受压的周细胞：TRPC3通道作为毛细血管血流的守门人

Pericytes under pressure: TRPC3 channels as gatekeepers of capillary flow.

作者信息

Earley Scott

机构信息

Department of Pharmacology and Physiology, University of Rochester Medical Center, Rochester, NY 14624-8711, USA.

出版信息

Sci Signal. 2025 Apr 29;18(884):eadw7185. doi: 10.1126/scisignal.adw7185.

DOI:10.1126/scisignal.adw7185

PMID:40299957

Abstract

Intrinsic control of cerebral blood flow in response to intravascular pressure is traditionally attributed to smooth muscle cells in arterioles. However, in this issue of , Ferris demonstrate that capillary constriction is caused by pressure-induced depolarization of pericytes, mural cells that encircle capillaries, and is mediated by TRPC3 cation channels, identifying the channel as critical for fine-tuning brain perfusion.

摘要

大脑血流对血管内压力的内在控制传统上归因于小动脉中的平滑肌细胞。然而，在本期《》中，费里斯等人证明，毛细血管收缩是由压力诱导的周细胞（环绕毛细血管的壁细胞）去极化引起的，并且由TRPC3阳离子通道介导，这表明该通道对于微调脑灌注至关重要。

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受压的周细胞：TRPC3通道作为毛细血管血流的守门人

Pericytes under pressure: TRPC3 channels as gatekeepers of capillary flow.

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