Ronald G. Wolfe scite author profile

A total of 35 pigs were obtained by cesarean section, placed in individual sterile isolators, and randomly allotted to treatment groups. Thirty pigs received purified, isoenergetic liquid diets containing 2 or 32% butterfat (dry matter basis) and were killed at 1, 7, or 21 days of age. Five pigs were killed at 2 hours post delivery and received no diet. Twenty-one-day old pigs showed a tendency for higher weight gain and feed consumption when consuming the 32% fat diet although the differences were not significant. The rate of oxidation of [U-14C]palmitate to CO2 and acid soluble products was measured in homogenates of liver, kidney, heart, and leg muscle (biceps femoris) from pigs 0, 1, 7, and 21 days of age. The relative rates of oxidation of [U-14C]myristate, [U-14C]palmitate, and [U-14C]stearate were measured in homogenates of liver from 7-day old pigs. Palmitate oxidation was stimulated by carnitine in all four tissues and the rate of carnitine-stimulated palmitate oxidation to acid soluble products in heart and to CO2 in liver was higher in tissues from pigs consuming the 32% fat diet. The rate of palmitate oxidation increased with age in liver, kidney and leg muscle tissues and was maximum at 21 days in kidney and leg muscle and at 7 days in liver. The rate of palmitate oxidation in heart tended to decrease with animal age. In homogenates of liver from 7-day old pigs, palmitate was oxidized at a faster rate than stearate or myristate. The activities of carnitine palmitoyltransferase (CPT) (EC 2.3.1a) and succinate dehydrogenase (EC 1.3.99.1) in mitochondria isolated from liver, kidney, heart, and leg muscle did not vary considerably with age although CPT activity tended to be higher in those tissues from pigs consuming the high fat diet. Changes in the rate of palmitate oxidation with age tended to parallel changes in the level of mitochondrial protein per g of wet tissue and suggested an increased ability to utilize fat as an energy substrate during early development of the neonatal pig.

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Regulation of glucose-6-P dehydrogenase activity in primary rat hepatocyte cultures

Winberry

Nakayama

Wolfe

et al. 1980

Biochemical and Biophysical Research Communications

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Effect of Dietary Fat Level on Growth and Lipogenesis in the Colostrum Deprived Neonatal Pig

Wolfe

Maxwell

Nelson

et al. 1977

The Journal of Nutrition

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Thirty male neonatal pigs were obtained by cesarean section and randomly allotted from littermate groups to three diets containing 2%, 17%, and 32% fat on a dry matter basis. Butterfat was used to replace glucose in the isoenergetic liquid, semipurified diets. Each pig was placed in a sterile isolator and fed ad libitum five times daily. After 14 days, pigs were weighed, killed, and samples of liver and backfat were obtained. The carcass of each pig was ground and samples obtained for determination of total body fat and protein. An increase in the level of dietary fat resulted in a significant increase in 14 day weight gain and a tendency for improved feed efficiency. These results demonstrate not only that the neonatal pig can utilize semipurified liquid diets high in butterfat content, but also that energy from butterfat appears to be used as efficiently as energy from glucose from growth purposes. Increasing dietary fat level decreased the activity of fatty acid synthetase and citrate cleavage enzyme in adipose tissue and liver, and decreased the activity of malic enzyme in adipose tissue. The specific activities of these three enzymes were higher in adipose tissue than in liver.

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The Effect of Dietary Fat or Cholesterol and Cholic Acid on the Rate of Synthesis of Rat Liver Glucose-6-P Dehydrogenase

Wolfe

Holten

1978

The Journal of Nutrition

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The effect of dietary fat or cholesterol and cholic acid on the rate of synthesis of rat liver glucose-6-P dehydrogenase was measured by isolating hepatocytes from the livers of rats fed diets containing various amounts and types of lipid. Hepatocyte proteins were labeled with [3H]leucine and glucose-6-P dehydrogenase was immunoprecipitated with a specific antiserum. The immunoprecipitates were electrophoresed on sodium dodecyl sulfate-polyacrylamide gels and the radioactivity in the glucose-6-P dehydrogenase subunit was used to calculate the relative rate of synthesis of the enzyme. It is concluded that the activity of glucose-6-P dehydrogenase is primarily regulated by alterations in the rate at which the enzyme is synthesized. Dietary fat may decrease the rate of degradation of glucose-6-P dehydrogenase.

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Regulation of glucose-6-P dehydrogenase synthesis in rat epididymal fat pads

Wolfe

Nakayama

Holten

1979

Biochemical and Biophysical Research Communications

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Ronald G. Wolfe

Effect of Age and Dietary Fat Level on Fatty Acid Oxidation in the Neonatal Pig

Regulation of glucose-6-P dehydrogenase activity in primary rat hepatocyte cultures

Effect of Dietary Fat Level on Growth and Lipogenesis in the Colostrum Deprived Neonatal Pig

The Effect of Dietary Fat or Cholesterol and Cholic Acid on the Rate of Synthesis of Rat Liver Glucose-6-P Dehydrogenase

Regulation of glucose-6-P dehydrogenase synthesis in rat epididymal fat pads

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