神经元可塑性导致发作后死亡。

IF 6.7 2区 医学 Q1 NEUROSCIENCES Progress in Neurobiology Pub Date : 2023-09-29 DOI:10.1016/j.pneurobio.2023.102531
Anastasia Brodovskaya , Huayu Sun , Nadia Adotevi , Ian C. Wenker , Keri E. Mitchell , Rachel T. Clements , Jaideep Kapur
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引用次数: 0

摘要

反复全身性强直-阵挛性癫痫发作(GTCS)是癫痫猝死(SUDEP)的最重要危险因素。GTCS可导致致命的呼吸暂停。我们研究了诱发发作后呼吸暂停和癫痫诱导死亡的神经元可塑性机制。反复发作使行为恶化,导致呼吸暂停,并扩大活动神经元回路,在中脑导水管周围灰质(PAG)和中缝背侧等脑干细胞核中募集更多神经元,表明脑干可塑性。癫痫发作激活的神经元更易兴奋,并且在癫痫发作后增强了AMPA介导的兴奋性传递。AMPA受体GluA1亚基的整体缺失可消除发作后呼吸暂停和癫痫诱导的死亡。用阻断Ca2+渗透性AMPA受体的药物治疗也使小鼠无呼吸暂停,存活率是未治疗小鼠的五倍。反复发作将含有AMPA受体的GluA1亚基传递到突触,阻断这一机制可降低发作后呼吸暂停和癫痫诱导死亡的概率。
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Neuronal plasticity contributes to postictal death

Repeated generalized tonic-clonic seizures (GTCSs) are the most critical risk factor for sudden unexpected death in epilepsy (SUDEP). GTCSs can cause fatal apnea. We investigated neuronal plasticity mechanisms that precipitate postictal apnea and seizure-induced death. Repeated seizures worsened behavior, precipitated apnea, and enlarged active neuronal circuits, recruiting more neurons in such brainstem nuclei as periaqueductal gray (PAG) and dorsal raphe, indicative of brainstem plasticity. Seizure-activated neurons are more excitable and have enhanced AMPA-mediated excitatory transmission after a seizure. Global deletion of the GluA1 subunit of AMPA receptors abolishes postictal apnea and seizure-induced death. Treatment with a drug that blocks Ca2+-permeable AMPA receptors also renders mice apnea-free with five-fold better survival than untreated mice. Repeated seizures traffic the GluA1 subunit-containing AMPA receptors to synapses, and blocking this mechanism decreases the probability of postictal apnea and seizure-induced death.

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来源期刊
Progress in Neurobiology
Progress in Neurobiology 医学-神经科学
CiteScore
12.80
自引率
1.50%
发文量
107
审稿时长
33 days
期刊介绍: Progress in Neurobiology is an international journal that publishes groundbreaking original research, comprehensive review articles and opinion pieces written by leading researchers. The journal welcomes contributions from the broad field of neuroscience that apply neurophysiological, biochemical, pharmacological, molecular biological, anatomical, computational and behavioral analyses to problems of molecular, cellular, developmental, systems, and clinical neuroscience.
期刊最新文献
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