282-OR: The Effect of Glucagon on Rates of Hepatic Mitochondrial Oxidation and Pyruvate Carboxylase Flux in Man Assessed by Positional Isotopomer NMR Tracer Analysis (PINTA)

Abstract

Dual GLP-1/glucagon agonists are now in clinical trials for the treatment of T2D and NASH. In addition to promoting further reduction in food intake on top of GLP-1, the glucagon component of these dual agonists may also promote increased rates of hepatic mitochondrial fat oxidation. In order to investigate this possibility we assessed the glucagon-specific effects of a dual agonist on rates of hepatic mitochondrial oxidation (VCS) and pyruvate carboxylase flux (VPC) in humans by infusing glucagon to achieve a physiological increase in plasma glucagon concentrations in combination with a novel 13C PINTA method to assess rates of hepatic VCS and VPC in 15 healthy volunteers using a paired study design. Following an overnight fast a 3-h IV infusion of [3-13C]lactate (4.3 μmol/Kg-min) and [1,2,3,4,5,6,6-2H7]glucose (0.22 μmol/Kg-min) was begun and during the last 2 hours glucagon (GLG) was co-infused [6 ng/(Kg-min)] or no GLG (CON). The GLG infusion resulted in a ~2.4 fold increase in plasma GLG conc. (from 75±11 to 183±20 pg/mL; P<0.0001), which was associated with an ~20% increase in both plasma C-peptide (from 1.89±0.17 to 2.30±0.26 ng/mL; P=0.02) and plasma insulin conc. (from 9.9±2.0 to 12.0±2.4 μU/mL; P=0.06). Plasma glucose conc. increased from 4.90±0.16 to 5.64±0.19 mmol/L (P=0.0001) which was associated with a tendency for increased rates of glucose production (CON:1042±123 vs. GLG:1148±122 μmol/min; p=0.086) despite no change in rates of VPC flux (CON: 403±69 vs. GLG: 373±55 μmol/min; p=NS). In contrast, this physiological increase in plasma GLG concentrations caused an 85% increase in rates of hepatic VCS (P<0.05). Conclusion: Taken together these studies demonstrate that a physiological increase in plasma glucagon promotes increased rates of hepatic mitochondrial oxidation in humans, which may provide additional benefits to the anorexic effects of dual GLP-1/glucagon agonists to reduce hepatic steatosis. Disclosure K. Petersen: Advisory Panel; Spouse/Partner; AstraZeneca, iMetabolic Biopharma Corporation, Janssen Research & Development, LLC, Merck & Co., Inc., Consultant; Spouse/Partner; Aegerion Pharmaceuticals Inc., Novo Nordisk, Research Support; Self; Gilead Sciences, Inc., Merck & Co., Inc. G. I. Shulman: Consultant; Self; 89bio, Inc., BridgeBio, Ionis Pharmaceuticals, Maze Therapeutics, Novo Nordisk, Other Relationship; Self; AstraZeneca, Esperion Therapeutics, Inc, Generian Pharmaceuticals, Inc., Gilead Sciences, Inc., iMetabolic Biopharma Corporation, Janssen Research & Development, LLC, Merck & Co., Inc., The Liver Company. Funding Merck & Co., Inc. (MISP583402); National Institutes of Health (R01DK113984)