Postprandial modulation of dietary and whole-body nitrogen utilization by carbohydrates in humans

Sucrose exerts a sparing effect on whole-body protein metabolism, mainly during the absorptive phase. We aimed to characterize the acute postprandial effect of addition of sucrose on deamination of dietary and endogenous nitrogen, with particular consideration being given to the effects of bioavaila...

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Published in:The American journal of clinical nutrition 2000-10, Vol.72 (4), p.954-962
Main Authors: MARIOTTI, Francois, MAHE, Sylvain, LUENGO, Catherine, BENAMOUZIG, Robert, TOME, Daniel
Format: Article
Language:English
Subjects:
Adult
Amino Acids - blood
Amino Acids - metabolism
Amino Acids - urine
Ammonia - blood
Ammonia - urine
Biological and medical sciences
Blood Glucose - analysis
Carbohydrates
Carbon Dioxide - analysis
Coloring Agents - analysis
Creatinine - blood
Deamination
Diet
Dietary Proteins - metabolism
Dietary Sucrose - metabolism
Feeding. Feeding behavior
Female
Fundamental and applied biological sciences. Psychology
Gastrointestinal Contents - chemistry
Humans
Ileum - physiology
Insulin - analysis
Male
Nitrogen
Nitrogen - analysis
Nitrogen - metabolism
Nutrition
Phenolsulfonphthalein - analysis
Polyethylene Glycols - analysis
Postprandial Period
Solvents - analysis
Soybean Proteins - metabolism
Sugar
Urea - blood
Urea - urine
Vertebrates: anatomy and physiology, studies on body, several organs or systems
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Summary:Sucrose exerts a sparing effect on whole-body protein metabolism, mainly during the absorptive phase. We aimed to characterize the acute postprandial effect of addition of sucrose on deamination of dietary and endogenous nitrogen, with particular consideration being given to the effects of bioavailability. Twenty-one subjects equipped with ileal tubes ingested (15)N-labeled soy protein combined with [(13)C]glycine, with (n = 10) or without (n = 11) sucrose. Dietary and endogenous ileal flow of nitrogen were determined from the ileal effluents. The kinetics of dietary amino acid transfer to the blood were characterized by (13)CO(2) enrichment in breath and (15)N enrichment in plasma amino acids. Deamination of dietary and endogenous amino acid was determined from body urea, urinary nitrogen, and (15)N enrichment. (13)CO(2) recovery in breath and (15)N plasma amino acid enrichments were highly correlated (R:(2) >/= 0.95, P: < 0.001, for both meals) and markedly delayed by sucrose (half-(13)CO(2) recovery: 274 min compared with 167 min), whereas exogenous and endogenous ileal nitrogen kinetics and balances remained unchanged. Addition of sucrose halved the early (0-2 h) deamination peak of dietary nitrogen and reduced endogenous nitrogen oxidation over the first 4 h. Both were reduced by 18-24% over the 8-h period after the meal. Without changing the nitrogen absorptive balance, sucrose markedly affected the bioavailability profile, which is governed by gastric emptying. Endogenous and dietary nitrogen were not spared in the same way and over the same periods, showing that the metabolism of endogenous and dietary nitrogen may be affected differently by nutritional modulation, even if the effects are of a similar magnitude over the entire postprandial period.
ISSN:0002-9165
1938-3207
DOI:10.1093/ajcn/72.4.954