SIRT1 Negatively Regulates the Mammalian Target of Rapamycin

Hiyaa Singhee Ghosh,Paul D Robbins,Michael Mcburney,Mikhail V Blagosklonny

doi:10.1371/journal.pone.0009199

Hiyaa Singhee Ghosh, Paul D Robbins + Show 2 more

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https://doi.org/10.1371/journal.pone.0009199

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Journal: PloS one	Publication Date: Feb 15, 2010
Citations: 371	License type: CC BY 4.0

Affiliation: University of Pittsburgh, University of Ottawa

Abstract

The IGF/mTOR pathway, which is modulated by nutrients, growth factors, energy status and cellular stress regulates aging in various organisms. SIRT1 is a NAD+ dependent deacetylase that is known to regulate caloric restriction mediated longevity in model organisms, and has also been linked to the insulin/IGF signaling pathway. Here we investigated the potential regulation of mTOR signaling by SIRT1 in response to nutrients and cellular stress. We demonstrate that SIRT1 deficiency results in elevated mTOR signaling, which is not abolished by stress conditions. The SIRT1 activator resveratrol reduces, whereas SIRT1 inhibitor nicotinamide enhances mTOR activity in a SIRT1 dependent manner. Furthermore, we demonstrate that SIRT1 interacts with TSC2, a component of the mTOR inhibitory-complex upstream to mTORC1, and regulates mTOR signaling in a TSC2 dependent manner. These results demonstrate that SIRT1 negatively regulates mTOR signaling potentially through the TSC1/2 complex.

Highlights

The NAD+ dependent deacetylase, SIRT1 (Sir2) has been shown to regulate a wide variety of cellular processes including aging and lifespan extension [1,2,3,4]
We investigated the activity of mammalian target of rapamycin (mTOR) pathway in SIRT1 deficient mouse embryonic fibroblasts (MEFs) by analyzing the phosphorylation of mTOR and its substrates S6 Kinase 1 (S6K1) and 4EBP1
Since mTOR pathway is responsive to nutrient and cellular stress and is downregulated in response to stress signals, we examined if stress induced by amino acid starvation inhibited the upregulated mTOR signaling in SIRT1 deficient cells

Summary

Introduction

The NAD+ dependent deacetylase, SIRT1 (Sir2) has been shown to regulate a wide variety of cellular processes including aging and lifespan extension [1,2,3,4]. SIRT1 orthologs are linked to the insulin/IGF signaling pathway in C. elegans, drosophila and mice through its ability to deacetylate the FOXO proteins [7,8,9]. The role of SIRT1 in CR induced longevity remains controversial because in yeast, the cyclic-AMP-dependent kinase (PKA) signaling pathway has been implicated in CR induced longevity, independent of Sir2 [11]. Severe CR has been shown to involve the ‘‘target of rapamycin’’ (TOR) pathway for lifespan extension in yeast [12,13]

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