Abstract

Melanin-concentrating hormone (MCH) is a hypothalamic neuropeptide that plays a key role in food intake. It acts through two G protein-coupled receptors (GPCRs), MCH1R and MCH2R, of which MCH1R is the primary regulator of food intake. We have previously reported that N-linked glycosylation of the extracellular domain of MCH1R is necessary for cell surface expression and signal transduction. We now report a role for the rat MCH1R C-terminal region. We constructed serial C-terminal truncation mutants and determined the resulting changes in protein expression, cell surface expression, ligand binding, and MCH-stimulated calcium influx. By analyzing two mutants, deltaT317 (deletion of 36 C-terminal amino acids) and deltaR321 (deletion of 32 C-terminal amino acids), we found that the region between Phe(318) and Arg(321)) was responsible for signal transduction. A more detailed analysis was performed with single or multiple residue mutations. Single mutations of Arg(319), Lys(320), or Arg(321) exhibited a decrease in the cell surface expression, whereas mutations of either Arg(319) or Lys(320), but not Arg(321), showed a significant reduction in the calcium influx. Furthermore, simultaneous mutations of Arg(319) and Lys(320) produced a pronounced decrease in the efficacy of calcium influx stimulation compared with single mutations. A computational analysis revealed a dibasic amino acid motif that is conserved among many class 1 GPCRs and may be part of the amphiphilic cytoplasmic helix 8 (an eight-cytoplasmic helix). Our results therefore provide new insights into the role of the putative helix 8 in the regulation of GPCR function.