R. L. Huston scite author profile

R. L. Huston

5Publications

91Citation Statements Received

26Citation Statements Given

How they've been cited

232

How they cite others

Affiliations

Letterman Army Medical Center, United States Army, Fitzsimons Army Medical Center

Publications

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Fatty Acid and Ketone Body Metabolism in the Rat: Response to Diet and Exercise

Askew

Dohm

Huston

1975

The Journal of Nutrition

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This study was designed to measure the response of key enzymes of ketone body metabolism in heart, skeletal muscle, and liver to diet and exercise, two conditions known to influence ketone body utilization. A 3 (diet: control, high fat, or high carbohydrate) X 2 (kill condition: rested or exhausted) X 2 (training: trained or untrained) factorial design was used to estimate main experimental effects as well as identify significant interactions of the variables. Physical training (treadmill running) was associated with a doubling of the activity of skeletal muscle 3-oxoacid CoA transferase, a key enzyme in extrahepatic ketone body utilization. The activity of the rate-limiting enzyme of liver ketone body production, hydroxymethylglutaryl CoA synthetase (HMG CoA synthetase), was not greatly influenced by training or exhuastive exercise indicating that the metabolic control of the ketosis of exercise may more likely be a function of the supply of fatty acids to the liver rather than the activity of HMG CoA synthetase. Feeding a high fat diet, on the other hand, significantly increased the activity of liver HMG CoA synthetase, indicating that the ketosis of fat feeding may be of a different nature than that of exercise. The results of this study indicate that physical training is associated with biochemical adaptations in ketone body metabolism as well as fatty acid oxidation, and that trained individuals are metabolically better endowed to benefit from the ketosis of exercise than untrained individuals.

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Adipose tissue cellularity and lipolysis. Response to exercise and cortisol treatment.

Askew¹,

Huston²,

Plopper³

et al. 1975

J. Clin. Invest.

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Effects of Exercise, Training, and Diet on Muscle Citric Acid Cycle Enzyme Activity

Dohm¹,

Huston²,

Askew³

et al. 1973

Can. J. Biochem.

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Effects of exercise, training, and diet on muscle citric acid cycle enzyme activity. Can. J. Biochem. 51, 849-854 (1973).The effects of training, exhaustive exercise, and diet on the activity of skeletal muscle citric acid cycle enzymes were studied. Training increased the activities of all cycle enzymes. Exhaustion of trained rats resulted in lowered activities of NAD-specific isocitrate dehydrogenase, succinate dehydrogenase, and cytochrome oxidase but citrate synthase and malate dehydrogenase were unaffected. The enzyme activities in untrained muscle were not changed by exhaustive exercise. High carbohydrate and high fat diets did not alter citric acid cycle activities in trained rested or untrained rested rats and did not moderate or accentuate the effects of exhaustive exercise. The results indicate that muscle citric acid cycle activity is increased by training and decreased by exhaustion of trained animals.

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Response of Rat Tissue Lipases to Physical Training and Exercise

Askew¹,

Dohm²,

Huston³

et al. 1972

Experimental Biology and Medicine

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Effects of training, exercise and diet on muscle glycolysis and liver gluconeogenesis

et al. 1975

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R. L. Huston

Fatty Acid and Ketone Body Metabolism in the Rat: Response to Diet and Exercise

Adipose tissue cellularity and lipolysis. Response to exercise and cortisol treatment.

Effects of Exercise, Training, and Diet on Muscle Citric Acid Cycle Enzyme Activity

Response of Rat Tissue Lipases to Physical Training and Exercise

Effects of training, exercise and diet on muscle glycolysis and liver gluconeogenesis

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