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鉴定内源性基因毒性应激驱动的细胞衰老中失调的微小RNA。

Identification of microRNAs dysregulated in cellular senescence driven by endogenous genotoxic stress.

作者信息

Nidadavolu Lolita S, Niedernhofer Laura J, Khan Saleem A

机构信息

Department of Microbiology and Molecular Genetics, University of Pittsburgh School of Medicine, Pittsburgh, PA 15219, USA.

出版信息

Aging (Albany NY). 2013 Jun;5(6):460-73. doi: 10.18632/aging.100571.

DOI:10.18632/aging.100571
PMID:23852002
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3824412/
Abstract

XFE progeroid syndrome, a disease of accelerated aging caused by deficiency in the DNA repair endonuclease XPF-ERCC1, is modeled by Ercc1 knockout and hypomorphic mice. Tissues and primary cells from these mice senesce prematurely, offering a unique opportunity to identify factors that regulate senescence and aging. We compared microRNA (miRNA) expression in Ercc1-/- primary mouse embryonic fibroblasts (MEFs) and wild-type (WT) MEFs in different growth conditions to identify miRNAs that drive cellular senescence. Microarray analysis showed three differentially expressed miRNAs in passage 7 (P7) Ercc1-/- MEFs grown at 20% O2 compared to Ercc1-/- MEFs grown at 3% O2. Thirty-six differentially expressed miRNAs were identified in Ercc1-/- MEFs at P7 compared to early passage (P3) in 3% O2. Eight of these miRNAs (miR-449a, miR-455*, miR-128, miR-497, miR-543, miR-450b-3p, miR-872 and miR-10b) were similarly downregulated in the liver of progeroid Ercc1-/Δ and old WT mice compared to adult WT mice, a tissue that senesces with aging. Three miRNAs (miR-449a, miR-455* and miR-128) were also downregulated in Ercc1-/Δ and WT old mice kidneys compared to young WT mice. We also discovered that the miRNA expression regulator Dicer is significantly downregulated in tissues of old mice and late passage cells compared to young controls. Collectively these results support the conclusion that the miRNAs identified may play an important role in staving off cellular senescence and their altered expression could be indicative of aging.

摘要

XFE早老综合征是一种由DNA修复核酸内切酶XPF-ERCC1缺乏引起的加速衰老疾病,可通过Ercc1基因敲除和低表达小鼠来模拟。这些小鼠的组织和原代细胞过早衰老,为识别调节衰老的因素提供了独特的机会。我们比较了不同生长条件下Ercc1-/-原代小鼠胚胎成纤维细胞(MEF)和野生型(WT)MEF中的微小RNA(miRNA)表达,以鉴定驱动细胞衰老的miRNA。微阵列分析显示,与在3%氧气浓度下培养的Ercc1-/- MEF相比,在20%氧气浓度下培养的第7代(P7)Ercc1-/- MEF中有三种差异表达的miRNA。与在3%氧气浓度下的早期传代(P3)相比,在P7的Ercc1-/- MEF中鉴定出36种差异表达的miRNA。其中8种miRNA(miR-449a、miR-455*、miR-128、miR-497、miR-543、miR-450b-3p、miR-872和miR-10b)在早衰的Ercc1-/Δ小鼠和老年WT小鼠的肝脏中与成年WT小鼠相比同样下调,肝脏是一种随衰老而衰老的组织。与年轻WT小鼠相比,Ercc1-/Δ和WT老年小鼠肾脏中的三种miRNA(miR-449a、miR-455*和miR-128)也下调。我们还发现,与年轻对照相比,miRNA表达调节剂Dicer在老年小鼠组织和晚期传代细胞中显著下调。这些结果共同支持这样的结论,即所鉴定的miRNA可能在延缓细胞衰老中起重要作用,其表达改变可能指示衰老。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93ad/3824412/4a667d260432/aging-05-460-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93ad/3824412/6ba4fcbf4b4f/aging-05-460-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93ad/3824412/4a667d260432/aging-05-460-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93ad/3824412/6ba4fcbf4b4f/aging-05-460-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93ad/3824412/4a667d260432/aging-05-460-g002.jpg

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