DEPDC5 依赖性 mTORC1 信号机制对于急性禁食的抗惊厥作用至关重要。

DEPDC5-dependent mTORC1 signaling mechanisms are critical for the anti-seizure effects of acute fasting.

机构信息

Department of Neurology, Boston Children's Hospital, Harvard Medical School, Boston, MA, USA; Division of Epilepsy and Clinical Neurophysiology and Epilepsy Genetics Program, Boston Children's Hospital, Harvard Medical School, Boston, MA, USA.

Department of Neurology, Boston Children's Hospital, Harvard Medical School, Boston, MA, USA.

出版信息

Cell Rep. 2022 Aug 30;40(9):111278. doi: 10.1016/j.celrep.2022.111278.

DOI:10.1016/j.celrep.2022.111278

PMID:36044864

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9508617/

Abstract

Caloric restriction and acute fasting are known to reduce seizures but through unclear mechanisms. mTOR signaling has been suggested as a potential mechanism for seizure protection from fasting. We demonstrate that brain mTORC1 signaling is reduced after acute fasting of mice and that neuronal mTORC1 integrates GATOR1 complex-mediated amino acid and tuberous sclerosis complex (TSC)-mediated growth factor signaling. Neuronal mTORC1 is most sensitive to withdrawal of leucine, arginine, and glutamine, which are dependent on DEPDC5, a component of the GATOR1 complex. Metabolomic analysis reveals that Depdc5 neuronal-specific knockout mice are resistant to sensing significant fluctuations in brain amino acid levels after fasting. Depdc5 neuronal-specific knockout mice are resistant to the protective effects of fasting on seizures or seizure-induced death. These results establish that acute fasting reduces seizure susceptibility in a DEPDC5-dependent manner. Modulation of nutrients upstream of GATOR1 and mTORC1 could offer a rational therapeutic strategy for epilepsy treatment.

摘要

热量限制和急性禁食已知可减少癫痫发作，但具体机制尚不清楚。mTOR 信号已被提出作为禁食保护癫痫发作的潜在机制。我们证明，急性禁食后小鼠大脑 mTORC1 信号降低，神经元 mTORC1 整合 GATOR1 复合物介导的氨基酸和结节性硬化复合物 (TSC) 介导的生长因子信号。神经元 mTORC1 对亮氨酸、精氨酸和谷氨酰胺的消耗最为敏感，而亮氨酸、精氨酸和谷氨酰胺依赖于 GATOR1 复合物的组成部分 DEPDC5。代谢组学分析显示，Depdc5 神经元特异性敲除小鼠在禁食后对大脑氨基酸水平的显著波动不敏感。Depdc5 神经元特异性敲除小鼠对禁食对癫痫发作或癫痫发作引起的死亡的保护作用具有抗性。这些结果表明，急性禁食以 DEPDC5 依赖的方式降低癫痫易感性。GATOR1 和 mTORC1 上游营养素的调节可能为癫痫治疗提供合理的治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d16b/9508617/7a32a7c76305/nihms-1833562-f0002.jpg

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DEPDC5 依赖性 mTORC1 信号机制对于急性禁食的抗惊厥作用至关重要。

DEPDC5-dependent mTORC1 signaling mechanisms are critical for the anti-seizure effects of acute fasting.

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