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Vascular endothelium deploys caveolin-1 to regulate oligodendrogenesis after chronic cerebral ischemia in mice

Ying Zhao, Wusheng Zhu, Ting Wan, Xiaohao Zhang, Yunzi Li, Zhenqian Huang, Pengfei Xu, Kangmo Huang, Ruidong Ye, Yi Xie, Xinfeng Liu

2022Nature Communications51 citationsDOIOpen Access PDF

Abstract

Oligovascular coupling contributes to white matter vascular homeostasis. However, little is known about the effects of oligovascular interaction on oligodendrocyte precursor cell (OPC) changes in chronic cerebral ischemia. Here, using a mouse of bilateral carotid artery stenosis, we show a gradual accumulation of OPCs on vasculature with impaired oligodendrogenesis. Mechanistically, chronic ischemia induces a substantial loss of endothelial caveolin-1 (Cav-1), leading to vascular secretion of heat shock protein 90α (HSP90α). Endothelial-specific over-expression of Cav-1 or genetic knockdown of vascular HSP90α restores normal vascular-OPC interaction, promotes oligodendrogenesis and attenuates ischemic myelin damage. miR-3074(-1)-3p is identified as a direct inducer of Cav-1 reduction in mice and humans. Endothelial uptake of nanoparticle-antagomir improves myelin damage and cognitive deficits dependent on Cav-1. In summary, our findings demonstrate that vascular abnormality may compromise oligodendrogenesis and myelin regeneration through endothelial Cav-1, which may provide an intercellular mechanism in ischemic demyelination.

Topics & Concepts

Caveolin 1KLF2MyelinGene knockdownIschemiaCell biologyHeat shock proteinHomeostasisBiologyOligodendrocyteVascular endothelial growth factor BMedicineNeuroscienceCancer researchInternal medicineDownregulation and upregulationCentral nervous systemVascular endothelial growth factor AVascular endothelial growth factorCell cultureGeneticsGeneVEGF receptorsCaveolin-1 and cellular processesCancer-related molecular mechanisms researchLipid metabolism and disorders