Young Andrew R J, Narita Masako, Ferreira Manuela, Kirschner Kristina, Sadaie Mahito, Darot Jeremy F J, Tavaré Simon, Arakawa Satoko, Shimizu Shigeomi, Watt Fiona M, Narita Masashi
Cancer Research UK, Cambridge Research Institute, Li Ka Shing Centre, Cambridge, United Kingdom.
Genes Dev. 2009 Apr 1;23(7):798-803. doi: 10.1101/gad.519709. Epub 2009 Mar 11.
As a stress response, senescence is a dynamic process involving multiple effector mechanisms whose combination determines the phenotypic quality. Here we identify autophagy as a new effector mechanism of senescence. Autophagy is activated during senescence and its activation is correlated with negative feedback in the PI3K-mammalian target of rapamycin (mTOR) pathway. A subset of autophagy-related genes are up-regulated during senescence: Overexpression of one of those genes, ULK3, induces autophagy and senescence. Furthermore, inhibition of autophagy delays the senescence phenotype, including senescence-associated secretion. Our data suggest that autophagy, and its consequent protein turnover, mediate the acquisition of the senescence phenotype.
作为一种应激反应,衰老乃是一个涉及多种效应机制的动态过程,这些机制的组合决定了表型特征。在此,我们确定自噬是衰老的一种新的效应机制。自噬在衰老过程中被激活,其激活与磷脂酰肌醇-3激酶-雷帕霉素哺乳动物靶蛋白(PI3K-mTOR)通路中的负反馈相关。一部分自噬相关基因在衰老过程中上调:其中一个基因ULK3的过表达会诱导自噬和衰老。此外,自噬的抑制会延迟衰老表型,包括衰老相关分泌。我们的数据表明,自噬及其随之而来的蛋白质周转介导了衰老表型的获得。