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Neural regulation of protein ingestion

$274,875R01FY2014DKNIH

Lsu Pennington Biomedical Research Ctr, Baton Rouge LA

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Abstract

DESCRIPTION (provided by applicant): A number of observations support the existence of regulatory systems which assess endogenous protein/amino acid demand and alter food intake to meet this demand. Settings of negative protein balance lead to significant increases in food intake, resulting in excess energy intake and increased body adiposity as the animal attempts to meet the demand for protein. Thus regulatory systems governing protein intake are sufficient to override systems governing energy intake. Yet little is known about the mechanisms contributing to the regulation of protein intake or their relationship to energy balance and obesity. The long term goal of this project is to define the neuronal systems regulating food intake in response to varied protein balance. Results of recent studies indicate that amino acids, and specifically the branched-chain amino acid leucine, act locally in the hypothalamus to inhibit food intake and the expression of the orexigenic neuropeptides Npy and Agrp. At least two signaling pathways appear to mediate this response. One involves the intracellular signaling molecules mTOR (mammalian target of rapamycin) and AMP-activated protein kinase (AMPK); the second involves the local brain metabolism of leucine. The current project will 1) Test the hypothesis that reduced amino acid signaling within specific areas of the hypothalamus contributes to the hyperphagia induced by negative protein balance, and 2) Test the hypothesis that mTOR signaling, AMPK signaling, and/or branched-chain amino acid metabolism mediate the effect of amino acids on food intake and neuropeptide gene expression. Completion of these studies will dramatically increase our understanding of macronutrient composition and its impact on food intake and could lay the foundation for new interventions to control or reverse obesity.

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