小胶质细胞
细胞生物学
磷酸化
化学
信号转导
氧化磷酸化
再生(生物学)
调节器
雅普1
糖酵解
新生血管
生物
激酶
血脑屏障
神经科学
紧密连接
FKBP5型
活性氧
炎症
条件基因敲除
平衡
作者
Yanan Li,Yanmei Qiu,Yunlei Yang,Yanhao Wei,Haokun Peng,Li Zeng,Pengcheng Li,Rentang Bi,Bo Hu
标识
DOI:10.1002/advs.202512499
摘要
(Fkbp5 cKO) mice in the ipsilateral hemisphere reveals enhanced interactions between stroke-VAM and endothelial cells, influencing signaling pathways that maintain BBB integrity and promote neovascularization. After ischemic injury, microglia in Fkbp5 cKO mice exhibits higher M2 marker expression and reduces glycolysis, OXPHOS, and phagocytosis, resulting in decreased BBB leakage and enhanced angiogenesis. Mechanistically, unbiased snRNA-seq analysis shows that the Hippo signaling pathway is altered in Fkbp5 cKO stroke-VAM. Fkbp5 inhibits Yap1 phosphorylation, facilitating its nuclear translocation. These findings provide new insights into how the perivascular microglial niche contributes to both the degradation and regeneration of cerebral vasculature, offering potential therapeutic avenues for acute ischemic stroke.
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