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Human iPSC-derived microglia sense and dampen hyperexcitability of cortical neurons carrying the epilepsy-associated SCN2A-L1342P mutation.

Zhefu QueMaria I Olivero-AcostaIan ChenJingliang ZhangKyle WettschurackJiaxiang WuTiange XiaoC Max OtterbacherMuhan WangHope HarlowNingren CuiXiaoling ChenBrody DemingManasi HalurkarYuanrui ZhaoJean-Christophe RochetRanjie XuAmy L BrewsterLong-Jun WuChongli YuanWilliam C SkarnesYang Yang
Published in: bioRxiv : the preprint server for biology (2023)
Seizure studies in mouse models have highlighted the role of microglia in modulating neuronal activity, particularly in the promotion or suppression of seizures. However, a gap persists in comprehending the influence of human microglia on intrinsically hyperexcitable neurons carrying epilepsy-associated pathogenic mutations. This research addresses this gap by investigating human microglia and their impact on neuronal functions. Our findings demonstrate that microglia exhibit dynamic morphological alterations and calcium fluctuations in the presence of neurons carrying an epilepsy-associated SCN2A mutation. Furthermore, microglia suppressed the excitability of diseased hyperexcitable neurons, suggesting a potential beneficial role. This study underscores the role of microglia in the regulation of abnormal neuronal activity, providing insights into therapeutic strategies for neurological conditions associated with hyperexcitability.
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