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吸烟者肺功能加速下降与TP53/MDM2基因多态性有关。

Accelerated decline in lung function in cigarette smokers is associated with TP53/MDM2 polymorphisms.

作者信息

Hancox Robert J, Poulton Richie, Welch David, Olova Nelly, McLachlan Christene R, Greene Justina M, Sears Malcolm R, Caspi Avshalom, Moffitt Terrie E, Robertson Stephen P, Braithwaite Antony W

机构信息

Dunedin Multidisciplinary Health and Development Research Unit, Dunedin School of Medicine, University of Otago, Dunedin, New Zealand.

出版信息

Hum Genet. 2009 Oct;126(4):559-65. doi: 10.1007/s00439-009-0704-z. Epub 2009 Jun 12.

DOI:10.1007/s00439-009-0704-z
PMID:19521721
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3740961/
Abstract

In vitro studies have shown that p53 mediates a protective response against DNA damage by causing either cell-cycle arrest and DNA repair, or apoptosis. These responses have not yet been demonstrated in humans. A common source of DNA damage in humans is cigarette smoke, which should activate p53 repair mechanisms. As the level of p53 is regulated by MDM2, which targets p53 for degradation, the G-allele of a polymorphism in intron 1 of MDM2 (rs2279744:G/T), that results in higher MDM2 levels, should be associated with a reduced p53 response and hence more DNA damage and corresponding tissue destruction. Similarly, the alleles of rs1042522 in TP53 that encode arginine (G-allele) or proline (C-allele) at codon 72, which cause increased pro-apoptotic (G-allele) or cell-cycle arrest activities (C-allele), respectively, may moderate p53's ability to prevent DNA damage. To test these hypotheses, we examined lung function in relation to cumulative history of smoking in a population-based cohort. The G-alleles in MDM2 and TP53 were found to be associated with accelerated smoking-related decline in lung function. These data support the hypothesis that p53 protects from DNA damage in humans and provides a potential explanation for the variation in lung function impairment amongst smokers.

摘要

体外研究表明,p53通过导致细胞周期停滞和DNA修复或凋亡来介导对DNA损伤的保护反应。这些反应尚未在人类中得到证实。人类DNA损伤的一个常见来源是香烟烟雾,它应该会激活p53修复机制。由于p53的水平受MDM2调控,MDM2会将p53靶向降解,MDM2内含子1多态性(rs2279744:G/T)的G等位基因会导致MDM2水平升高,应该与p53反应降低相关,从而导致更多的DNA损伤和相应的组织破坏。同样,TP53中rs1042522的等位基因在密码子72处分别编码精氨酸(G等位基因)或脯氨酸(C等位基因),这分别导致促凋亡活性增加(G等位基因)或细胞周期停滞活性增加(C等位基因),可能会调节p53预防DNA损伤的能力。为了验证这些假设,我们在一个基于人群的队列中研究了肺功能与吸烟累积史的关系。发现MDM2和TP53中的G等位基因与吸烟相关的肺功能加速下降有关。这些数据支持了p53在人类中保护免受DNA损伤的假设,并为吸烟者肺功能损害的差异提供了一个潜在的解释。

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