Eran Gershon1, Wylie W Vale. 1. Clayton Foundation Laboratories for Peptide Biology, The Salk Institute for Biological Studies, North Torrey Pines Road, La Jolla, California, 10010, USA.
Abstract
OBJECTIVE: Ghrelin is known to regulate appetite control and cellular metabolism. The corticotropin-releasing factor (CRF) family is also known to regulate energy balance. In this study, the links between ghrelin and the CRF family in C2C12 cells, a mouse myoblast cell line was investigated. DESIGN AND METHODS: C2C12 cells were treated with ghrelin in the presence or absence of CRF receptor antagonists and then subjected to different metabolic analyses. RESULTS: Ghrelin enhanced glucose uptake by C2C12 cells, induced GLUT4 translocation to the cell surface and decreased RBP4 expression. A CRF-R2 selective antagonist, anti-sauvagine-30, blocked ghrelin-induced glucose uptake, Ghrelin upregulated CRF-R2 but not CRF-R1 levels. Moreover, ghrelin-treated C2C12 cells displayed a cAMP and pERK activation in response to Ucn3, a CRF-R2 specific ligand, but not in response to CRF or stressin, CRF-R1 specific ligands. Ghrelin also induced UCP2 and UCP3 expression, which were blocked by anti- sauvagine-30. Ghrelin did not induce fatty acids uptake by C2C12 cells or ACC expression. Even though C2C12 cells clearly exhibited responses to ghrelin, the known ghrelin receptor, GHSR1a, was not detectable in C2C12 cells. CONCLUSION: The results suggest that, ghrelin plays a role in regulating muscle glucose and, raise the possibility that suppression of the CRF-R2 pathway might provide benefits in high ghrelin states.
OBJECTIVE:Ghrelin is known to regulate appetite control and cellular metabolism. The corticotropin-releasing factor (CRF) family is also known to regulate energy balance. In this study, the links between ghrelin and the CRF family in C2C12 cells, a mouse myoblast cell line was investigated. DESIGN AND METHODS: C2C12 cells were treated with ghrelin in the presence or absence of CRF receptor antagonists and then subjected to different metabolic analyses. RESULTS:Ghrelin enhanced glucose uptake by C2C12 cells, induced GLUT4 translocation to the cell surface and decreased RBP4 expression. A CRF-R2 selective antagonist, anti-sauvagine-30, blocked ghrelin-induced glucose uptake, Ghrelin upregulated CRF-R2 but not CRF-R1 levels. Moreover, ghrelin-treated C2C12 cells displayed a cAMP and pERK activation in response to Ucn3, a CRF-R2 specific ligand, but not in response to CRF or stressin, CRF-R1 specific ligands. Ghrelin also induced UCP2 and UCP3 expression, which were blocked by anti- sauvagine-30. Ghrelin did not induce fatty acids uptake by C2C12 cells or ACC expression. Even though C2C12 cells clearly exhibited responses to ghrelin, the known ghrelin receptor, GHSR1a, was not detectable in C2C12 cells. CONCLUSION: The results suggest that, ghrelin plays a role in regulating muscle glucose and, raise the possibility that suppression of the CRF-R2 pathway might provide benefits in high ghrelin states.
Authors: Barbora Hucik; Andrew J Lovell; Evan M Hoecht; Daniel T Cervone; David M Mutch; David J Dyck Journal: Adipocyte Date: 2021-12 Impact factor: 4.534