饮食和基因对与年龄相关的基因沉默丧失的影响揭示了衰老过程中染色质抑制的表观遗传可塑性。

Dietary and genetic effects on age-related loss of gene silencing reveal epigenetic plasticity of chromatin repression during aging.

作者信息

Jiang Nan, Du Guyu, Tobias Ethan, Wood Jason G, Whitaker Rachel, Neretti Nicola, Helfand Stephen L

机构信息

Department of Molecular Biology, Cell Biology and Biochemistry, Division of Biology and Medicine, Brown University, Providence, RI 02912, USA.

出版信息

Aging (Albany NY). 2013 Nov;5(11):813-24. doi: 10.18632/aging.100614.

DOI:10.18632/aging.100614

PMID:24243774

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3868724/

Abstract

During aging, changes in chromatin state that alter gene transcription have been postulated to result in expression of genes that are normally silenced, leading to deleterious age-related effects on cellular physiology. Despite the prevalence of this hypothesis, it is primarily in yeast that loss of gene silencing with age has been well documented. We use a novel position effect variegation (PEV) reporter in Drosophila melanogaster to show that age-related loss of repressive heterochromatin is associated with loss of gene silencing in metazoans and is affected by Sir2, as it is in yeast. The life span-extending intervention, calorie restriction (CR), delays the age-related loss of gene silencing, indicating that loss of gene silencing is a component of normal aging. Diet switch experiments show that such flies undergo a rapid change in their level of gene silencing, demonstrating the epigenetic plasticity of chromatin during aging and highlighting the potential role of diet and metabolism in chromatin maintenance, Thus, diet and related interventions may be of therapeutic importance for age-related diseases, such as cancer.

摘要

在衰老过程中，染色质状态的变化会改变基因转录，据推测这会导致通常被沉默的基因表达，从而对细胞生理产生与衰老相关的有害影响。尽管这一假说很普遍，但主要是在酵母中，随着年龄增长基因沉默的丧失才有充分的文献记载。我们在黑腹果蝇中使用一种新型的位置效应斑驳（PEV）报告基因，以表明后生动物中与年龄相关的抑制性异染色质的丧失与基因沉默的丧失有关，并且像在酵母中一样受Sir2影响。延长寿命的干预措施，即热量限制（CR），可延缓与年龄相关的基因沉默丧失，这表明基因沉默的丧失是正常衰老的一个组成部分。饮食转换实验表明，此类果蝇的基因沉默水平会迅速变化，这证明了衰老过程中染色质的表观遗传可塑性，并突出了饮食和代谢在染色质维持中的潜在作用。因此，饮食及相关干预措施可能对癌症等与年龄相关的疾病具有治疗意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a1b/3868724/7499d6094923/aging-05-813-g001.jpg

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饮食和基因对与年龄相关的基因沉默丧失的影响揭示了衰老过程中染色质抑制的表观遗传可塑性。

Dietary and genetic effects on age-related loss of gene silencing reveal epigenetic plasticity of chromatin repression during aging.

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