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胰岛素/IGF1 信号受损通过促进线粒体 L-脯氨酸分解代谢来诱导短暂的 ROS 信号,从而延长寿命。

Impaired insulin/IGF1 signaling extends life span by promoting mitochondrial L-proline catabolism to induce a transient ROS signal.

机构信息

Department of Human Nutrition, Institute of Nutrition, University of Jena, Jena, Germany.

出版信息

Cell Metab. 2012 Apr 4;15(4):451-65. doi: 10.1016/j.cmet.2012.02.013.

DOI:10.1016/j.cmet.2012.02.013
PMID:22482728
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4844853/
Abstract

Impaired insulin and IGF-1 signaling (iIIS) in C. elegans daf-2 mutants extends life span more than 2-fold. Constitutively, iIIS increases mitochondrial activity and reduces reactive oxygen species (ROS) levels. By contrast, acute impairment of daf-2 in adult C. elegans reduces glucose uptake and transiently increases ROS. Consistent with the concept of mitohormesis, this ROS signal causes an adaptive response by inducing ROS defense enzymes (SOD, catalase), culminating in ultimately reduced ROS levels despite increased mitochondrial activity. Inhibition of this ROS signal by antioxidants reduces iIIS-mediated longevity by up to 60%. Induction of the ROS signal requires AAK-2 (AMPK), while PMK-1 (p38) and SKN-1 (NRF-2) are needed for the retrograde response. IIIS upregulates mitochondrial L-proline catabolism, and impairment of the latter impairs the life span-extending capacity of iIIS while L-proline supplementation extends C. elegans life span. Taken together, iIIS promotes L-proline metabolism to generate a ROS signal for the adaptive induction of endogenous stress defense to extend life span.

摘要

胰岛素和 IGF-1 信号受损(iIIS)在 C. elegans 的 daf-2 突变体中使寿命延长了两倍以上。持续的 iIIS 增加线粒体活性并降低活性氧(ROS)水平。相比之下,急性损害成年 C. elegans 中的 daf-2 会降低葡萄糖摄取并短暂增加 ROS。与线粒体激素的概念一致,这种 ROS 信号通过诱导 ROS 防御酶(SOD、过氧化氢酶)引起适应性反应,最终导致尽管线粒体活性增加但 ROS 水平降低。抗氧化剂抑制这种 ROS 信号会使 iIIS 介导的寿命延长减少多达 60%。ROS 信号的诱导需要 AAK-2(AMPK),而 PMK-1(p38)和 SKN-1(NRF-2)则需要逆行反应。IIS 上调线粒体 L-脯氨酸分解代谢,而后者的损害会损害 iIIS 延长寿命的能力,而 L-脯氨酸补充则延长 C. elegans 的寿命。总之,iIIS 促进 L-脯氨酸代谢以产生 ROS 信号,用于适应性诱导内源性应激防御以延长寿命。

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