Abstract
Lengthy use of general anesthetics (GAs) causes neurobehavioral deficits in the developing brain, which has raised significant clinical concerns such that the United States Food and Drug Administration (FDA) is warning on the use of GAs in children younger than 3 years. However, the molecular and cellular mechanisms for GAs-induced neurotoxicity remain largely unknown. Here, we report that sevoflurane (Sevo), a commonly used GA in pediatrics, caused compromised astrocyte morphogenesis spatiotemporally correlated to synaptic overgrowth, with reduced synaptic function in developing cortex in a regional-, exposure-length-, and age-specific manner. Sevo disrupted astrocyte Ca2+ homeostasis both acutely and chronically, which led to the down-regulation of Ezrin, an actin-binding membrane-bound protein, which we found was critically involved in astrocyte morphogenesis in vivo. Importantly, overexpression of astrocyte Ezrin rescued astrocytic and neuronal dysfunctions and fully corrected deficits in social behaviors in developing mice with lengthy Sevo exposure. Our data uncover that, in addition to neurons, astrocytes may represent important targets for GAs to exert toxic effects and that astrocyte morphological integrity is crucial for synaptogenesis and neurological behaviors.
Highlights
Millions of infants and young children are undergoing general anesthesia every year
In a combination of Ca2+ imaging, high-resolution morphological reconstructions using light and electron microscopy, and mouse genetics, we explored in detail how Sevo, a commonly used general anesthetic (GA) in pediatrics, negatively impacts astrocyte morphogenesis and Ca2+ signaling in situ and in vivo, and provided evidence to show that astrocyte dysfunctions drive neuronal dysfunctions and social behavior deficits in mice with lengthy Sevo exposure
To evaluate how lengthy Sevo exposure affects developing mouse brain, we had postnatal day 7 (P7) mice exposed to 2.5% Sevo or their littermates exposed to carrier gas (30% O2/70% N2) for 4 h
Summary
Millions of infants and young children are undergoing general anesthesia every year. Human retrospective cohort studies strongly suggest that exposure of general anesthetics (GAs) and sedation drugs to immature individuals produced developmental and behavioral disorders. Astroglia in anesthetics-induced developmental neurotoxicity study design, data collection and analysis, decision to publish, or preparation of the manuscript
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