一种基因组学方法可识别衰老特异性基因表达调控。

A genomics approach identifies senescence-specific gene expression regulation.

作者信息

Lackner Daniel H, Hayashi Makoto T, Cesare Anthony J, Karlseder Jan

机构信息

Salk Institute for Biological Studies, Molecular and Cell Biology Laboratory, 10010 North Torrey Pines Road, La Jolla, CA, 92037, USA.

出版信息

Aging Cell. 2014 Oct;13(5):946-50. doi: 10.1111/acel.12234. Epub 2014 May 23.

DOI:10.1111/acel.12234

PMID:24863242

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4172521/

Abstract

Replicative senescence is a fundamental tumor-suppressive mechanism triggered by telomere erosion that results in a permanent cell cycle arrest. To understand the impact of telomere shortening on gene expression, we analyzed the transcriptome of diploid human fibroblasts as they progressed toward and entered into senescence. We distinguished novel transcription regulation due to replicative senescence by comparing senescence-specific expression profiles to profiles from cells arrested by DNA damage or serum starvation. Only a small specific subset of genes was identified that was truly senescence-regulated and changes in gene expression were exacerbated from presenescent to senescent cells. The majority of gene expression regulation in replicative senescence was shown to occur due to telomere shortening, as exogenous telomerase activity reverted most of these changes.

摘要

复制性衰老是一种由端粒侵蚀触发的基本肿瘤抑制机制，会导致细胞周期永久停滞。为了了解端粒缩短对基因表达的影响，我们分析了二倍体人类成纤维细胞在走向衰老并进入衰老状态时的转录组。通过将衰老特异性表达谱与因DNA损伤或血清饥饿而停滞的细胞的表达谱进行比较，我们区分了由复制性衰老引起的新型转录调控。仅鉴定出一小部分真正受衰老调控的特定基因子集，并且基因表达的变化从衰老前细胞到衰老细胞加剧。复制性衰老中的大多数基因表达调控被证明是由于端粒缩短而发生的，因为外源性端粒酶活性逆转了这些变化中的大部分。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/036b/4331749/9f6e3a14f3f5/acel0013-0946-f1.jpg

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一种基因组学方法可识别衰老特异性基因表达调控。

A genomics approach identifies senescence-specific gene expression regulation.

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