Abstract
In humans, low-energy diets rapidly reduce hepatic fat and improve/normalise glycemic control. Due to difficulties in obtaining human liver, little is known about changes to the lipid species and pathway fluxes that occur under these conditions. Using a combination of stable isotope, and targeted metabolomic approaches we investigated the acute (7–9 days) hepatic effects of switching high-fat high-sucrose diet (HFD) fed obese mice back to a chow diet. Upon the switch, energy intake was reduced, resulting in reductions of fat mass and hepatic triacyl- and diacylglycerol. However, these parameters were still elevated compared to chow fed mice, thus representing an intermediate phenotype. Nonetheless, glucose intolerance and hyperinsulinemia were completely normalized. The diet reversal resulted in marked reductions in hepatic de novo lipogenesis when compared to the chow and HFD groups. Compared with HFD, glycerolipid synthesis was reduced in the reversal animals, however it remained elevated above that of chow controls, indicating that despite experiencing a net loss in lipid stores, the liver was still actively esterifying available fatty acids at rates higher than that in chow control mice. This effect likely promotes the re-esterification of excess free fatty acids released from the breakdown of adipose depots during the weight loss period.
Highlights
In humans, low-energy diets rapidly reduce hepatic fat and improve/normalise glycemic control
In light of these studies, we aimed to conduct a comprehensive analysis of lipid and glucose metabolism in mice that have undergone an acute switch from a HFD back to a standard chow diet in order to better define the relationship between hepatic lipid metabolism and glucose homeostasis
We show that a rapid reduction in voluntary energy intake, as a result of HFD mice being switched back to a chow diet, completely normalizes glucose intolerance, fasting hyperglycemia and hyperinsulinemia after only 7 days
Summary
Low-energy diets rapidly reduce hepatic fat and improve/normalise glycemic control. Our previous studies in mice[14] demonstrated that hepatic insulin resistance is the earliest metabolic manifestation of a high-fat high-sucrose diet (HFD), which was associated with ectopic lipid accumulation, but not hepatic or adipose tissue inflammation. In light of these studies, we aimed to conduct a comprehensive analysis of lipid and glucose metabolism in mice that have undergone an acute switch from a HFD back to a standard chow diet in order to better define the relationship between hepatic lipid metabolism and glucose homeostasis
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