Loss of Function of the Melanocortin 2 Receptor Accessory Protein 2 Is Associated with Mammalian Obesity

Masato Asai; Shwetha Ramachandrappa; Maria Joachim; Yuan Li Shen; Rong Zhang; Nikhil Nuthalapati; Visali Ramanathan; David E. Strochlic; P.R. Ferket; Kirsten Linhart; Caroline B. Ho; T. V. Novoselova; Sumedha Garg; Martin Ridderstråle; Claude Marcus; Joel N. Hirschhorn; Julia M. Keogh; Stephen O’Rahilly; Li F. Chan; Adrian Clark; I. Sadaf Farooqi; Joseph A. Majzoub

doi:10.1126/science.1233000

Loss of Function of the Melanocortin 2 Receptor Accessory Protein 2 Is Associated with Mammalian Obesity

Masato Asai(Boston Children's Hospital), Shwetha Ramachandrappa(National Institute for Health and Care Research), Maria Joachim(Boston Children's Hospital), Yuan Li Shen(Boston Children's Hospital), Rong Zhang(Boston Children's Hospital), Nikhil Nuthalapati(Boston Children's Hospital), Visali Ramanathan(Boston Children's Hospital), David E. Strochlic(Boston Children's Hospital), P.R. Ferket(North Carolina State University), Kirsten Linhart(Boston Children's Hospital), Caroline B. Ho(Boston Children's Hospital), T. V. Novoselova(Queen Mary University of London), Sumedha Garg(National Institute for Health and Care Research), Martin Ridderstråle(Steno Diabetes Centers), Claude Marcus(Karolinska Institutet), Joel N. Hirschhorn(Broad Institute), Julia M. Keogh(National Institute for Health and Care Research), Stephen O’Rahilly(National Institute for Health and Care Research), Li F. Chan(Queen Mary University of London), Adrian Clark(Queen Mary University of London), I. Sadaf Farooqi(National Institute for Health and Care Research), Joseph A. Majzoub(Boston Children's Hospital)

Science

July 18, 2013

10.1126/science.1233000

Cited by 305Open Access

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Abstract

Melanocortin receptor accessory proteins (MRAPs) modulate signaling of melanocortin receptors in vitro. To investigate the physiological role of brain-expressed melanocortin 2 receptor accessory protein 2 (MRAP2), we characterized mice with whole-body and brain-specific targeted deletion of Mrap2, both of which develop severe obesity at a young age. Mrap2 interacts directly with melanocortin 4 receptor (Mc4r), a protein previously implicated in mammalian obesity, and it enhances Mc4r-mediated generation of the second messenger cyclic adenosine monophosphate, suggesting that alterations in Mc4r signaling may be one mechanism underlying the association between Mrap2 disruption and obesity. In a study of humans with severe, early-onset obesity, we found four rare, potentially pathogenic genetic variants in MRAP2, suggesting that the gene may also contribute to body weight regulation in humans.

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