Longevity-relevant Regulation of Autophagy at the Level of the Acetylproteome

Overview

Journal Autophagy

Specialty Cell Biology

Date 2011 Apr 5

PMID 21460620

Citations 16

Authors

Guillermo Marino

Eugenia Morselli

Martin V Bennetzen

Tobias Eisenberg

Evgenia Megalou

Sabrina Schroeder

Sandra Cabrera

Paule Benit

Pierre Rustin

Alfredo Criollo

Oliver Kepp

Lorenzo Galluzzi

Shensi Shen

Shoaib A Malik

Maria Chiara Maiuri

Yoshiyuki Horio

Carlos Lopez-Otin

Jens S Andersen

Nektarios Tavernarakis

Frank Madeo

Guido Kroemer

Affiliations

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Abstract

The acetylase inhibitor, spermidine and the deacetylase activator, resveratrol, both induce autophagy and prolong life span of the model organism Caenorhabditis elegans in an autophagydependent fashion. Based on these premises, we investigated the differences and similarities in spermidine and resveratrol-induced autophagy. The deacetylase sirtuin 1 (SIRT1) and its orthologs are required for the autophagy induction by resveratrol but dispensable for autophagy stimulation by spermidine in human cells, Saccharomyces cerevisiae and C. elegans. SIRT1 is also dispensable for life-span extension by spermidine. Mass spectrometry analysis of the human acetylproteome revealed that resveratrol and/or spermidine induce changes in the acetylation of 560 peptides corresponding to 375 different proteins. Among these, 170 proteins are part of the recently elucidated human autophagy protein network. Importantly, spermidine and resveratrol frequently affect the acetylation pattern in a similar fashion. In the cytoplasm, spermidine and resveratrol induce convergent protein de-acetylation more frequently than convergent acetylation, while in the nucleus, acetylation is dominantly triggered by both agents. We surmise that subtle and concerted alterations in the acetylproteome regulate autophagy at multiple levels.

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