硫化氢处理后脊髓原代培养物的蛋白质组学与毒性分析

Proteomics and Toxicity Analysis of Spinal-Cord Primary Cultures upon Hydrogen Sulfide Treatment.

作者信息

Greco Viviana, Spalloni Alida, Corasolla Carregari Victor, Pieroni Luisa, Persichilli Silvia, Mercuri Nicola B, Urbani Andrea, Longone Patrizia

机构信息

Institute of Biochemistry and Clinical Biochemistry, Università Cattolica del Sacro Cuore, 00168 Rome, Italy.

Department of Laboratory Diagnostic and Infectious Diseases, Fondazione Policlinico Universitario Agostino Gemelli-IRCCS, 00168 Rome, Italy.

出版信息

Antioxidants (Basel). 2018 Jul 10;7(7):87. doi: 10.3390/antiox7070087.

DOI:10.3390/antiox7070087

PMID:29996549

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6070951/

Abstract

Hydrogen sulfide (H₂S) is an endogenous gasotransmitter recognized as an essential body product with a dual, biphasic action. It can function as an antioxidant and a cytoprotective, but also as a poison with a high probability of causing brain damage when present at noxious levels. In a previous study, we measured toxic liquoral levels of H₂S in sporadic amyotrophic lateral sclerosis (ALS) patients and in the familial ALS (fALS) mouse model, SOD1G93A. In addition, we experimentally demonstrated that H₂S is extremely and selectively toxic to motor neurons, and that it is released by glial cells and increases Ca concentration in motor neurons due to a lack of ATP. The presented study further examines the effect of toxic concentrations of H₂S on embryonic mouse spinal-cord cultures. We performed a proteomic analysis that revealed a significant H₂S-mediated activation of pathways related to oxidative stress and cell death, particularly the Nrf-2-mediated oxidative stress response and peroxiredoxins. Furthermore, we report that Na₂S (a stable precursor of H₂S) toxicity is, at least in part, reverted by the Bax inhibitor V5 and by necrostatin, a potent necroptosis inhibitor.

摘要

硫化氢（H₂S）是一种内源性气体递质，被认为是一种具有双重、双相作用的重要身体产物。它可以作为抗氧化剂和细胞保护剂发挥作用，但当处于有害水平时，也可作为一种毒物，极有可能导致脑损伤。在先前的一项研究中，我们测量了散发性肌萎缩侧索硬化症（ALS）患者以及家族性ALS（fALS）小鼠模型SOD1G93A中脑脊液中有毒的H₂S水平。此外，我们通过实验证明，H₂S对运动神经元具有极强的选择性毒性，并且它由神经胶质细胞释放，由于缺乏ATP而导致运动神经元中的钙浓度升高。本研究进一步考察了有毒浓度的H₂S对胚胎小鼠脊髓培养物的影响。我们进行了蛋白质组学分析，结果显示H₂S介导了与氧化应激和细胞死亡相关通路的显著激活，特别是Nrf-2介导的氧化应激反应和过氧化物酶。此外，我们报告称，Bax抑制剂V5和强效坏死性凋亡抑制剂坏死抑素至少部分逆转了硫化钠（H₂S的一种稳定前体）的毒性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eec3/6070951/f59d3a91ddf0/antioxidants-07-00087-g001.jpg

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硫化氢处理后脊髓原代培养物的蛋白质组学与毒性分析

Proteomics and Toxicity Analysis of Spinal-Cord Primary Cultures upon Hydrogen Sulfide Treatment.

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