表观遗传学：硫芥气致肺损伤细胞和分子途径中缺失的范例：一项前瞻性比较研究

Epigenetic: A missing paradigm in cellular and molecular pathways of sulfur mustard lung: a prospective and comparative study.

作者信息

Imani Saber, Panahi Yunes, Salimian Jafar, Fu Junjiang, Ghanei Mostafa

机构信息

Systems Biology Institute, Chemical Injuries Research Center, Baqiyatallah University of Medical Sciences, Tehran, Iran.

Key Laboratory of Epigenetics and Oncology, the Research Center for Preclinical Medicine, Sichuan Medical University, Luzhou, Sichuan, China.

出版信息

Iran J Basic Med Sci. 2015 Aug;18(8):723-36.

PMID:26557960

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4633454/

Abstract

Sulfur mustard (SM, bis- (2-chloroethyl) sulphide) is a chemical warfare agent that causes DNA alkylation, protein modification and membrane damage. SM can trigger several molecular pathways involved in inflammation and oxidative stress, which cause cell necrosis and apoptosis, and loss of cells integrity and function. Epigenetic regulation of gene expression is a growing research topic and is addressed by DNA methylation, histone modification, chromatin remodeling, and noncoding RNAs expression. It seems SM can induce the epigenetic modifications that are translated into change in gene expression. Classification of epigenetic modifications long after exposure to SM would clarify its mechanism and paves a better strategy for the treatment of SM-affected patients. In this study, we review the key aberrant epigenetic modifications that have important roles in chronic obstructive pulmonary disease (COPD) and compared with mustard lung.

摘要

硫芥（SM，双（2-氯乙基）硫化物）是一种化学战剂，可导致DNA烷基化、蛋白质修饰和膜损伤。硫芥可触发多种参与炎症和氧化应激的分子途径，这些途径会导致细胞坏死和凋亡，以及细胞完整性和功能丧失。基因表达的表观遗传调控是一个不断发展的研究课题，涉及DNA甲基化、组蛋白修饰、染色质重塑和非编码RNA表达。似乎硫芥可以诱导表观遗传修饰，进而转化为基因表达的变化。在接触硫芥很长时间后对表观遗传修饰进行分类，将阐明其作用机制，并为治疗受硫芥影响的患者提供更好的策略。在本研究中，我们回顾了在慢性阻塞性肺疾病（COPD）中起重要作用的关键异常表观遗传修饰，并与芥子气肺进行了比较。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e297/4633454/231318e33410/IJBMS-18-723-g001.jpg

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表观遗传学：硫芥气致肺损伤细胞和分子途径中缺失的范例：一项前瞻性比较研究

Epigenetic: A missing paradigm in cellular and molecular pathways of sulfur mustard lung: a prospective and comparative study.

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