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SIRT1-MEDIATED CENTRAL ADAPTATION TO DIET RESTRICTION

$311,600R01FY2014AGNIH

Washington University, Saint Louis MO

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): How physiological responses to alterations in dietary intake affect the process of aging and longevity is a fundamental question to understand the systemic regulation of the complex connection between metabolism and aging. Diet restriction (DR), the single, most reliable regimen known to retard aging and extend lifespan in a variety of organisms, has provided a unique model to address this important question. This research proposal aims to understand molecular mechanisms underlying physiological adaptive responses to DR, particularly the central adaptive response, in mammals. We have been interested in the evolutionarily conserved SIR2 (silent information regulator 2) family of NAD-dependent deacetylases/ADP-ribosyltransferases, also called sirtuins, as a critical regulator that coordinates physiological responses to DR. Our new study has recently demonstrated a novel function of the mammalian SIR2 ortholog SIRT1 in the hypothalamus, particularly in the dorsomedial and lateral hypothalamic nuclei (DMH and LH, respectively), as a key mediator that controls the orexin type 2 receptor (OX2R)-mediated signaling in response to peripheral signals including ghrelin, an orexigenic hormone secreted from stomach, induced by DR. Therefore, in this proposal, we hypothesize that SIRT1 controls central adaptive responses to DR, including the augmentation of physical activity and the maintenance of body temperature, through the up-regulation of the Ox2r expression and the neural activation in the DHM and LH. To address this hypothesis, we will examine 1) how SIRT1 up-regulates the transcription of the Ox2r gene through a newly identified target homeodomain transcription factor in response to DR, 2) whether stereotactic injection of lentiviruses expressing shRNA against Sirt1 or the SIRT1 target transcription factor into the DMH and/or LH abrogates the central adaptive response to DR, 3) how SIRT1 activity is augmented by DR in the DMH and LH, and 4) whether SIRT1-mediated central adaptive response is also important for the control of longevity in mice. Because very little has been known about the central adaptive mechanism for DR, the proposed study will provide critical insights into the physiological mechanism that orchestrates responses to DR and may assure longevity in mammals.

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