饮食限制和表观遗传学:第一部分。

Conditioning medicine Pub Date : 2019-12-01
Gavin Yong-Quan Ng, David Yang-Wei Fann, Dong-Gyu Jo, Christopher G Sobey, Thiruma V Arumugam
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引用次数: 0

摘要

生物衰老与时间衰老同时发生,通常由年龄相关疾病的发展所负担,如神经退行性疾病、心血管疾病和无数的代谢疾病。随着当前与老龄化相关的疾病流行病学的全球转变以及由此导致的许多国家面临的社会、经济和医疗负担,实现成功老龄化的需求推动了解决这一问题的努力。衰老是一种复杂的生物现象,由于对潜在的分子机制的了解仍然有限,许多历史上的研究工作都对它的理解感到困惑。有趣的是,饮食限制(DR)是一种从简单生物到哺乳动物都能产生抗衰老效果的干预措施。对DR的研究已经揭示了强大的全身效应,可以通过无数的分子机制导致年龄相关疾病的衰减。鉴于许多与年龄相关的疾病通常是多基因的,对个体的影响不同,它们可能被环境影响和基因组之间的相互作用所混淆,这一过程被称为“表观遗传学”。在回顾的第一部分中,我们总结了DR方案的不同变体及其相应的机制和由此产生的影响,并深入分析了当前表观遗传景观的知识。
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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Dietary Restriction and Epigenetics: Part I.

Biological aging occurs concomitantly with chronological aging and is commonly burdened by the development of age-related conditions, such as neurodegenerative, cardiovascular, and a myriad of metabolic diseases. With a current global shift in disease epidemiology associated with aging and the resultant social, economic, and healthcare burdens faced by many countries, the need to achieve successful aging has fueled efforts to address this problem. Aging is a complex biological phenomenon that has confounded much of the historical research effort to understand it, with still limited knowledge of the underlying molecular mechanisms. Interestingly, dietary restriction (DR) is one intervention that produces anti-aging effects from simple organisms to mammals. Research into DR has revealed robust systemic effects that can result in attenuation of age-related diseases via a myriad of molecular mechanisms. Given that numerous age-associated diseases are often polygenic and affect individuals differently, it is possible that they are confounded by interactions between environmental influences and the genome, a process termed 'epigenetics'. In part one of the review, we summarize the different variants of DR regimens and their corresponding mechanism(s) and resultant effects, as well as in-depth analysis of current knowledge of the epigenetic landscape.

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