDMø. Global knockout of GAL3 reduced brain infarcts in the short-term but did not sustain long-term positive outcomes. Using bone marrow chimera mice, macrophage transplantation, and myeloid cell-specific GAL3 knockout (LysMCre+/-Lgals3f/f) mice, we demonstrated that GAL3 in MDMø mediated acute infarct expansion after stroke. Coculturing brain lysate-treated bone marrow-derived macrophages (BMDMs) with oxygen glucose deprivation-challenged neurons induced neurotoxicity that was mitigated by the cell-permeable, selective GAL3 inhibitor TD139. GAL3 triggered cathepsin induction and lysosomal leakage in BMDMs, leading to inflammasome activation. Systemic and transient TD139 treatment in the acute injury phase reduced infarcts, tempered neuroinflammation, and improved long-term neurological outcomes. Therefore, MDMø-derived GAL3 represents a drug target that could be accessed in peripheral blood to potentially mitigate post-stroke brain injury.
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