Hemorrhagic stroke-induced subtype of inflammatory reactive astrocytes disrupts blood-brain barrier.
Chang LiuYiyan GuoShiyu DengShiyi ZhouShengju WuTingting ChenXiaojing ShiMuyassar MamtilahunTongtong XuZe LiuHanlai LiZhijun ZhangHengli TianWon-Suk ChungJixian WangGuo-Yuan YangYao-Hui TangPublished in: Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism (2024)
Astrocytes undergo disease-specific transcriptomic changes upon brain injury. However, phenotypic changes of astrocytes and their functions remain unclear after hemorrhagic stroke. Here we reported hemorrhagic stroke induced a group of inflammatory reactive astrocytes with high expression of Gfap and Vimentin , as well as inflammation-related genes lipocalin-2 (Lcn2) , Complement component 3 (C3), and Serpina3n . In addition, we demonstrated that depletion of microglia but not macrophages inhibited the expression of inflammation-related genes in inflammatory reactive astrocytes. RNA sequencing showed that blood-brain barrier (BBB) disruption-related gene matrix metalloproteinase-3 (MMP3) was highly upregulated in inflammatory reactive astrocytes. Pharmacological inhibition of MMP3 in astrocytes or specific deletion of astrocytic MMP3 reduced BBB disruption and improved neurological outcomes of hemorrhagic stroke mice. Our study demonstrated that hemorrhagic stroke induced a group of inflammatory reactive astrocytes that were actively involved in disrupting BBB through MMP3, highlighting a specific group of inflammatory reactive astrocytes as a critical driver for BBB disruption in neurological diseases.