Bezafibrate Reduces Elevated Hepatic Fumarate in Insulin-Deficient Mice.

Andras Franko,Jürgen-Christoph Von Kleist-Retzow,Rudolf Wiesner,Martin Irmler,Martin Hrabě De Angelis,Hans-Ulrich Häring,Martin Heni,Philippe Schmitt-Kopplin,Johannes Beckers,Andreas L Birkenfeld,Silke S Heinzmann,Jerzy Adamski,Cornelia Prehn

doi:10.3390/biomedicines10030616

Abstract

Glucotoxic metabolites and pathways play a crucial role in diabetic complications, and new treatment options which improve glucotoxicity are highly warranted. In this study, we analyzed bezafibrate (BEZ) treated, streptozotocin (STZ) injected mice, which showed an improved glucose metabolism compared to untreated STZ animals. In order to identify key molecules and pathways which participate in the beneficial effects of BEZ, we studied plasma, skeletal muscle, white adipose tissue (WAT) and liver samples using non-targeted metabolomics (NMR spectroscopy), targeted metabolomics (mass spectrometry), microarrays and mitochondrial enzyme activity measurements, with a particular focus on the liver. The analysis of muscle and WAT demonstrated that STZ treatment elevated inflammatory pathways and reduced insulin signaling and lipid pathways, whereas BEZ decreased inflammatory pathways and increased insulin signaling and lipid pathways, which can partly explain the beneficial effects of BEZ on glucose metabolism. Furthermore, lysophosphatidylcholine levels were lower in the liver and skeletal muscle of STZ mice, which were reverted in BEZ-treated animals. BEZ also improved circulating and hepatic glucose levels as well as lipid profiles. In the liver, BEZ treatment reduced elevated fumarate levels in STZ mice, which was probably due to a decreased expression of urea cycle genes. Since fumarate has been shown to participate in glucotoxic pathways, our data suggests that BEZ treatment attenuates the urea cycle in the liver, decreases fumarate levels and, in turn, ameliorates glucotoxicity and reduces insulin resistance in STZ mice.

Highlights

IntroductionWe investigated the beneficial effect of bezafibrate (BEZ) in a rodent model of diabetes [1]
In a previous study, we investigated the beneficial effect of bezafibrate (BEZ) in a rodent model of diabetes [1]
We have previously found that BEZ treatment markedly attenuated hyperglycemia, decreased plasma lipids, and improved glucose and insulin tolerance tests in STZ-injected diabetic mice (Table 1 and [1])

Summary

Introduction

We investigated the beneficial effect of bezafibrate (BEZ) in a rodent model of diabetes [1]. Half of the animals were treated with a BEZ-containing diet or received a standard diet (SD) By using these four different mouse groups, we analyzed (i) the effect of the insulin-deficient diabetic state by comparing the diabetic STZ, SD mice with the Con, SD animals and (ii) the effect of BEZ comparing STZ, BEZ mice with STZ, SD animals. This previous study showed that BEZ treatment markedly attenuated hyperglycemia, decreased plasma lipids as well as improved glucose and insulin tolerance; the underlying molecular mechanisms were not completely understood [1]

Methods

Results

Discussion

Conclusion