Mice with MCH ablation resist diet-induced obesity through strain-specific mechanisms

doi:10.1152/ajpregu.00861.2004

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Mice with MCH ablation resist diet-induced obesity through strain-specific mechanisms

Efi Kokkotou,¹^,3^,4^,* Justin Y. Jeon,¹^,2^,4^,* Xiaomei Wang,¹ Francis E. Marino,¹^,2 Michael Carlson,¹ Daniel J. Trombly,¹ and Eleftheria Maratos-Flier¹^,2^,4

¹Joslin Diabetes Center, Boston, Massachussetts; ²Division of Endocrinology, ³Division of Gastroenterology, ⁴Department of Medicine, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston Massachusetts

Submitted 23 December 2004 ; accepted in final form 17 February 2005

Genetics and environment contribute to the development of obesity,in both humans and rodents. However, the potential interactionbetween genes important in energy balance, strain background,and dietary environment has been only minimally explored. Weinvestigated the effects of genetic ablation of melanin-concentratinghormone (MCH), a neuropeptide with a key role in energy balance,with chow and a high-fat diet (HFD) in two different mouse strains,one obesity-prone (C57BL/6) and the other obesity-resistant(129). Substantial differences were seen in wild-type (WT) animalsof different strains. 129 animals had significantly lower levelsof spontaneous locomotor activity than C57BL/6; however, 129mice gained less weight on both chow and HFD. In both strains,deletion of MCH led to attenuated weight gain compared withWT counterparts, an effect secondary to increased energy expenditure.In both strains, feeding a HFD led to further increases in energyexpenditure in both WT and MCH-KO mice; however, this increasewas more pronounced in 129 mice. In addition, mice lacking MCHhave a phenotype of increased locomotor activity, an effectalso seen in both strains. The relative increase in activityin MCH^–/– mice is modest in animals fed chow butincreases substantially when animals are placed on HFD. Thesestudies reinforce the important role of MCH in energy homeostasisand indicate that MCH is a plausible target for antiobesitytherapy.

melanin-concentrating hormone; obesity; hypothalamus; diet-induced obesity; 129; C57Bl/6; strains; locomotor activity; energy expenditure

Address for reprint requests and other correspondence: E. Maratos-Flier, Div. of Endocrinology, Dept. of Medicine, Beth Israel Deaconess Medical Center, 330 Brookline Ave., Boston, MA 02215 (E-mail: emaratos{at}bidmc.harvard.edu)

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