APA
Ramos Álvarez, I. & Moreno Villegas, Zaida & Martín Duce, A. & Sanz, R. & Aparicio, C. & Portal Núñez, S. & Manteyf, S.A. & Jensenf, R.T. & González, N. (2013-11 ) .Human BRS-3 receptor: Functions/role in cell signaling pathways and glucose metabolism in obese or diabetic myocytes.
ISO 690
Ramos Álvarez, I. & Moreno Villegas, Zaida & Martín Duce, A. & Sanz, R. & Aparicio, C. & Portal Núñez, S. & Manteyf, S.A. & Jensenf, R.T. & González, N.. 2013-11 .Human BRS-3 receptor: Functions/role in cell signaling pathways and glucose metabolism in obese or diabetic myocytes.
https://hdl.handle.net/20.500.12080/39594
Résumé:
Several studies showed thatthe orphan Bombesin Receptor Subtype-3 (BRS-3) ¿ member ofthe bombesin
receptor family ¿ has an important role in glucose homeostasis (v.g.: BRS-3-KO mice developed mild
obesity, and decreased levels of BRS-3 mRNA/protein have been described in muscle from obese (OB) and
type 2 diabetic (T2D) patients). In this work, to gain insight into BRS-3 receptor cell signaling pathways,
and its implication on glucose metabolism, primary cultured myocytes from normal subjects, OB or T2D
patients were tested using high affinity ligand ¿ [d-Tyr6, -Ala11,Phe13,Nle14]bombesin6¿14. In muscle cells
from all metabolic conditions, the compound significantly increased not only MAPKs, p90RSK1, PKB and
p70s6Kphosphorylation levels, but also PI3Kactivity; moreover, it produced a dose¿response stimulation
of glycogen synthase a activity and glycogen synthesis. Myocytes from OB and T2D patients were more
sensitive to the ligand than normal, and T2D cells even more than obese myocytes. These results widen
the knowledge of human BRS-3 cell signaling pathways induced by a BRS-3 agonist, described its insulin mimetic effects on glucose metabolism, showed the role of BRS-3 receptor in glucose homeostasis, and
also propose the employing of BRS-3/ligand system, as participant in the obese and diabetic therapies