Acetylation of Yeast AMPK Controls Intrinsic Aging Independently of Caloric Restriction

Overview

Journal Cell

Publisher Cell Press

Specialty Cell Biology

Date 2011 Sep 13

PMID 21906795

Citations 93

Authors

Jin-Ying Lu

Yu-Yi Lin

Jin-Chuan Sheu

June-Tai Wu

Fang-Jen Lee

Yue Chen

Min-I Lin

Fu-Tien Chiang

Tong-Yuan Tai

Shelley L Berger

Yingming Zhao

Keh-Sung Tsai

Heng Zhu

Lee-Ming Chuang

Jef D Boeke

Affiliations

Soon will be listed here.

Abstract

Acetylation of histone and nonhistone proteins is an important posttranslational modification affecting many cellular processes. Here, we report that NuA4 acetylation of Sip2, a regulatory β subunit of the Snf1 complex (yeast AMP-activated protein kinase), decreases as cells age. Sip2 acetylation, controlled by antagonizing NuA4 acetyltransferase and Rpd3 deacetylase, enhances interaction with Snf1, the catalytic subunit of Snf1 complex. Sip2-Snf1 interaction inhibits Snf1 activity, thus decreasing phosphorylation of a downstream target, Sch9 (homolog of Akt/S6K), and ultimately leading to slower growth but extended replicative life span. Sip2 acetylation mimetics are more resistant to oxidative stress. We further demonstrate that the anti-aging effect of Sip2 acetylation is independent of extrinsic nutrient availability and TORC1 activity. We propose a protein acetylation-phosphorylation cascade that regulates Sch9 activity, controls intrinsic aging, and extends replicative life span in yeast.

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