Circadian-disruption-induced gene expression changes in rodent mammary tissues

David Z. Kochan, Y. Ilnytskyy, A. Golubov, S. Deibel, R. J. McDonald, O. Kovalchuk
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引用次数: 7

Abstract

Evidence is mounting that circadian disruption (CD) is a potential carcinogen in breast cancer development. However, despite the growing concern, to our knowledge, no studies have attempted a genome-wide analysis of CD-induced gene expression changes in mammary tissues. Using a rodent model system, a proven photoperiod-shifting paradigm, varying degrees of CD, and Illumina sequencing, we performed an exploratory genome-wide mRNA analysis in mammary tissues. Even though our analysis did not identify any significant patterns in mRNA levels based on the degree of CD, and the majority of groups did not show changes in gene expression on a large-scale, one group (two-week chronic ZT19) displayed 196 differentially expressed genes, 51 of which have been linked to breast cancer. Through gene-specific pathway analysis, the data illustrate that CD may promote breast cancer development through downregulation of DNA repair and p53 signaling pathways, thus promoting genomic instability and cancer development. Although these results have to be interpreted with caution because only a single group illustrated drastic changes in transcript levels, they indicate that chronic CD may directly induce changes in gene expression on a large-scale with potentially malignant consequences.
昼夜节律紊乱诱导的啮齿动物乳腺组织基因表达变化
越来越多的证据表明,昼夜节律紊乱(CD)是乳腺癌发展的潜在致癌物。然而,尽管越来越受到关注,据我们所知,还没有研究尝试对cd诱导的乳腺组织基因表达变化进行全基因组分析。利用啮齿类动物模型系统、经过验证的光周期转移模式、不同程度的CD和Illumina测序,我们在乳腺组织中进行了探索性的全基因组mRNA分析。尽管我们的分析没有发现基于CD程度的mRNA水平的任何显著模式,并且大多数组没有显示出大规模的基因表达变化,但一组(两周慢性ZT19)显示出196个差异表达基因,其中51个与乳腺癌有关。通过基因特异性通路分析,数据表明CD可能通过下调DNA修复和p53信号通路促进乳腺癌的发展,从而促进基因组不稳定和癌症的发展。尽管这些结果必须谨慎解释,因为只有一个组显示了转录水平的剧烈变化,但它们表明慢性乳糜泻可能直接导致基因表达的大规模变化,并可能导致恶性后果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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