Inhibition of mammalian S6 kinase by resveratrol suppresses autophagy

Sean M Armour,David A Sinclair,Abigail Land-Bracha,Joseph A Baur,Sheila M Thomas,Sherry N Hsieh

doi:10.18632/aging.100056

Sean M Armour, David A Sinclair + Show 4 more

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https://doi.org/10.18632/aging.100056

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Journal: Aging	Publication Date: Jun 3, 2009
Citations: 164	License type: cc-by

Affiliation: Harvard University, Beth Israel Deaconess Medical Center

Abstract

Resveratrol is a plant-derived polyphenol that promotes health and disease resistance in rodent models, and extends lifespan in lower organisms. A major challenge is to understand the biological processes and molecular pathways by which resveratrol induces these beneficial effects. Autophagy is a critical process by which cells turn over damaged components and maintain bioenergetic requirements. Disruption of the normal balance between pro- and anti-autophagic signals is linked to cancer, liver disease, and neurodegenerative disorders. Here we show that resveratrol attenuates autophagy in response to nutrient limitation or rapamycin in multiple cell lines through a pathway independent of a known target, SIRT1. In a large-scalein vitro kinase screen we identified p70 S6 kinase (S6K1) as a target of resveratrol. Blocking S6K1 activity by expression of a dominant-negative mutant or RNA interference is sufficient to disrupt autophagy to a similar extent as resveratrol. Furthermore, co-administration of resveratrol with S6K1 knockdown does not produce an additive effect. These data indicate that S6K1 is important for the full induction of autophagy in mammals and raise the possibility that some of the beneficial effects of resveratrol are due to modulation of S6K1 activity.

Highlights

Autophagy is an essential process by which eukaryotic cells turn over long-lived cytosolic components, clear damaged proteins and organelles, and maintain bioenergetic requirements during conditions of nutrient and growth factor withdrawal [1]
We show that this effect does not require SIRT1, and identify p70 S6 kinase (S6K1) as a target of resveratrol that is responsible for the inhibition of starvation-induced autophagy
Similar inhibitory effects on autophagy were observed in other cell lines, including human tumor cell lines (HeLa and U2OS), as well as mouse embryonic fibroblasts (MEFs) using monodansylcadaverine (MDC), a fluorescent compound that stains late autophagosomes (Supplementary Figures S1 and S3) [20]

Summary

Introduction

Autophagy is an essential process by which eukaryotic cells turn over long-lived cytosolic components, clear damaged proteins and organelles, and maintain bioenergetic requirements during conditions of nutrient and growth factor withdrawal [1]. No. phagy), hereafter referred to as autophagy [1,2,3] While this process is an important part of the normal balance between anabolic and catabolic processes and can prolong survival during nutrient limitation, autophagy is an alternate death pathway that facilitates type II programmed cell death [4,5,6]. For this reason, imbalances in this pathway can contribute to seemingly diverse pathologies. There is evidence that some of resveratrol’s actions are mediated by activation of the SIRT1 deacetylase, the mechanisms underlying the numerous beneficial effects of resveratrol remain to be elucidated

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