Grape seed extract supplementation modulates hepatic lipid metabolism in rats. Implication of PPARß/δ.

In mammals, the liver is involved in nutrient metabolism and in the regulation of lipid and glucose homeostasis. Multiple studies have described improvements in liver disorders after regular consumption of grape seed extract (GSE). GSE prevents or ameliorates hepatic metabolic dysfunction through AMPK activation, which reduces hepatic lipogenesis while enhancing hepatic lipid oxidation. However, the involvement of ChREBPß and PPARß/δ in these effects has not been fully elucidated. We aim to demonstrate that chronic consumption of GSE at low doses (25 mg kg-1 body weight per day) produces beneficial effects on hepatic glucose and lipid metabolism in young lean Wistar rats and that part of these effects involve ChREBPß inactivation and PPARß/δ activation. In our study, increased concentrations of structurally related (-)-(epi)catechin metabolites and 5-carbon ring fission metabolites were found in the serum of GSE-supplemented rats parallel with the reduction in triglycerides and leptin levels, hepatic cholesterol content and visceral adiposity. GSE supplementation inactivates ChREBP and GSK-3ß, which has been linked to improvements in hepatic lipid and glucose metabolism. Furthermore, the consumption of GSE promotes the expression of Pparß/δ, as well as Pgc-1α and Acox-1, which control hepatic lipid oxidation. Interestingly, pharmacological inhibition of PPARß/δ slowed the induction of Pgc-1α and Acox-1, as well as the activation of AMPK triggered by GSE consumption. Our data suggest that PPARß/δ activation is involved in the metabolic reprogramming effects of chronic GSE consumption in young rats, by modulating, at least, part of the transcriptional programs that maintain hepatic and systemic fuel homeostasis.

Leptin, Acting at Central Level, Increases FGF21 Expression in White Adipose Tissue via PPARß/δ.

The altered function of adipose tissue can result in obesity, insulin resistance, and its metabolic complications. Leptin, acting on the central nervous system, modifies the composition and function of adipose tissue. To date, the molecular changes that occur in epididymal white adipose tissue (eWAT) during chronic leptin treatment are not fully understood. Herein we aimed to address whether PPARß/δ could mediate the metabolic actions induced by leptin in eWAT. To this end, male 3-month-old Wistar rats, infused intracerebroventricularly (icv) with leptin (0.2 µg/day) for 7 days, were daily co-treated intraperitoneally (ip) without or with the specific PPARß/δ receptor antagonist GSK0660 (1 mg/kg/day). In parallel, we also administered GSK0660 to control rats fed ad libitum without leptin infusion. Leptin, acting at central level, prevented the starvation-induced increase in circulating levels of FGF21, while induced markedly the endogenous expression of FGF21 and browning markers of eWAT. Interestingly, GSK0660 abolished the anorectic effects induced by icv leptin leading to increased visceral fat mass and reduced browning capacity. In addition, the pharmacological inhibition of PPARß/δ alters the immunomodulatory actions of central leptin on eWAT. In summary, our results demonstrate that PPARß/δ is involved in the up-regulation of FGF21 expression induced by leptin in visceral adipose tissue.