Fatty acid-independent inhibition of hepatic ketone body production by insulin in humans.

To investigate whether elevated plasma insulin or glucagon concentrations are capable of modifying hepatic ketogenesis independently of plasma free fatty acid (FFA) concentrations, ketone body production was determined by [3-14C]acetoacetate infusions in overnight-fasted normal subjects during exogenous supply of FFA (Intralipid and heparin infusion). When plasma FFA concentrations were elevated from 0.73 +/- 0.07 to 1.53 +/- 0.16 mmol/l during low insulin concentrations (approximately equal to 13 microU/ml) in group A (n = 7), total ketone body production increased from 3.6 +/- 0.6 to 8.2 +/- 1.0 mumol.kg-1.min-1 (P less than 0.001). When plasma FFA were similarly elevated during raised plasma insulin concentrations (approximately equal to 110 microU/ml) in group B (n = 5), total ketone body production was only 3.8 +/- 0.8 mumol.kg-1.min-1 (P less than 0.01 vs. group A). Low plasma FFA and low insulin concentrations resulted in total ketone body production of 0.70 +/- 0.18 mumol.kg-1.min-1 in group C (n = 7; P less than 0.01 vs. groups A and B). Elevation of plasma glucagon during Intralipid infusion in group D (n = 7) failed to affect ketogenesis, but the beta-hydroxybutyrate-to-acetoacetate concentration ratio decreased significantly (P less than 0.01). The data indicate that elevation of plasma insulin to high physiological concentrations restrains FFA-induced ketogenesis.

[1]  A. Halestrap Glucagon treatment of rats activates the respiratory chain of liver mitochondria at more than one site. , 1987, Biochimica et biophysica acta.

[2]  S. Bessman,et al.  Intracellular site of insulin action: mitochondrial Krebs cycle. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[3]  A. Avogaro,et al.  Effects of insulin treatment on ketone body production and carnitine-palmitoyl-transferase (CPT) activity in the isolated perfused liver from streptozotocin diabetic rats. , 1985, Hormone and metabolic research = Hormon- und Stoffwechselforschung = Hormones et metabolisme.

[4]  P. Mayes,et al.  Investigations into the direct effects of insulin on hepatic ketogenesis, lipoprotein secretion and pyruvate dehydrogenase activity. , 1984, Biochimica et biophysica acta.

[5]  P. Mialhe,et al.  Effect of insulin on free fatty acid uptake by hepatocytes in the duck. , 1984, The Journal of endocrinology.

[6]  U. Keller,et al.  Effect of Epinephrine and Somatostatin-induced Insulin Deficiency on Ketone Body Kinetics and Lipolysis in Man , 1984, Diabetes.

[7]  P. Ozand,et al.  The effects of insulin and glucagon on ketone-body turnover. , 1984, The Biochemical journal.

[8]  R. DeFronzo,et al.  Effect of fatty acids on glucose production and utilization in man. , 1983, The Journal of clinical investigation.

[9]  J. G. Pace,et al.  Glucose-dependent insulin inhibition of ketone body formation from long-chain fatty acids in the perfused livers of fasted rats. , 1983, Metabolism: clinical and experimental.

[10]  C. Long,et al.  Observations on the affinity for carnitine, and malonyl-CoA sensitivity, of carnitine palmitoyltransferase I in animal and human tissues. Demonstration of the presence of malonyl-CoA in non-hepatic tissues of the rat. , 1983, The Biochemical journal.

[11]  M. Haymond,et al.  Effects of free fatty acid availability, glucagon excess, and insulin deficiency on ketone body production in postabsorptive man. , 1983, The Journal of clinical investigation.

[12]  C. Long,et al.  A comparison of the effects of skeletal trauma and surgery on the ketosis of starvation in man. , 1981, The Journal of trauma.

[13]  J. McGarry,et al.  In vitro reversal of the fasting state of liver metabolism in the rat. Reevaluation of the roles of insulin and glucose. , 1981, The Journal of clinical investigation.

[14]  K. Alberti,et al.  The antiketogenic effect of alanine in normal man: evidence for an alanine-ketone body cycle. , 1981, Metabolism: clinical and experimental.

[15]  P. Felig,et al.  Turnover and splanchnic metabolism of free fatty acids in hyperthyroid patients. , 1981, The Journal of clinical investigation.

[16]  P. Jahrling,et al.  A probable endocrine basis for the depression of ketone bodies during infectious or inflammatory state in rats. , 1980, Endocrinology.

[17]  J. McGarry,et al.  Regulation of hepatic fatty acid oxidation and ketone body production. , 1980, Annual review of biochemistry.

[18]  L. Witters,et al.  Regulation of hepatic acetyl coenzyme A carboxylase by insulin and glucagon. , 1979, The Journal of biological chemistry.

[19]  R. Chalmers,et al.  Evidence for an hepatic anti-ketogenic effect of insulin in man. , 1978, Clinical science and molecular medicine.

[20]  R. Veech,et al.  Ketogenesis and malonyl coenzyme A content of isolated rat hepatocytes. , 1978, The Journal of biological chemistry.

[21]  D. Topping,et al.  Acute effects of insulin on glycerol phosphate acyl transferase activity, ketogenesis and serum free fatty acid concentration in perfused rat liver , 1977, FEBS letters.

[22]  M. Heimberg,et al.  Effects of anti-insulin serum, insulin, and glucose on output of triglycerides and on ketogenesis by the perfused rat liver. , 1976, The Journal of biological chemistry.

[23]  J. McGarry,et al.  Hormonal control of ketogenesis. Rapid activation of hepatic ketogenic capacity in fed rats by anti-insulin serum and glucagon. , 1975, The Journal of clinical investigation.

[24]  W. Blackard,et al.  Portal and Peripheral Vein Immunoreactive Glucagon Concentrations After Arginine or Glucose Infusions , 1974, Diabetes.

[25]  M. Bates Effects of hydroxybutyrate infusion and insulin injection on ketone body turnover of rats. , 1972, The American journal of physiology.

[26]  D. Topping,et al.  The immediate effects of insulin and fructose on the metabolism of the perfused liver. Changes in lipoprotein secretion, fatty acid oxidation and esterification, lipogenesis and carbohydrate metabolism. , 1972, The Biochemical journal.

[27]  R. Havel,et al.  Evidence for an effect of inulin on the peripheral utilization of ketone bodies in dogs. , 1971, The Journal of clinical investigation.

[28]  R. Scow,et al.  Effect of insulin and acute diabetes on plasma FFA and ketone bodies in the fasting rat. , 1970, The Journal of clinical investigation.

[29]  H. Krebs,et al.  The redox state of free nicotinamide-adenine dinucleotide in the cytoplasm and mitochondria of rat liver. , 1967, The Biochemical journal.

[30]  E. Newsholme,et al.  Regulation of glucose uptake by muscle. 9. Effects of fatty acids and ketone bodies, and of alloxan-diabetes and starvation, on pyruvate metabolism and on lactate-pyruvate and L-glycerol 3-phosphate-dihydroxyacetone phosphate concentration ratios in rat heart and rat diaphragm muscles. , 1964, The Biochemical journal.

[31]  R. H. Williams,et al.  Effect of fasting, epinephrine and glucose and insulin on hepatic uptake of nonesterified fatty acids. , 1960, The American journal of physiology.