Abstract
Choline and methionine may serve unique functions to alter hepatic energy metabolism. Our objective was to trace carbon flux through pathways of oxidation and glucose metabolism in bovine hepatocytes exposed to increasing concentrations of choline chloride (CC) and d,l-methionine (DLM). Primary hepatocytes were isolated from 4 Holstein calves and maintained for 24 h before treatment with CC (0, 10, 100, 1000 μmol/L) and DLM (0, 100, 300 μmol/L) in a factorial design. After 21 h, [1-14C]C16:0 or [2-14C]pyruvate was added to measure complete and incomplete oxidation, and cellular glycogen. Reactive oxygen species (ROS), cellular triglyceride (TG), and glucose and ß-hydroxybutyrate (BHB) export were quantified. Exported very-low density lipoprotein particles were isolated for untargeted lipidomics and to quantify TG. Interactions between CC and DLM, and contrasts for CC (0 vs. [10, 100, 1000 μmol/L] and linear and quadratic contrast 10, 100, 1000 μmol/L) and DLM (0 vs. [100, 300 μmol/L] and 100 vs. 300 μmol/L) were evaluated. Presence of CC increased complete oxidation of [1-14C]C16:0 and decreased BHB export. Glucose export was decreased, but cellular glycogen was increased by the presence of CC and increasing CC. Presence of CC decreased ROS and marginally decreased cellular TG. No interactions between CC and DLM were detected for these outcomes. These data suggest a hepato-protective role for CC to limit ROS and cellular TG accumulation, and to alter hepatic energy metabolism to support complete oxidation of FA and glycogen storage regardless of Met supply.
Highlights
Choline and methionine may serve unique functions to alter hepatic energy metabolism
very low-density lipoproteins (VLDL) particles were isolated from media to quantify TG and identify lipid species by untargeted lipidomics to determine if choline chloride (CC) or DLM altered the lipid composition of VLDL particles, including phosphatidylcholine (PtdChol) and phosphatidylethanolamine (PtdEth)
There was a marginal effect for the presence of CC to decrease (P = 0.06) cellular TG, while no evidence (P > 0.10) for treatment effects of DLM were observed
Summary
Choline and methionine may serve unique functions to alter hepatic energy metabolism. Our objective was to trace carbon flux through pathways of oxidation and glucose metabolism in bovine hepatocytes exposed to increasing concentrations of choline chloride (CC) and d,l-methionine (DLM). No interactions between CC and DLM were detected for these outcomes These data suggest a hepato-protective role for CC to limit ROS and cellular TG accumulation, and to alter hepatic energy metabolism to support complete oxidation of FA and glycogen storage regardless of Met supply. Given the intersection of choline and Met metabolism[10], our experiment was conducted as a factorial design to investigate the interaction between supply of choline and Met. The primary objective of this experiment was to investigate the effects of choline chloride (CC) and D,L-Met (DLM) on carbon flux of palmitate and pyruvate through pathways of oxidation and gluconeogenesis in primary bovine neonatal hepatocytes. VLDL particles were isolated from media to quantify TG and identify lipid species by untargeted lipidomics to determine if CC or DLM altered the lipid composition of VLDL particles, including phosphatidylcholine (PtdChol) and phosphatidylethanolamine (PtdEth)
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