对基因毒性应激的年龄相关反应的转录谱分析表明，DNA损伤反应随年龄而异。

Transcriptional profiling of the age-related response to genotoxic stress points to differential DNA damage response with age.

作者信息

Simon Kirk, Mukundan Anju, Dewundara Samantha, Van Remmen Holly, Dombkowski Alan A, Cabelof Diane C

机构信息

Department of Nutrition and Food Science, Wayne State University, Detroit, MI 48084, United States.

出版信息

Mech Ageing Dev. 2009 Sep;130(9):637-47. doi: 10.1016/j.mad.2009.07.007. Epub 2009 Aug 11.

DOI:10.1016/j.mad.2009.07.007

PMID:19679149

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3285901/

Abstract

The p53 DNA damage response attenuated with age and we have evaluated downstream factors in the DNA damage response. In old animals p21 protein accumulates in the whole cell fraction but significantly declines in the nucleus, which may alter cell cycle and apoptotic programs in response to DNA damage. We evaluated the transcriptional response to DNA damage in young and old and find 2692 genes are differentially regulated in old compared to young in response to oxidative stress (p<0.005). As anticipated, the transcriptional profile of young mice is consistent with DNA damage induced cell cycle arrest while the profile of old mice is consistent with cell cycle progression in the presence of DNA damage, suggesting the potential for catastrophic accumulation of DNA damage at the replication fork. Unique sets of DNA repair genes are induced in response to damage in old and young, suggesting the types of damage accumulating differs between young and old. The DNA repair genes upregulated in old animals point to accumulation of replication-dependent DNA double strand breaks (DSB). Expression data is consistent with loss of apoptosis following DNA damage in old animals. These data suggest DNA damage responses differ greatly in young and old animals.

摘要

p53 DNA损伤反应随年龄增长而减弱，我们已经评估了DNA损伤反应中的下游因子。在老年动物中，p21蛋白在全细胞组分中积累，但在细胞核中显著下降，这可能会改变细胞周期和凋亡程序以应对DNA损伤。我们评估了年轻和老年动物对DNA损伤的转录反应，发现与年轻动物相比，老年动物中有2692个基因在氧化应激反应中受到差异调节（p<0.005）。正如预期的那样，年轻小鼠的转录谱与DNA损伤诱导的细胞周期停滞一致，而老年小鼠的转录谱与存在DNA损伤时的细胞周期进展一致，这表明在复制叉处可能会发生灾难性的DNA损伤积累。年轻和老年动物对损伤的反应中会诱导出独特的DNA修复基因集，这表明年轻和老年动物积累的损伤类型有所不同。老年动物中上调的DNA修复基因表明存在复制依赖性DNA双链断裂（DSB）的积累。表达数据与老年动物DNA损伤后凋亡缺失一致。这些数据表明年轻和老年动物的DNA损伤反应存在很大差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/befb/3285901/3892d26849db/nihms138289f1a.jpg

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