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Astrocytes produce nitric oxide via nitrite reduction in mitochondria to regulate cerebral blood flow during brain hypoxia

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  • Isabel N Christie
  • Shefeeq M Theparambil
  • Alice Braga
  • Maxim Doronin
  • Patrick S Hosford
  • Alexey Brazhe
  • Alexander Mascarenhas
  • Shereen Nizari
  • Anna Hadjihambi
  • Jack A Wells
  • Adrian Hobbs
  • Alexey Semyanov
  • Andrey Y Abramov
  • Plamena R Angelova
  • Alexander V Gourine
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Article number113514
<mark>Journal publication date</mark>26/12/2023
<mark>Journal</mark>Cell Reports
Issue number12
Volume42
Publication StatusPublished
Early online date30/11/23
<mark>Original language</mark>English

Abstract

During hypoxia, increases in cerebral blood flow maintain brain oxygen delivery. Here, we describe a mechanism of brain oxygen sensing that mediates the dilation of intraparenchymal cerebral blood vessels in response to reductions in oxygen supply. In vitro and in vivo experiments conducted in rodent models show that during hypoxia, cortical astrocytes produce the potent vasodilator nitric oxide (NO) via nitrite reduction in mitochondria. Inhibition of mitochondrial respiration mimics, but also occludes, the effect of hypoxia on NO production in astrocytes. Astrocytes display high expression of the molybdenum-cofactor-containing mitochondrial enzyme sulfite oxidase, which can catalyze nitrite reduction in hypoxia. Replacement of molybdenum with tungsten or knockdown of sulfite oxidase expression in astrocytes blocks hypoxia-induced NO production by these glial cells and reduces the cerebrovascular response to hypoxia. These data identify astrocyte mitochondria as brain oxygen sensors that regulate cerebral blood flow during hypoxia via release of nitric oxide.