Simultaneous deletion of ghrelin and its receptor increases motor activity and energy expenditure

Simultaneous deletion of ghrelin and its receptor increases motor activity and energy expenditure

Administration of chemically synthesized ghrelin (Ghr) peptide has been shown to increase food intake and body adiposity in most species. However, the biological role of endogenous Ghr in the molecular control of energy metabolism is far less understood. Mice deficient for either Ghr or its receptor...

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Bibliographic Details
Published in:American journal of physiology: Gastrointestinal and liver physiology Vol. 294; no. 3; p. G610
Main Authors: Pfluger, Paul T, Kirchner, Henriette, Günnel, Susanne, Schrott, Brigitte, Perez-Tilve, Diego, Fu, Sheng, Benoit, Stephen C, Horvath, Tamas, Joost, Hans-Georg, Wortley, Katherine E, Sleeman, Mark W, Tschöp, Matthias H
Format: Journal Article
Language:English
Published: United States 01-03-2008
Subjects:
Alleles
Animals
Anthropometry
Blood Glucose - metabolism
Body Composition - genetics
Body Composition - physiology
Body Temperature - physiology
Body Weight - genetics
Body Weight - physiology
Eating - genetics
Eating - physiology
Energy Metabolism - physiology
Gene Deletion
Genotype
Ghrelin - deficiency
Ghrelin - genetics
Glucose Tolerance Test
Insulin Resistance - genetics
Ligands
Lipids - blood
Mice
Mice, Knockout
Motor Activity - physiology
Receptors, Ghrelin - deficiency
Receptors, Ghrelin - genetics
Reverse Transcriptase Polymerase Chain Reaction
RNA, Messenger - biosynthesis
RNA, Messenger - genetics
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Description
Summary:Administration of chemically synthesized ghrelin (Ghr) peptide has been shown to increase food intake and body adiposity in most species. However, the biological role of endogenous Ghr in the molecular control of energy metabolism is far less understood. Mice deficient for either Ghr or its receptor (the growth hormone secretagogue receptor, GHS-R1a) seem to exhibit enhanced protection against high-fat diet-induced obesity but do not show a substantial metabolic phenotype on a standard diet. Here we present the first mouse mutant lacking both Ghr and the Ghr receptor. We demonstrate that simultaneous genetic disruption of both genes of the Ghr system leads to an enhanced energy metabolism phenotype. Ghr/Ghr receptor double knockout (dKO) mice exhibit decreased body weight, increased energy expenditure, and increased motor activity on a standard diet without exposure to a high caloric environment. Mice on the same genetic background lacking either the Ghr or the Ghr receptor gene did not exhibit such a phenotype on standard chow, thereby confirming earlier reports. No differences in food intake, meal pattern, or lean mass were observed between dKO, Ghr-deficient, Ghr receptor-deficient, and wild-type (WT) control mice. Only dKO showed a slight decrease in body length. In summary, simultaneous deletion of Ghr and its receptor enhances the metabolic phenotype of single gene-deficient mice compared with WT mice, possibly suggesting the existence of additional, as of yet unknown, molecular components of the endogenous Ghr system.
ISSN:0193-1857
DOI:10.1152/ajpgi.00321.2007