全身麻醉会改变中枢神经系统和星形胶质细胞依赖活动基因和不依赖活动基因的表达。

Frontiers in network physiology Pub Date : 2023-08-21 eCollection Date: 2023-01-01 DOI:10.3389/fnetp.2023.1216366
Zoeb Jiwaji, Nóra M Márkus, Jamie McQueen, Katie Emelianova, Xin He, Owen Dando, Siddharthan Chandran, Giles E Hardingham
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引用次数: 0

摘要

全身麻醉是一种常见的临床干预措施,但可能会对中枢神经系统造成长期不良影响,尤其是对老年人或痴呆症患者。抑制大脑皮层活动是麻醉诱导的无意识状态的一个主要特征,而大脑皮层活动是对大脑健康非常重要的通路的调节器。然而,人们对麻醉的影响究竟有多大,而不仅仅是简单的抑制神经元活动尚不完全清楚。我们发现,全身麻醉会降低体内生理活动诱导的大脑皮层基因表达,并重现体外完全阻断发射活动诱导的其他基因调控模式,包括抑制神经保护基因和诱导促凋亡基因。然而,麻醉的影响超出了活动调节所能解释的范围,包括诱导与炎症和细胞死亡相关的非活动调节基因。我们接下来的研究重点是星形胶质细胞,它是神经元活动和炎症信号传导的重要整合者。全身麻醉引发的基因表达变化与星形胶质细胞所处的低活性环境一致,但此外还诱导了一种反应性特征,其转录变化富含中风、神经炎症和 Aß/tau 病理学所引发的转录变化。因此,虽然全身麻醉对大脑皮层基因表达的影响与大脑活动的强烈抑制一致,但进一步的有害影响也是显而易见的,包括星形胶质细胞的反应性特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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General anesthesia alters CNS and astrocyte expression of activity-dependent and activity-independent genes.

General anesthesia represents a common clinical intervention and yet can result in long-term adverse CNS effects particularly in the elderly or dementia patients. Suppression of cortical activity is a key feature of the anesthetic-induced unconscious state, with activity being a well-described regulator of pathways important for brain health. However, the extent to which the effects of anesthesia go beyond simple suppression of neuronal activity is incompletely understood. We found that general anesthesia lowered cortical expression of genes induced by physiological activity in vivo, and recapitulated additional patterns of gene regulation induced by total blockade of firing activity in vitro, including repression of neuroprotective genes and induction of pro-apoptotic genes. However, the influence of anesthesia extended beyond that which could be accounted for by activity modulation, including the induction of non activity-regulated genes associated with inflammation and cell death. We next focused on astrocytes, important integrators of both neuronal activity and inflammatory signaling. General anesthesia triggered gene expression changes consistent with astrocytes being in a low-activity environment, but additionally caused induction of a reactive profile, with transcriptional changes enriched in those triggered by stroke, neuroinflammation, and Aß/tau pathology. Thus, while the effects of general anesthesia on cortical gene expression are consistent with the strong repression of brain activity, further deleterious effects are apparent including a reactive astrocyte profile.

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