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The changing of <scp>α5‐GABAA</scp> receptors expression and distribution participate in sevoflurane‐induced learning and memory impairment in young mice

Shengran Wang, Sixuan Wang, Zhun Wang, Jinpeng Dong, Mengxue Zhang, Yongan Wang, Jianyu Wang, Beichen Jia, Yuan Luo, Yiqing Yin

2024CNS Neuroscience & Therapeutics11 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Sevoflurane is a superior agent for maintaining anesthesia during surgical procedures. However, the neurotoxic mechanisms of clinical concentration remain poorly understood. Sevoflurane can interfere with the normal function of neurons and synapses and impair cognitive function by acting on α5-GABAAR. METHODS: Using MWM test, we evaluated cognitive abilities in mice following 1 h of anesthesia with 2.7%-3% sevoflurane. Based on hippocampal transcriptome analysis, we analyzed the differential genes and IL-6 24 h post-anesthesia. Western blot and RT-PCR were performed to measure the levels of α5-GABAAR, Radixin, P-ERM, P-Radixin, Gephyrin, IL-6, and ROCK. The spatial distribution and expression of α5-GABAAR on neuronal somata were analyzed using histological and three-dimensional imaging techniques. RESULTS: MWM test indicated that partial long-term learning and memory impairment. Combining molecular biology and histological analysis, our studies have demonstrated that sevoflurane induces immunosuppression, characterized by reduced IL-6 expression levels, and that enhanced Radixin dephosphorylation undermines the microstructural stability of α5-GABAAR, leading to its dissociation from synaptic exterior and resulting in a disordered distribution in α5-GABAAR expression within neuronal cell bodies. On the synaptic cleft, the expression level of α5-GABAAR remained unchanged, the spatial distribution became more compact, with an increased fluorescence intensity per voxel. On the extra-synaptic space, the expression level of α5-GABAAR decreased within unchanged spatial distribution, accompanied by an increased fluorescence intensity per voxel. CONCLUSION: Dysregulated α5-GABAAR expression and distribution contributes to sevoflurane-induced partial long-term learning and memory impairment, which lays the foundation for elucidating the underlying mechanisms in future studies.

Topics & Concepts

SevofluraneRadixinMorris water navigation taskGABAA receptorNeuroscienceHippocampusHippocampal formationChemistryReceptorAnesthesiaPsychologyMedicineInternal medicineCellEzrinCytoskeletonBiochemistryAnesthesia and Neurotoxicity ResearchIntensive Care Unit Cognitive DisordersNeuroscience and Neuropharmacology Research