Abstract
The cholesterol biosynthetic pathway produces not only sterols but also non-sterol mevalonate metabolites involved in isoprenoid synthesis. Mevalonate metabolites affect transcriptional and post-transcriptional events that in turn affect various biological processes including energy metabolism. In the present study, we examine whether mevalonate metabolites activate PPARγ (peroxisome-proliferator-activated receptor γ), a ligand-dependent transcription factor playing a central role in adipocyte differentiation. In the luciferase reporter assay using both GAL4 chimaera and full-length PPARγ systems, a mevalonate metabolite, FPP (farnesyl pyrophosphate), which is the precursor of almost all isoprenoids and is positioned at branch points leading to the synthesis of other longer-chain isoprenoids, activated PPARγ in a dose-dependent manner. FPP induced the in vitro binding of a co-activator, SRC-1 (steroid receptor co-activator-1), to GST (glutathione transferase)–PPARγ. Direct binding of FPP to PPARγ was also indicated by docking simulation studies. Moreover, the addition of FPP up-regulated the mRNA expression levels of PPARγ target genes during adipocyte differentiation induction. In the presence of lovastatin, an HMG-CoA (3-hydroxy-3-methylglutaryl-CoA) reductase inhibitor, both intracellular FPP levels and PPARγ-target gene expressions were decreased. In contrast, the increase in intracellular FPP level after the addition of zaragozic acid, a squalene synthase inhibitor, induced PPARγ-target gene expression. The addition of FPP and zaragozic acid promotes lipid accumulation during adipocyte differentiation. These findings indicated that FPP might function as an endogenous PPARγ agonist and regulate gene expression in adipocytes.
Highlights
The pathophysiology of obesity and obesity-associated metabolic disorders including Type 2 diabetes mellitus, hypertension, hyperlipidaemia and cardiovascular disease is associated with abnormalities in endocrine signalling in white adipose tissue (WAT) [1,2]
We report that farnesyl pyrophosphate (FPP), which is a mevalonate metabolite and the precursor of almost all isoprenoids, can activate PPARγ as an agonist and regulate the expression levels of PPARγ target genes during adipocyte differentiation
In the present study, we assessed the effects of various mevalonate metabolites on PPARγ activity, which plays an important role in adipocyte differentiation
Summary
The pathophysiology of obesity and obesity-associated metabolic disorders including Type 2 diabetes mellitus, hypertension, hyperlipidaemia and cardiovascular disease is associated with abnormalities in endocrine signalling in WAT (white adipose tissue) [1,2]. The thiazolidinediones, insulin sensitizers, promote the differentiation of pre-adipocytes by PPARγ activation [4] to increase the number of small adipocytes and to decrease the number of large adipocytes by increasing apoptosis [6], resulting in the improvement of metabolic disorders, such as insulin resistance. We report that FPP (farnesyl pyrophosphate), which is a mevalonate metabolite and the precursor of almost all isoprenoids, can activate PPARγ as an agonist and regulate the expression levels of PPARγ target genes during adipocyte differentiation. These findings suggest that FPP may function as an endogenous PPARγ ligand and regulate adipocyte functions
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