National Institute of Biological Sciences, Beijing, 102206 Beijing, People's Republic of China.
Development. 2011 May;138(10):2059-68. doi: 10.1242/dev.057109. Epub 2011 Apr 6.
Like other biological processes, aging is regulated by genetic pathways. However, it remains largely unknown whether aging is determined by an innate programmed timing mechanism and, if so, how this timer is linked to the mechanisms that control developmental timing. Here, we demonstrate that sea-2, which encodes a zinc-finger protein, controls developmental timing in C. elegans larvae by regulating expression of the heterochronic gene lin-28 at the post-transcriptional level. lin-28 is also essential for the autosomal signal element (ASE) function of sea-2 in X:A signal assessment. We also show that sea-2 modulates aging in adulthood. Loss of function of sea-2 slows the aging process and extends the adult lifespan in a DAF-16/FOXO-dependent manner. Mutation of sea-2 promotes nuclear translocation of DAF-16 and subsequent activation of daf-16 targets. We further demonstrate that insulin/IGF-1 signaling functions in the larval heterochronic circuit. Loss of function of the insulin/IGF-1 receptor gene daf-2, which extends lifespan, also greatly enhances the retarded heterochronic defects in sea-2 mutants. Regulation of developmental timing by daf-2 requires daf-16 activity. Our study provides evidence for intricate interplay between the heterochronic circuit that controls developmental timing in larvae and the timing mechanism that modulates aging in adults.
与其他生物过程一样,衰老受遗传途径调控。然而,衰老是否由内在的程序化定时机制决定,以及如果是这样,这个定时器如何与控制发育定时的机制相关,在很大程度上仍然未知。在这里,我们证明编码锌指蛋白的 sea-2 通过在转录后水平调节异型基因 lin-28 的表达来控制秀丽隐杆线虫幼虫的发育定时。lin-28 对于 sea-2 在 X:A 信号评估中的常染色体信号元件 (ASE) 功能也是必需的。我们还表明,sea-2 调节成年后的衰老。sea-2 功能丧失会减缓衰老过程,并以 DAF-16/FOXO 依赖的方式延长成年寿命。sea-2 的突变促进了 DAF-16 的核易位以及随后 daf-16 靶标的激活。我们进一步证明胰岛素/IGF-1 信号在幼虫异型性回路中起作用。胰岛素/IGF-1 受体基因 daf-2 的功能丧失(可延长寿命)也极大地增强了 sea-2 突变体中延迟的异型性缺陷。daf-2 对发育定时的调控需要 daf-16 的活性。我们的研究为控制幼虫发育定时的异型性回路和调节成年衰老的定时机制之间的复杂相互作用提供了证据。
