Myelination Trajectory and Microglial Dynamics Following Repeated Sevoflurane Exposure in Developing Brain

ABSTRACT The myelination is a critical process during brain development. This study aimed to explore the impact of volatile anesthetic sevoflurane on developing myelination and the role of microglial activation in this process. Neonatal C57BL/6J mice were exposed to sevoflurane at their postnatal 6–8 days. Neurobehavioral tests were used to assess fine motor and cognitive functions. Myelination of hippocampus (HC) and corpus callosum (CC), as well as microglial activation, were determined by western blotting and immunostaining. Lipid droplets were assessed by Oil‐Red‐O and Bodipy staining. Further, primary microglia were co‐cultured with oligodendrocyte precursor cell (OPC) to determine the role of microglia in the proliferation and differentiation of OPC. And microglial inhibitor minocycline and CSF1R inhibitor PLX5622 were administered to assess the effects of microglial activation on developing myelination. The results showed that repeated sevoflurane exposure impaired both fine motor and cognitive functions and induced abnormal expressions of myelin‐related proteins myelin basic protein (MBP) and platelet‐derived growth factor α receptor (PDGFR‐α). And accumulations of lipid droplets were found in the microglia of HC and CC after sevoflurane exposure. Further, the spatiotemporal response to repeated sevoflurane exposure in glial cells exhibited an aberrant myelination process and microglial polarization. The conditioned medium from sevoflurane‐treated microglia inhibited the OPC proliferation and differentiation, while minocycline or PLX5622 alleviated sevoflurane‐induced neuroinflammation and hypomyelination. Therefore, repeated sevoflurane exposure negatively affected OPC differentiation and myelination trajectory through hyperactivating microglia in developing brain, leading to motor and cognitive impairments, while microglial inhibition/depletion could protect against sevoflurane‐induced damage on developing myelination.