相互影响的压力相关基因在寿命调节中的作用：将实验结果转化为人类的启示。

Journal of translational genetics and genomics Pub Date : 2021-01-01 Epub Date: 2021-10-19

Anatoliy I Yashin, Deqing Wu, Konstantin Arbeev, Arseniy P Yashkin, Igor Akushevich, Olivia Bagley, Matt Duan, Svetlana Ukraintseva

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引用次数: 0

摘要

目的：实验研究提供了大量证据，证明热量/饮食限制可改善实验动物的健康状况并延长其寿命，而且感知细胞压力信号的分子和调节细胞存活的分子之间的相互作用在细胞对营养压力源的反应中起着至关重要的作用。然而，目前还不清楚相应基因之间的相互作用是否也会对人类的健康和寿命产生影响：方法：对有关细胞应激源作用的文献进行了综述，如氨基酸剥夺和综合应激反应（ISR）途径在健康和衰老中的作用。根据实验研究的信息，筛选出了两个候选基因（GCN2/EIF2AK4 和 CHOP/DDIT3）中的单核苷酸多态性（SNPs），这两个基因与细胞对氨基酸饥饿的应激反应密切相关。在健康与退休研究（Health and Retirement Study）的数据中，对这些 SNPs 及其相互作用与人类生存的相关性进行了估算。利用最近开发的综合指数：SNP 特异性相互作用多基因风险评分（SIPRS），评估了多个相互作用 SNP 对生存的集体关联的影响：结果：GCN2/EIF2AK4 和 CHOP/DDI3T 基因的 SNP 之间存在显著的交互作用，这些 SNP 与总样本（男性和女性的总和）中 85 岁以上的存活率相比，与 75 至 85 岁的存活率相比，仅与女性的存活率相关。这可能反映了人类寿命基因调控的性别差异。本研究还发现，SIPRS[构建的rs16970024（GCN2/EIF2AK4）和rs697221（CHOP/DDIT3）]与两性的存活率存在高度统计学意义：结论：确定基因相互作用与人类生存的关联是将实验知识转化为人类衰老研究的重要一步。本研究中发现的 ISR 基因中多个 SNPxSNP 相互作用与高龄生存的显著关联，有助于揭示人类寿命的多因素调控机制及其异质性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Roles of interacting stress-related genes in lifespan regulation: insights for translating experimental findings to humans.

本刊更多论文

Roles of interacting stress-related genes in lifespan regulation: insights for translating experimental findings to humans.

Aim: Experimental studies provided numerous evidence that caloric/dietary restriction may improve health and increase the lifespan of laboratory animals, and that the interplay among molecules that sense cellular stress signals and those regulating cell survival can play a crucial role in cell response to nutritional stressors. However, it is unclear whether the interplay among corresponding genes also plays a role in human health and lifespan.

Methods: Literature about roles of cellular stressors have been reviewed, such as amino acid deprivation, and the integrated stress response (ISR) pathway in health and aging. Single nucleotide polymorphisms (SNPs) in two candidate genes (GCN2/EIF2AK4 and CHOP/DDIT3) that are closely involved in the cellular stress response to amino acid starvation, have been selected using information from experimental studies. Associations of these SNPs and their interactions with human survival in the Health and Retirement Study data have been estimated. The impact of collective associations of multiple interacting SNP pairs on survival has been evaluated, using a recently developed composite index: the SNP-specific Interaction Polygenic Risk Score (SIPRS).

Results: Significant interactions have been found between SNPs from GCN2/EIF2AK4 and CHOP/DDI3T genes that were associated with survival 85+ compared to survival between ages 75 and 85 in the total sample (males and females combined) and in females only. This may reflect sex differences in genetic regulation of the human lifespan. Highly statistically significant associations of SIPRS [constructed for the rs16970024 (GCN2/EIF2AK4) and rs697221 (CHOP/DDIT3)] with survival in both sexes also been found in this study.

Conclusion: Identifying associations of the genetic interactions with human survival is an important step in translating the knowledge from experimental to human aging research. Significant associations of multiple SNPxSNP interactions in ISR genes with survival to the oldest old age that have been found in this study, can help uncover mechanisms of multifactorial regulation of human lifespan and its heterogeneity.

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来源期刊

Journal of translational genetics and genomics

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2.70

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