1-甲基-4-苯基吡啶离子（MPP+）诱导的 S-亚硝基化的蛋白质组学分析。

Proteomic analysis of S-nitrosylation induced by 1-methyl-4-phenylpyridinium (MPP+).

机构信息

Department of Pharmacology, Nara Medical University School of Medicine, 840 Shijo-cho, Kashihara, Nar, 634-8521, Japan.

Department of Genomic Drug Discovery Science, Kyoto University Graduate School of Pharmaceutical Sciences, Sakyo-ku, Kyoto, Japan.

出版信息

Proteome Sci. 2012 Dec 29;10(1):74. doi: 10.1186/1477-5956-10-74.

DOI:10.1186/1477-5956-10-74

PMID:23273257

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3576269/

Abstract

BACKGROUND

Nitric oxide (NO) mediates its function through the direct modification of various cellular targets. S-nitrosylation is a post-translational modification of cysteine residues by NO that regulates protein function. Recently, an imbalance of S-nitrosylation has also been linked to neurodegeneration through the impairment of pro-survival proteins by S-nitrosylation.

RESULTS

In the present study, we used two-dimensional gel electrophoresis in conjunction with the modified biotin switch assay for protein S-nitrosothiols using resin-assisted capture (SNO-RAC) to identify proteins that are S-nitrosylated more intensively in neuroblastoma cells treated with a mitochondrial complex I inhibitor, 1-methyl-4-phenylpyridinium (MPP+). We identified 14 proteins for which S-nitrosylation was upregulated and seven proteins for which it was downregulated in MPP+-treated neuroblastoma cells. Immunoblot analysis following SNO-RAC confirmed a large increase in the S-nitrosylation of esterase D (ESD), serine-threonine kinase receptor-associated protein (STRAP) and T-complex protein 1 subunit γ (TCP-1 γ) in MPP+-treated neuroblastoma cells, whereas S-nitrosylation of thioredoxin domain-containing protein 5 precursor (ERp46) was decreased.

CONCLUSIONS

These results suggest that S-nitrosylation resulting from mitochondrial dysfunction can compromise neuronal survival through altering multiple signal transduction pathways and might be a potential therapeutic target for neurodegenerative diseases.

摘要

背景

一氧化氮（NO）通过直接修饰各种细胞靶标来发挥其功能。S-亚硝基化是由 NO 对半胱氨酸残基的一种翻译后修饰，可调节蛋白质功能。最近，S-亚硝基化的失衡也与神经退行性变有关，因为 S-亚硝基化会损害生存蛋白。

结果

在本研究中，我们使用二维凝胶电泳结合改良的生物素交换法用于蛋白质 S-亚硝酰硫醇的检测（SNO-RAC），以鉴定在用线粒体复合物 I 抑制剂 1-甲基-4-苯基吡啶（MPP+）处理的神经母细胞瘤细胞中 S-亚硝基化更强烈的蛋白质。我们鉴定出在 MPP+处理的神经母细胞瘤细胞中 S-亚硝基化上调的 14 种蛋白质和下调的 7 种蛋白质。SNO-RAC 后的免疫印迹分析证实，MPP+处理的神经母细胞瘤细胞中酯酶 D（ESD）、丝氨酸-苏氨酸激酶受体相关蛋白（STRAP）和 T 复合物蛋白 1 亚基 γ（TCP-1 γ）的 S-亚硝基化显著增加，而硫氧还蛋白结构域蛋白 5 前体（ERp46）的 S-亚硝基化减少。

结论

这些结果表明，线粒体功能障碍导致的 S-亚硝基化可能会通过改变多种信号转导途径来损害神经元的存活，并且可能是神经退行性疾病的潜在治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/58c9/3576269/0f5e01801416/1477-5956-10-74-1.jpg

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1-甲基-4-苯基吡啶离子（MPP+）诱导的 S-亚硝基化的蛋白质组学分析。

Proteomic analysis of S-nitrosylation induced by 1-methyl-4-phenylpyridinium (MPP+).

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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