The Control of Gluconeogenesis: the Work of John Exton

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The Control of Gluconeogenesis: the Work of John Exton

Nicole Kresge, Robert D. Simoni, and Robert L. Hill

Control of Gluconeogenesis in Liver. I. General Features ofGluconeogenesis in the Perfused Livers of Rats
(Exton, J. H.,and Park, C. R. (1967) J. Biol. Chem. 242, 2622–2636)

Control of Gluconeogenesis in Liver. II. Effects of Glucagon,Catecholamines, and Adenosine 3',5'-Monophosphate on Gluconeogenesisin the Perfused Rat Liver
(Exton, J. H., and Park, C. R. (1968)J. Biol. Chem. 243, 4189–4196)

John H. Exton was born in Auckland, New Zealand in 1933. Hereceived his medical degree from the University of New Zealandin 1958 and his Ph.D. in biochemistry from the University ofOtago, New Zealand in 1963. Exton then left New Zealand forNashville, Tennessee to do postdoctoral research in the Departmentof Physiology at the Vanderbilt University School of Medicinewith Charles R. Park and Journal of Biological Chemistry (JBC)Classic author Earl Sutherland (1).

Along with Park, who will be featured in an upcoming JBC Classic,Exton worked on elucidating the pathways of gluconeogenesis,the formation of glucose from non-sugar carbon substrates likepyruvate, lactate, glycerol, and certain amino acids. Gluconeogenesisoccurs principally in the liver and is essential for survivalin starvation; it also plays a major role in the disposal oflactate and maintenance of glucose during exercise. The processis controlled directly or indirectly by many hormones, includinginsulin, glucagon, catecholamines, and glucocorticoids. Extonand Park published a series of papers in the JBC on the controlof gluconeogenesis using the isolated, perfused rat liver. Thisallowed them to study the process and its regulation withoutthe interference of other changes in the body. Two of thosepapers are reprinted here as JBC Classics.

The first paper studied the basic process of gluconeogenesis(i.e. the conversion of lactate, pyruvate, glycerol, alanine,and a mixture of amino acids to glucose) and demonstrated thatphysiological increases in these substrates alone led to increasedglucose production by the liver, indicating the importance ofsubstrate supply in the regulation of gluconeogenesis. Comparisonof the rates of gluconeogenesis from lactate, pyruvate, fructose,and dihydroxy-acetone suggested that the rate-limiting stepfor lactate gluconeogenesis was located between pyruvate andtriose phosphate in the gluconeogenic pathway. Measurementsof the conversion of [¹⁴C]pyruvate to glucose and CO₂ were usedin a mathematical analysis to determine the flow of isotopefrom this substrate into the gluconeogenic pathway and the Krebscycle.

In the second paper, the stimulatory effects of glucagon andcatecholamines on lactate gluconeogenesis were analyzed. Physiologicalconcentrations of glucagon were effective in stimulating gluconeogenesis.However, blood levels of epinephrine were not, leading to theproposal that the stimulatory effects of the sympathetic nervoussystem were due to the release of norepinephrine from adrenergicnerve endings in the liver. Exogenous cyclic AMP stimulatedgluconeogenesis, consistent with this being the mediator ofthe effect of glucagon. Studies of gluconeogenesis from fructoseindicated that glucagon/cyclic AMP stimulated the pathway somewherebetween pyruvate and phosphoenolpyruvate in the gluconeogenicpathway.

In 1966, Exton became an Assistant Professor of Physiology atVanderbilt and was promoted to Associate Professor in 1968.Later, in 1970, he became Professor of Molecular Physiologyand Biophysics and in 1989 he became a Professor of Pharmacology.Exton remains at Vanderbilt where he studies signal transduction.

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John Exton

Exton has received many honors for his research including theLilly Award from the American Diabetes Association, a DoctorHonoris Causa from the Autonomous University of Barcelona, theDrummond Award from the University of Calgary, and the SutherlandAward, Vanderbilt's highest research award. He is also a UniversityNational Scholar, New Zealand, and a Commonwealth Scholar, UnitedKingdom, as well as a fellow of the American Association forthe Advancement of Science and a member of the National Academyof Science. He was named an investigator of the Howard HughesMedical Institute in 1976 and has served as an Associate Editorfor the Journal of Biological Chemistry since 1988.

REFERENCES

JBC Classics: Rall, T. W., and Sutherland, E. W. (1958) J. Biol. Chem. 232, 1065–1076; Sutherland, E. W., and Rall, T. W. (1958) J. Biol. Chem. 232, 1077–1092 (http://www.jbc.org/cgi/content/full/280/42/e39)

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