Lactate Inhibits Lipolysis in Fat Cells Through Activation of an Orphan G-protein-coupled Receptor, GPR81

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2008 Dec 3

PMID 19047060

Citations 234

Authors

Changlu Liu

Jiejun Wu

Jessica Zhu

Chester Kuei

Jingxue Yu

Jonathan Shelton

Steven W Sutton

Xiaorong Li

Su Jin Yun

Taraneh Mirzadegan

Curt Mazur

Fredrik Kamme

Timothy W Lovenberg

Affiliations

Soon will be listed here.

Abstract

Lactic acid is a well known metabolic by-product of intense exercise, particularly under anaerobic conditions. Lactate is also a key source of energy and an important metabolic substrate, and it has also been hypothesized to be a signaling molecule directing metabolic activity. Here we show that GPR81, an orphan G-protein-coupled receptor highly expressed in fat, is in fact a sensor for lactate. Lactate activates GPR81 in its physiological concentration range of 1-20 mM and suppresses lipolysis in mouse, rat, and human adipocytes as well as in differentiated 3T3-L1 cells. Adipocytes from GPR81-deficient mice lack an antilipolytic response to lactate but are responsive to other antilipolytic agents. Lactate specifically induces internalization of GPR81 after receptor activation. Site-directed mutagenesis of GPR81 coupled with homology modeling demonstrates that classically conserved key residues in the transmembrane binding domains are responsible for interacting with lactate. Our results indicate that lactate suppresses lipolysis in adipose tissue through a direct activation of GPR81. GPR81 may thus be an attractive target for the treatment of dyslipidemia and other metabolic disorders.

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