Abstract
Our previous studies of insulin action have led us to the finding that insulin acts specifically on the mitochondrial Krebs cycle to stimulate, by 30%, the oxidation of carbons 2 and 3 of pyruvate to CO2. Insulin also stimulates the oxidation of both carbons of acetate. These carbons can be converted to CO2 only after passing through all of the reactions of the Krebs cycle more than once. Carboxyl groups, such as number 1 of pyruvate, are oxidized to CO2 without any effect of insulin, and can be converted to CO2 by extramitochondrial enzyme. We conclude that insulin must act on the complete intramitochondrial cycle and not on the four enzymes of the Krebs cycle which are present in the cytoplasm. The path taken by those carbons affected by insulin is traced through the complete Krebs cycle, and the necessity for this effect to be mitochondrial has been verified by demonstration of the same specific effect of insulin on the oxidation of the 2 and 3 carbons of succinate. The use of this phenomenon is proposed for the study not only of human diabetes, but of all mitochondrial disorders, by using 14C specifically labeled tracers in culture or biopsy material, or 13C labeled tracer material in vivo. (Mol Cell Biochem 174: 91–96, 1997)
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References
Lowenstein J: The tricarboxylic acid cycle, Chapt. 4. In: DH Greenberg (ed). Metabolic Pathways. Academic Press, New York, 1964, pp 146– 270
Osborn MJ, Chaikoff IL, Felts JM: Insulin and the fate of pyruvate in the diabetic liver. J Biol Chem 193: 549–555, 1981
Felts JM, Chaikoff IL, Osborn MJ: Insulin and the fate of acetate and formate in the diabetic liver. J Biol Chem 193: 557–562, 1951
Bessman SP, Mohan C, Zaidise I: Intracellular site of insulin action: mitochondrial Krebs cycle. Proc Nat Acad Sci USA 83: 5067–5070, 1986
Mohan C, Bessman SP: Anabolic regulation of gluconeogenesis by insulin in isolated rat hepatocytes. Arch Biochem Biophys 242: 563– 573, 1985
Mohan C, Bessman SP: Insulin 'inhibition' of gluconeogenesis by stimulation of protein synthesis. Biochem Med 26: 403–426, 1981
Mohan C, Bessman SP: Effect of insulin on the metabolic distribution of carbons 1, 2, and 3 of pyruvate. Arch Biochem Biophys 248: 190– 199, 1986
Bessman SP, Geiger PJ: Compartmentation of hexokinase and creatine phosphokinase, cellular regulation and insulin action. In: BL Horecker, ER Stadtman (eds). Current Topics in Cellular Regulation, 16. Academic Press Inc, New York, 1980, pp 55–86
Bessman SP, Mohan C: Insights into the mitochondrial Krebs cycle gained from the study of insulin action. In preparation
Memon RA, Bessman SP, Mohan C: Impaired mitochondrial metabolism and reduced amphibolic Krebs cycle activity in diabetic rat hepatocytes. Biochem Mol Biol Int 37: 1079–1089, 1995
Wieland OH, Urumow T, Drexler P: Insulin, phospholipase, and the activation of the pyruvate dehydrogenase complex: an enigma. Ann NY Acad Sci 573: 274–284, 1989
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Bessman, S.P., Mohan, C. Insulin as a probe of mitochondrial metabolism in situ. Mol Cell Biochem 174, 91–96 (1997). https://doi.org/10.1023/A:1006834408181
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DOI: https://doi.org/10.1023/A:1006834408181