Rosiglitazone Controls Fatty Acid Cycling in Human Adipose Tissue by Means of Glyceroneogenesis and Glycerol Phosphorylation

Stéphanie N Leroyer,Joan Tordjman,Geneviève Chauvet,Joëlle Quette,Charles Chapron,Claude Forest,Bénédicte Antoine

doi:10.1074/jbc.m512943200

Abstract

Control of fatty acid homeostasis is crucial to prevent insulin resistance. During fasting, the plasma fatty acid level depends on triglyceride lipolysis and fatty acid re-esterification within fat cells. In rodents, Rosiglitazone controls fatty acid homeostasis by stimulating two pathways in the adipocytes, glyceroneogenesis and glycerol phosphorylation, that provide the glycerol 3-phosphate necessary for fatty acid re-esterification. Here, we analyzed the functionality of both pathways for controlling fatty acid release in subcutaneous adipose tissue samples from lean and overweight women before and after Rosiglitazone ex vivo treatment. In controls, pyruvate, used as a substrate of glyceroneogenesis, could contribute to the re-esterification of up to 65% of the fatty acids released after basal lipolysis, whereas glycerol phosphorylation accounted for only 14 +/- 9%. However, the efficiency of glyceroneogenesis diminished as body mass index (BMI) of women increased. After Rosiglitazone treatment, increase of either pyruvate- or glycerol-dependent fatty acid re-esterification was strictly correlated to that of phosphoenolpyruvate carboxykinase and glycerol kinase, the key enzymes of each pathway, but depended on BMI of the women. Whereas the Rosiglitazone responsiveness of glyceroneogenesis was rather constant according to the BMI of the women, glycerol phosphorylation was mostly enhanced in lean women (BMI < 27). Overall, these data indicate that, whereas glyceroneogenesis is more utilized than glycerol phosphorylation for fatty acid re-esterification in human subcutaneous adipose tissue in the physiological situation, both are solicited in response to Rosiglitazone but with lower efficiency when BMI is increased.

Highlights

To clarify this peculiar mechanism, numerous studies have revealed that in addition to their effects on the secretion of some adipocytokines, TZD reduced plasma nonesterified fatty acid (FA) levels, preventing FA from opposing insulin action on skeletal muscle and other insulin target tissues
It seems that PEPCK-C and glycerol kinase (GyK) are not identically efficient in the subcutaneous adipose tissue (AT) (SCAT) of subjects according to their body mass index (BMI), PEPCK-C being more active in lean people and GyK in some overweight patients
In human SCAT, the FA re-esterification that occurs in physiological lipolytic situation involves both GNG and glycerol phosphorylation (GP) for glycerol 3-phosphate (G3P) synthesis but in different proportions

Summary

Introduction

To clarify this peculiar mechanism, numerous studies have revealed that in addition to their effects on the secretion of some adipocytokines (for a review, see Ref. 2), TZD reduced plasma nonesterified fatty acid (FA) levels, preventing FA from opposing insulin action on skeletal muscle and other insulin target tissues. The amount of FA that could be cleared from the culture medium in response to the addition of 2.5 mM pyruvate (figuring physiological concentration) in comparison with no added exogenous substrate (Fig. 2C) was found to range between 250 and 950 nmol/␮mol of lipolyzed TG (i.e. between 8 and 31%), with a significant inverse correlation with BMI (r2 ϭ 0.57), as found previously for PEPCK-C activity and for [14C1]pyruvate incorporation into TG.

Results

Conclusion