APA
Moreno Villegas, Zaida & Martín Duce, Antonio & Aparicio, César & Portal Núñez, Sergio & Sanz, Raúl & Mantey, Samuel A. & Jensen, Robert T. & Lorenzo, Oscar & Egido, Jesús & Gonzalez, Nieves (2018-01 ) .Activation of bombesin receptor Subtype-3 by [D-Tyr6 ,b Ala11,Phe13,Nle14]bombesin6-14 increased glucose uptake and lipogenesis in human and rat adipocytes.
ISO 690
Moreno Villegas, Zaida & Martín Duce, Antonio & Aparicio, César & Portal Núñez, Sergio & Sanz, Raúl & Mantey, Samuel A. & Jensen, Robert T. & Lorenzo, Oscar & Egido, Jesús & Gonzalez, Nieves. 2018-01 .Activation of bombesin receptor Subtype-3 by [D-Tyr6 ,b Ala11,Phe13,Nle14]bombesin6-14 increased glucose uptake and lipogenesis in human and rat adipocytes.
https://hdl.handle.net/20.500.12080/39596
Abstract:
obese and/or diabetic patients, and BRS-3 KO-mice developed obesity. In this work, focused on rat/hu man adipose tissue, BRS-3 gene-expression was lower than normal-levels in hyperlipidemic, type-2-
diabetic (T2D), and type-1-diabetic rats and also in obese (OB) and T2D patients. Moreover, BRS-3
protein levels were decreased in diabetic rat and in obese and diabetic human fat pieces; but neither
mutation nor even polymorphism in the BRS-3-gene was found in OB or T2D patients. Interestingly, in rat
and human adipocytes, without metabolic alterations, [D-Tyr6
,b-Ala11,Phe13,Nle14]bombesin6-14 dBRS-3-
agonistd, as insulin, enhanced BRS-3 gene/protein expression, increased, PKB, p70s6K, MAPKs and
p90RSK1 phosphorylation-levels, and induced a concentration-related stimulation of glucose transport,
GLUT-4 membrane translocation and lipogenesis, exclusively mediated by BRS-3, and abolished by
wortmannin, PD98059 or rapamacyn. These results confirm that BRS-3 and/or its agonist are a potential
therapeutic tool for obesity/diabetes.