Publication

FoxO1 Mediates an Autofeedback Loop Regulating SIRT1 Expression*

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Last modified
  • 02/20/2025
Type of Material
Authors
    ShiQin Xiong, Emory UniversityGloria Salazar, Emory UniversityNikolay Patrushev, Emory UniversityR Wayne Alexander, Emory University
Language
  • English
Date
  • 2011-02-18
Publisher
  • American Society for Biochemistry and Molecular Biology
Publication Version
Copyright Statement
  • © 2011 by The American Society for Biochemistry and Molecular Biology, Inc.
Final Published Version (URL)
Title of Journal or Parent Work
Volume
  • 286
Issue
  • 7
Start Page
  • 5289
End Page
  • 5299
Grant/Funding Information
  • This work was supported, in whole or in part, by National Institutes of Health Grants UO1 HL80711 and HL60728.
Supplemental Material (URL)
Abstract
  • Forkhead transcription factor FoxO1 and the NAD+-dependent histone deacetylase SIRT1 are evolutionarily conserved regulators of the development of aging, oxidative stress resistance, insulin resistance, and metabolism in species ranging from invertebrates to mammals. SIRT1 deacetylates FoxO1 and enables activation of FoxO1 transcription in multiple systems. The functional consequences of the interactions between FoxO1 and SIRT1 remain incompletely understood. Here, we demonstrate that the 1.5-kb rat sirt1 promoter region contains a cluster of five putative FoxO1 core binding repeat motifs (5×IRS-1) and a forkhead-like consensus binding site (FKHD-L). Luciferase promoter assays demonstrate that FoxO1 directly activates SIRT1 promoter activity and that both the IRS-1 and FKHD-L enable FoxO1-dependent SIRT1 transcription. Electrophoretic mobility shift and chromatin immunoprecipitation assays show that FoxO1 binds to the IRS-1 and FKHD-L sites of the SIRT1 promoter. Consistently, FoxO1 overexpression increases SIRT1 expression, and FoxO1 depletion by siRNA reduces SIRT1 expression at both the messenger RNA and protein levels in vascular smooth muscle cells and HEK293 cells. Thus, endogenous FoxO1 is a positive transcriptional regulator of SIRT1. Conversely, SIRT1 promotes FoxO1-driven SIRT1 autotranscription through interacting with and deacetylating FoxO1. Moreover, resveratrol, a plant polyphenol activator of SIRT1, increases FoxO1-dependent SIRT1 transcription activity and thus induces its expression. These findings suggest that positive feedback mechanisms regulate FoxO1-dependent SIRT1 transcription and indicate a previously unappreciated function for FoxO1. This signaling network may coordinate multiple pathways acting upon immune, inflammatory, regenerative, and metabolic processes.
Author Notes
  • To whom correspondence should be addressed: Division of Cardiology, Emory University Hospital, Suite H-153, 1364 Clifton Rd. NE, Atlanta, GA 30322. Tel.: 404-727-1749; Fax: 404-727-3099; E-mail: ralexan@emory.edu.
Keywords
Research Categories
  • Health Sciences, Medicine and Surgery
  • Chemistry, Biochemistry

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