Effects ot genetic hypercholesterolemia on the glycemic homeostasis and insulin secretion in LDL recptor knockout mice ( LDLR POT. -/- ) / Efeito da hipercolesterolemia genetica sobre a homeostase glicemica e secreção de insulina em camundongos knockout para o recptor de LDL ( LDLR POT. -/- )

AUTOR(ES)

Maria Lucia Bonfleur

DATA DE PUBLICAÇÃO

2007

RESUMO

In this work, we investigated whether primary hyperlipidemia per se, independently of a high-fat diet, affects glycemia and insulin secretion stimulated by several secretagogues in hypercholesterolemic low-density lipoprotein receptor knockout mice (LDLR-/-). In addition, we investigated the possible mechanisms involved in the release of this hormone. We found that, besides higher total cholesterol and triglyceride plasma concentrations, glucose plasma levels were increased and insulin decreased in LDLR-/- compared to the wild type (WT) mice. LDLR-/- mice presented impaired glucose tolerance, but normal whole body insulin sensitivity. In addition, we also demonstrate that the main cause of the impaired glucose homeostasis is a reduced pancreatic islet insulin secretion ability following fuel secretagogue stimuli. LDLR-/- mice have impaired insulin secretion in response to glucose without alterations in the pancreatic total insulin and DNA contents. These findings support the idea that the decreased response to glucose cannot be explained by differences islet size or number of beta cells, but it is probably caused by a defect in the secretory process. Glucose oxidation was 30% lower and L-leucine oxidation 60% higher in LDLR-/- islets than in WT islets. At basal (2.8 mmol/l) and stimulatory (11.1 mmol/l) glucose concentrations, the insulin secretion rates induced by depolarizing agents such as KCl, L-arginine and tolbutamide were significantly reduced in LDLR-/- when compared with WT islets. Insulin secretion induced by the PKA activators, forskolin and IBMX, in the presence of 11.1 mmol/l glucose, was lower in LDLR-/- islets, and it was normalized in the presence of the PKC pathway activators, carbachol and PMA. Western blotting analysis showed that phospholipase C-b2 expression was increased and PKA-a decreased in LDLR-/- compared with WT islets. In conclusion, we demonstrate that genetic hypercholesterolemia, due to complete deficiency of LDLR, impairs the beta cell insulin secretion, leading to hyperglycemia without affecting body insulin sensitivity. The lower insulin secretion in LDLR-/- mice islets may be explained by reduced glucose metabolism and expression of PKA

ASSUNTO(S)

ldl receptors hipercolesterolemia hypercholesterolemia recptores ldl insulin insulina - secreção

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