短暂而多样的兴奋毒性损伤会增加新生儿大脑神经元核膜的通透性,导致神经元功能障碍和细胞死亡。

IF 4.4 2区 医学 Q1 NEUROSCIENCES
Pratyush Suryavanshi, Rachel Langton, Kimberly Fairhead, Joseph Glykys
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引用次数: 0

摘要

神经元细胞毒性水肿与神经元损伤和死亡有关,但通过渗透疗法和手术干预减轻脑水肿的临床效果不佳。重要的是,对大脑早期发育过程中神经元肿胀及其下游后果的研究仍然很少,因此需要新的治疗方法。我们利用多光子 Ca2+ 成像技术,在体内(P12-17)和急性脑片(P8-12)中探索了不同损伤导致的神经元细胞毒性水肿后 Ca2+ 依赖性下游效应。在不同的兴奋性毒性损伤后,细胞质中的 GCaMP6s 会在几分钟后在亚群神经元中转移到细胞核中,并持续数小时。我们使用自动形态学检测算法检测神经元体节,并将 GCaMP6s 的核转移量化为核与细胞膜强度(N/C 比)。神经元 N/C 比值升高与 Ca2+ 负荷持续升高同时发生,也可能独立于神经元肿胀发生。电子显微镜显示,核转移与核孔增大有关。GCaMP6s 在神经元中的核积累导致了新皮质回路功能障碍、线粒体病理变化和细胞死亡增加。抑制钙蛋白酶(一种由 Ca2+ 激活的蛋白酶家族)可防止 N/C 比值升高和神经元肿胀。总之,在发育中的大脑中,我们发现了一种依赖于钙蛋白酶的核转运改变,这种改变在神经元亚群中与疾病相关的损伤后导致长期的回路功能障碍和细胞死亡。我们的研究表明,模拟各种神经系统疾病的不同损伤会扩大发育中大脑的神经元核孔。核孔的扩大导致细胞质定位蛋白(如 GCaMP6s)快速核转位。神经元核转位的增加与新皮质回路活动减弱和神经元死亡有关。抑制钙蛋白酶可阻止兴奋毒性诱导的GCaMP6s核转位和神经元肿胀。这些发现对治疗大脑发育早期的脑损伤和神经元肿胀具有临床意义,目前尚缺乏直接的药物治疗方法。由于GCaMP6变体被广泛应用于神经科学领域,其异常核转位可用于研究早期神经元损伤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Brief and Diverse Excitotoxic Insults Increase the Neuronal Nuclear Membrane Permeability in the Neonatal Brain, Resulting in Neuronal Dysfunction and Cell Death.

Neuronal cytotoxic edema is implicated in neuronal injury and death, yet mitigating brain edema with osmotic and surgical interventions yields poor clinical outcomes. Importantly, neuronal swelling and its downstream consequences during early brain development remain poorly investigated, and new treatment approaches are needed. We explored Ca2+-dependent downstream effects after neuronal cytotoxic edema caused by diverse injuries in mice of both sexes using multiphoton Ca2+ imaging in vivo [Postnatal Day (P)12-17] and in acute brain slices (P8-12). After different excitotoxic insults, cytosolic GCaMP6s translocated into the nucleus after a few minutes in a subpopulation of neurons, persisting for hours. We used an automated morphology-detection algorithm to detect neuronal soma and quantified the nuclear translocation of GCaMP6s as the nuclear to cytosolic intensity (N/C ratio). Elevated neuronal N/C ratios occurred concurrently with persistent elevation in Ca2+ loads and could also occur independently from neuronal swelling. Electron microscopy revealed that the nuclear translocation was associated with the increased nuclear pore size. The nuclear accumulation of GCaMP6s in neurons led to neocortical circuit dysfunction, mitochondrial pathology, and increased cell death. Inhibiting calpains, a family of Ca2+-activated proteases, prevented elevated N/C ratios and neuronal swelling. In summary, in the developing brain, we identified a calpain-dependent alteration of nuclear transport in a subpopulation of neurons after disease-relevant insults leading to long-term circuit dysfunction and cell death. The nuclear translocation of GCaMP6 and other cytosolic proteins after acute excitotoxicity can be an early biomarker of brain injury in the developing brain.

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来源期刊
Journal of Neuroscience
Journal of Neuroscience 医学-神经科学
CiteScore
9.30
自引率
3.80%
发文量
1164
审稿时长
12 months
期刊介绍: JNeurosci (ISSN 0270-6474) is an official journal of the Society for Neuroscience. It is published weekly by the Society, fifty weeks a year, one volume a year. JNeurosci publishes papers on a broad range of topics of general interest to those working on the nervous system. Authors now have an Open Choice option for their published articles
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