The role of medullary astrocytes in breathing and arousal: insights into glial regulation of respiratory function
Jan Marino Ramirez, Luiz Oliveira, Nicole Miranda, Hyun-Kyoung Lim, Liza Severs, Ana Takakura, Thiago Moreira, Franck Kalume

TL;DR
This study shows that astrocytes in a specific brain region help regulate breathing and wakefulness, especially during low oxygen conditions.
Contribution
The study demonstrates that medullary astrocytes are critical for arousal and sigh generation during hypoxia.
Findings
Optogenetic activation of astrocytes in the VRC increases the likelihood of sighs and arousal.
Depletion of astrocytes delays the response to hypoxia in terms of arousal and sigh generation.
Astrocytes in the VRC are activated by hypoxia and are phase-locked with sigh generation.
Abstract
Astrocytes play vital roles in regulating brain states across organisms. Specifically, they serve several roles in regulating breathing behaviors and associated brain states, including facilitating transitions between phases of breathing by sensing small changes in O2 and CO2 levels, regulating the sleep-wake cycle, and impacting arousal and wakefulness. Here, we tested the hypothesis that astrocytes in the ventral respiratory column (VRC) are important for arousal and sigh generation in alert mice (Aldh1l1Cre). Using calcium imaging we show that some Aldh1l1 cells are phase-locked with sigh generation and are activated in the VRC by hypoxia. Optogenetic activation (AAV-CAG-ChR2-EYFP) of astrocytes in the VRC increased the probability of evoking sighs and arousal while awake and during non-rapid eye movement (NREM) sleep. Depletion of astrocytes in the VRC by an AAV-CAG-Caspase3 virus…
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Taxonomy
TopicsNeuroscience of respiration and sleep · Sleep and Wakefulness Research · Neuroendocrine regulation and behavior
