腺苷核苷酸生物合成和 AMPK 调节成年寿命并介导热量限制对果蝇的长寿益处。

Adenosine nucleotide biosynthesis and AMPK regulate adult life span and mediate the longevity benefit of caloric restriction in flies.

机构信息

Department of Developmental Biology, University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA.

出版信息

Cell Metab. 2013 Jan 8;17(1):101-12. doi: 10.1016/j.cmet.2012.12.006.

DOI:10.1016/j.cmet.2012.12.006

PMID:23312286

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3614013/

Abstract

A common thread among conserved life span regulators lies within intertwined roles in metabolism and energy homeostasis. We show that heterozygous mutations of AMP biosynthetic enzymes extend Drosophila life span. The life span benefit of these mutations depends upon increased AMP:ATP and ADP:ATP ratios and adenosine monophosphate-activated protein kinase (AMPK). Transgenic expression of AMPK in adult fat body or adult muscle, key metabolic tissues, extended life span, while AMPK RNAi reduced life span. Supplementing adenine, a substrate for AMP biosynthesis, to the diet of long-lived AMP biosynthesis mutants reversed life span extension. Remarkably, this simple change in diet also blocked the prolongevity effects of dietary restriction. These data establish AMP biosynthesis, adenosine nucleotide ratios, and AMPK as determinants of adult life span; provide a mechanistic link between cellular anabolism and energy sensing pathways; and indicate that dietary adenine manipulations might alter metabolism to influence animal life span.

摘要

在代谢和能量稳态的相互交织作用中，存在着寿命调控因子的共同作用。我们发现，AMP 生物合成酶的杂合突变可延长果蝇的寿命。这些突变的寿命获益依赖于 AMP:ATP 和 ADP:ATP 比值以及单磷酸腺苷激活的蛋白激酶（AMPK）的增加。在成年脂肪体或关键代谢组织的成年肌肉中转基因表达 AMPK 可延长寿命，而 AMPK RNAi 则缩短寿命。将 AMP 生物合成的底物腺嘌呤添加到长寿命 AMP 生物合成突变体的饮食中可逆转寿命延长。值得注意的是，这种饮食中的简单变化也阻止了饮食限制的长寿作用。这些数据确立了 AMP 生物合成、腺苷核苷酸比值和 AMPK 作为成年寿命的决定因素；为细胞合成代谢和能量感应途径之间提供了一个机制联系；并表明饮食中腺嘌呤的操作可能会改变代谢以影响动物的寿命。

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