Nuclear factor of activated T cells 5 deficiency increases the severity of neuronal cell death in ischemic injury.

Q1 Medicine

Neurosignals Pub Date : 2012-01-01 Epub Date: 2012-01-18 DOI:10.1159/000331899

Keri Man Chi Mak, Amy Cheuk Yin Lo, Amy Ka Man Lam, Patrick Ka Kit Yeung, Ben Chi Bun Ko, Stephen Sum Man Chung, Sookja Kim Chung

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引用次数: 21

Abstract

Nuclear factor of activated T cells 5 (NFAT5) has been implicated in regulating several genes that are thought to be neuroprotective in ischemic injury. Because of the embryonic lethality of NFAT5 knockout (NFAT5(-/-)) mice, the heterozygous (NFAT5(+/-)) mice were used to study the in vivo role of NFAT5 in hypoxia/ischemia (H/I) condition. The NFAT5(+/-) mice exhibited more severe neurological deficits, larger infarct area and edema formation associated with increased aquaporin 4 expressions in the brain. Under in vitro H/I condition, increased apoptotic cell death was found in NFAT5(-/-) neurons. Moreover, SMIT, a downstream to NFAT5, was upregulated in NFAT5(+/+) neurons, while the SMIT level could not be upregulated in NFAT5(-/-) neurons under H/I condition. The elevation of reactive oxygen species generation in NFAT5(-/-) neurons under H/I condition further confirmed that NFAT5(-/-) neurons were more susceptible to oxidative stress. The present study demonstrated that activation of NFAT5 and its downstream SMIT induction is important in protecting neurons from ischemia-induced oxidative stress.

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活化T细胞核因子5缺乏增加缺血性损伤神经元细胞死亡的严重程度。

活化T细胞核因子5 (NFAT5)参与调节几种被认为在缺血性损伤中具有神经保护作用的基因。由于NFAT5基因敲除(NFAT5(-/-))小鼠的胚胎致死性，我们采用杂合子(NFAT5(+/-))小鼠研究了NFAT5在体内缺氧/缺血(H/I)状态下的作用。NFAT5(+/-)小鼠表现出更严重的神经功能缺损，更大的梗死面积和水肿形成，与脑中水通道蛋白4表达增加有关。在体外H/I条件下，NFAT5(-/-)神经元凋亡细胞死亡增加。此外，NFAT5的下游基因SMIT在NFAT5(+/+)神经元中表达上调，而在H/I条件下，NFAT5(-/-)神经元中SMIT水平不上调。H/I条件下NFAT5(-/-)神经元活性氧生成的升高进一步证实了NFAT5(-/-)神经元更容易受到氧化应激的影响。目前的研究表明，NFAT5的激活及其下游SMIT诱导在保护神经元免受缺血诱导的氧化应激中是重要的。

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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来源期刊

Neurosignals 医学-神经科学

CiteScore

3.40

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Neurosignals is an international journal dedicated to publishing original articles and reviews in the field of neuronal communication. Novel findings related to signaling molecules, channels and transporters, pathways and networks that are associated with development and function of the nervous system are welcome. The scope of the journal includes genetics, molecular biology, bioinformatics, (patho)physiology, (patho)biochemistry, pharmacology & toxicology, imaging and clinical neurology & psychiatry. Reported observations should significantly advance our understanding of neuronal signaling in health & disease and be presented in a format applicable to an interdisciplinary readership.