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异常蛋白转硝酰化的隐藏网络导致阿尔茨海默病中的突触丢失。

Hidden networks of aberrant protein transnitrosylation contribute to synapse loss in Alzheimer's disease.

机构信息

Neurodegeneration New Medicines Center and Department of Molecular Medicine, The Scripps Research Institute, La Jolla, CA, 92037, USA; Department of Neurosciences, University of California, San Diego, School of Medicine, La Jolla, CA, 92093, USA; Department of Neurology, Yale School of Medicine, New Haven, CT, 6510, USA.

出版信息

Free Radic Biol Med. 2022 Nov 20;193(Pt 1):171-176. doi: 10.1016/j.freeradbiomed.2022.10.272. Epub 2022 Oct 13.

DOI:10.1016/j.freeradbiomed.2022.10.272
PMID:36243209
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9875813/
Abstract

Emerging evidence indicates the importance of S-nitrosation in regulating protein function and activity. This chemical reaction has been termed protein S-nitrosylation to emphasize its biological importance as a posttranslational modification, in some ways reminiscent of phosphorylation. The reaction at cysteine thiols is distinct from other chemical reactions of nitric oxide (NO) that activate soluble guanylate cyclase via nitrosylation of heme or formation of peroxynitrite via reaction with superoxide anion to produce tyrosine nitration. Here, we review the importance of pathological, aberrant transnitrosylation reactions, i.e., transfer of the NO group from one protein to another, and its consequent effect on the pathogenesis of neurological disorders, to date on Alzheimer's disease (AD), but also expected to affect Parkinson's disease (PD)/Lewy body dementia (LBD), HIV-associated neurocognitive disorder (HAND), and other neurodegenerative and neurodevelopmental disorders.

摘要

新出现的证据表明 S-亚硝化在调节蛋白质功能和活性方面的重要性。这种化学反应被称为蛋白质 S-亚硝化,以强调其作为一种翻译后修饰的生物学重要性,在某些方面类似于磷酸化。半胱氨酸巯基上的反应不同于一氧化氮(NO)的其他化学反应,后者通过血红素的亚硝化或通过与超氧阴离子反应形成过氧亚硝酸盐来激活可溶性鸟苷酸环化酶,从而导致酪氨酸硝化。在这里,我们回顾了病理性、异常的转亚硝化反应的重要性,即从一种蛋白质到另一种蛋白质的 NO 基团的转移,以及其对神经退行性疾病发病机制的影响,迄今为止主要是阿尔茨海默病(AD),但也可能影响帕金森病(PD)/路易体痴呆(LBD)、HIV 相关认知障碍(HAND)和其他神经退行性和神经发育性疾病。

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