The accessory protein MRAP2 directly interacts with melanocortin-3 receptor to enhance signaling.

Overview

abstract

The central melanocortin system links nutrition to energy expenditure. Melanocortin-4 receptor (MC4R) controls appetite and food intake, and its signaling is potentiated by melanocortin-2 receptor accessory protein 2 (MRAP2). Human mutations in MC4R and MRAP2 are associated with obesity. Here, we sought to determine whether MRAP2 affected the activity of MC3R, which is structurally similar to MC4R and which regulates sexual maturation, linear growth rate, and lean mass accumulation. Single-molecule pull-down assays showed that MC3R and MRAP2 interacted in HEK293 cells. Analysis of fluorescence photobleaching steps showed that MC3R and MRAP2 readily formed heterodimers, most commonly with a 1:1 stoichiometry. Mining of previously published human single-nucleus and spatial transcriptomic data showed coexpression of MRAP2 and MC3R in hypothalamic neurons that function in energy homeostasis and appetite control. In HEK293 cells, MRAP2 enhanced cAMP signaling downstream of MC3R, impaired β-arrestin recruitment to MC3R, and reduced MC3R internalization. The ability of MRAP2 to promote MC3R signaling was suppressed by alanine mutagenesis of five MRAP2 and two MC3R transmembrane residues identified by structural homology models as important for the interaction. We showed that variants of MRAP2 found in individuals who are overweight or obese did not enhance MC3R-driven signaling. Thus, these studies implicate MRAP2 as an important regulator of MC3R function and provide further evidence for the crucial role of MRAP2 in energy homeostasis.