C. S. Nace scite author profile

C. S. Nace

3Publications

29Citation Statements Received

25Citation Statements Given

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Affiliations

Access to Nutrition Foundation, United States Department of Agriculture, Agricultural Research Service

Publications

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Demonstration of a Specific Metabolic Effect of Dietary Disaccharides in the Rat

Michaelis

Nace

Szepesi

1975

The Journal of Nutrition

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Male Wistar rats were starved and refed diets containing either 40% carbohydrate as monosaccharides (glucose, fructose, invert sugar) or disaccharides (maltose, sucrose), or 42.2% carbohydrate as glucose. Induction of various liver enzymes and changes in total liver lipid levels by the different dietary sugars were studied. Liver enzymes measured included glucose-6-phosphate dehydrogenase (g6pd), 6-phosphogluconate dehydrogenase (6PGD), malic enzyme (ME), phosphofructokinase (PFK), L-alpha-glycerol phosphate dehydrogenase (LalphaGPD), pyruvate kinase (PK), citrate cleavage enzyme (CCE), acetyl CoA carboxylase (AcCoAC), and fatty acid synthetase (FAS). The responses in enzyme activity to diets containing glucose or invert sugar were used as the basal response. Enzyme responses to refeeding the carbohydrate diets fell into three categories: (1) enzyme activity increased both by the disaccharide configuration of the carbohydrate and by fructose (G6PD, PK, CCE, AcCoAC, FAS); (2) enzyme activity increased only by the disaccharide configuration of the carbohydrate (6PGD, ME); and (3) enzyme activity increased only by fructose (PFK, LalphaGPD). Total liver lipid level was increased both by the disaccharide configuration of the carbohydrate and by fructose. Refeeding diets containing equal molar amounts of glucose or maltose did not abolish the disaccharide effect. The data indicate that the disaccharide configuration of maltose and sucrose may have an effect at the gastrointestinal level, which causes an increased induction of certain enzymes in the liver.

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Dietary Fatty Acids and the Control of Glucose-6-Phosphate Dehydrogenase and Malic Enzyme in the Starved-Refed Rat

Nace

Szepesi

1976

The Journal of Nutrition

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The role of dietary unsaturated fat in the control of hepatic glucose-6-phosphate dehydrogenase (G6PD) (EC 1.1.1.49) and malic enzyme (ME) (EC 1.1.1.40) was studied in rats subjected to one or two cycles of starvation-refeeding. Rats starved and refed a control (5% corn oil) diet showed a threefold increase in G6PD activity and a twofold increase in ME activity compared to ad libitum-fed rats. After a second cycle of starvation-refeeding G6PD and ME activities showed fourfold and threefold increases, respectively, as compared to ad libitum-fed rats. Feeding rats diets containing 8% linoleic acid (as triglycerides) prevented the increase in G6PD and ME activities upon starvation-refeeding, diets with oleic, palmitic, and stearic acis when fed did not prevent this increase. Feeding rats various combinations of linoleic, linolenic and oleic acids following starvation prevented the additional increase in G6PD and ME activities after a second starvation-refeeding cycle; however, linoleic acid fed alone during the first refeeding prevented the additional increase in ME activity but not in G6PD activity. It is suggested that the dietary control of these enzymes involves one or more specific polyunsaturated fatty acids.

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Preparation of monoclonal antibodies to xanthine oxidase and other proteins of bovine milk-fat-globule membrane

Mather¹,

Nace²,

Johnson³

et al. 1980

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C. S. Nace

Demonstration of a Specific Metabolic Effect of Dietary Disaccharides in the Rat

Dietary Fatty Acids and the Control of Glucose-6-Phosphate Dehydrogenase and Malic Enzyme in the Starved-Refed Rat

Preparation of monoclonal antibodies to xanthine oxidase and other proteins of bovine milk-fat-globule membrane

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