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血清/糖皮质激素调节激酶 1 在脑缺血后大脑功能中的作用。

The role of serum/glucocorticoid-regulated kinase 1 in brain function following cerebral ischemia.

机构信息

Stroke Center for Research, Louisiana State University Health, Shreveport, LA, USA.

Department of Neurology, Louisiana State University Health, Shreveport, LA, USA.

出版信息

J Cereb Blood Flow Metab. 2024 Jul;44(7):1145-1162. doi: 10.1177/0271678X231224508. Epub 2024 Jan 18.

DOI:10.1177/0271678X231224508
PMID:38235747
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11179613/
Abstract

Cardiopulmonary arrest (CA) is a major cause of death/disability in the U.S. with poor prognosis and survival rates. Current therapeutic challenges are physiologically complex because they involve hypoperfusion (decreased cerebral blood flow), neuroinflammation, and mitochondrial dysfunction. We previously discovered novel serum/glucocorticoid-regulated kinase 1 (SGK1) is highly expressed in brain of neurons that are susceptible to ischemia (hippocampus and cortex). We inhibited SGK1 and utilized pharmacological (specific inhibitor, GSK650394) and neuron-specific genetic approaches (shRNA) in rodent models of CA to determine if SGK1 is responsible for hypoperfusion, neuroinflammation, mitochondrial dysfunctional, and neurological deficits after CA. Inhibition of SGK1 alleviated cortical hypoperfusion and neuroinflammation (via Iba1, GFAP, and cytokine array). Treatment with GSK650394 enhanced mitochondrial function (via Seahorse respirometry) in the hippocampus 3 and 7 days after CA. Neuronal injury (via MAP2, dMBP, and Golgi staining) in the hippocampus and cortex was observed 7 days after CA but ameliorated with SGK1-shRNA. Moreover, SGK1 mediated neuronal injury by regulating the Ndrg1-SOX10 axis. Finally, animals subjected to CA exhibited learning/memory, motor, and anxiety deficits after CA, whereas SGK1 inhibition via SGK1-shRNA improved neurocognitive function. The present study suggests the fundamental roles of SGK1 in brain circulation and neuronal survival/death in cerebral ischemia-related diseases.

摘要

心肺骤停(CA)是美国主要的死亡/残疾原因,预后和存活率较差。目前的治疗挑战在生理上非常复杂,因为它们涉及低灌注(脑血流量减少)、神经炎症和线粒体功能障碍。我们之前发现,新型血清/糖皮质激素调节激酶 1(SGK1)在易发生缺血的神经元(海马体和皮质)的脑中高度表达。我们抑制了 SGK1,并在 CA 的啮齿动物模型中利用药理学(特异性抑制剂,GSK650394)和神经元特异性基因方法(shRNA)来确定 SGK1 是否负责 CA 后低灌注、神经炎症、线粒体功能障碍和神经功能缺损。SGK1 的抑制减轻了皮质低灌注和神经炎症(通过 Iba1、GFAP 和细胞因子阵列)。在 CA 后 3 和 7 天,用 GSK650394 治疗可增强海马体中的线粒体功能(通过 Seahorse 呼吸测定法)。海马体和皮质中的神经元损伤(通过 MAP2、dMBP 和高尔基染色)在 CA 后 7 天观察到,但用 SGK1-shRNA 可改善。此外,SGK1 通过调节 Ndrg1-SOX10 轴介导神经元损伤。最后,接受 CA 的动物在 CA 后表现出学习/记忆、运动和焦虑缺陷,而通过 SGK1-shRNA 抑制 SGK1 可改善神经认知功能。本研究表明 SGK1 在脑循环和神经元存活/死亡中在与脑缺血相关的疾病中起基本作用。

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