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转座元件与人类疾病:在应对环境污染物中的作用机制及意义。

Transposable Elements and Human Diseases: Mechanisms and Implication in the Response to Environmental Pollutants.

机构信息

BiOSSE (Biology of Organisms: Stress, Health, Environment), UFR Sciences et Techniques, Le Mans University, F-72085 Le Mans, France.

出版信息

Int J Mol Sci. 2022 Feb 25;23(5):2551. doi: 10.3390/ijms23052551.

DOI:10.3390/ijms23052551
PMID:35269693
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8910135/
Abstract

Transposable elements (TEs) are recognized as major players in genome plasticity and evolution. The high abundance of TEs in the human genome, especially the and Long Interspersed Nuclear Element-1 (LINE-1) repeats, makes them responsible for the molecular origin of several diseases. This involves several molecular mechanisms that are presented in this review: insertional mutation, DNA recombination and chromosomal rearrangements, modification of gene expression, as well as alteration of epigenetic regulations. This literature review also presents some of the more recent and/or more classical examples of human diseases in which TEs are involved. Whether through insertion of LINE-1 or elements that cause chromosomal rearrangements, or through epigenetic modifications, TEs are widely implicated in the origin of human cancers. Many other human diseases can have a molecular origin in TE-mediated chromosomal recombination or alteration of gene structure and/or expression. These diseases are very diverse and include hemoglobinopathies, metabolic and neurological diseases, and common diseases. Moreover, TEs can also have an impact on aging. Finally, the exposure of individuals to stresses and environmental contaminants seems to have a non-negligible impact on the epigenetic derepression and mobility of TEs, which can lead to the development of diseases. Thus, improving our knowledge of TEs may lead to new potential diagnostic markers of diseases.

摘要

转座元件 (TEs) 被认为是基因组可塑性和进化的主要参与者。TEs 在人类基因组中的高丰度,特别是 和 长散布核元件-1 (LINE-1) 重复序列,使它们成为几种疾病的分子起源的罪魁祸首。这涉及到几个分子机制,本文综述了这些机制:插入突变、DNA 重组和染色体重排、基因表达的修饰以及表观遗传调控的改变。这篇文献综述还介绍了一些人类疾病的最新和/或更经典的例子,其中涉及 TEs。无论是通过插入导致染色体重排的 LINE-1 或 元件,还是通过表观遗传修饰,TEs 都广泛涉及人类癌症的起源。许多其他人类疾病的分子起源可以是 TE 介导的染色体重组或基因结构和/或表达的改变。这些疾病非常多样化,包括血红蛋白病、代谢和神经疾病以及常见疾病。此外,TEs 还会影响衰老。最后,个体对压力和环境污染物的暴露似乎对 TE 的表观遗传去抑制和迁移有不可忽视的影响,这可能导致疾病的发生。因此,提高我们对 TEs 的认识可能会为疾病的新潜在诊断标志物提供线索。

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