PLoS ONE (Jan 2012)

Altered glucose homeostasis and hepatic function in obese mice deficient for both kinin receptor genes.

  • Carlos C Barros,
  • Anderson Haro,
  • Fernanda J V P Russo,
  • Ines Schadock,
  • Sandro S Almeida,
  • Rosane A Ribeiro,
  • Emerielle C Vanzela,
  • Valeria P Lanzoni,
  • Flavio C Barros,
  • Milton R Moraes,
  • Marcelo A Mori,
  • Reury F P Bacurau,
  • Martin Wurtele,
  • Antônio C Boschero,
  • Everardo M Carneiro,
  • Michael Bader,
  • Joao B Pesquero,
  • Ronaldo C Araujo

DOI
https://doi.org/10.1371/journal.pone.0040573
Journal volume & issue
Vol. 7, no. 7
p. e40573

Abstract

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The Kallikrein-Kinin System (KKS) has been implicated in several aspects of metabolism, including the regulation of glucose homeostasis and adiposity. Kinins and des-Arg-kinins are the major effectors of this system and promote their effects by binding to two different receptors, the kinin B2 and B1 receptors, respectively. To understand the influence of the KKS on the pathophysiology of obesity and type 2 diabetes (T2DM), we generated an animal model deficient for both kinin receptor genes and leptin (obB1B2KO). Six-month-old obB1B2KO mice showed increased blood glucose levels. Isolated islets of the transgenic animals were more responsive to glucose stimulation releasing greater amounts of insulin, mainly in 3-month-old mice, which was corroborated by elevated serum C-peptide concentrations. Furthermore, they presented hepatomegaly, pronounced steatosis, and increased levels of circulating transaminases. This mouse also demonstrated exacerbated gluconeogenesis during the pyruvate challenge test. The hepatic abnormalities were accompanied by changes in the gene expression of factors linked to glucose and lipid metabolisms in the liver. Thus, we conclude that kinin receptors are important for modulation of insulin secretion and for the preservation of normal glucose levels and hepatic functions in obese mice, suggesting a protective role of the KKS regarding complications associated with obesity and T2DM.