Effects of intraduodenal infusion of the branched-chain amino acid leucine on ad libitum eating, gut motor and hormone functions, and glycemia in healthy men

Branched-chain amino acids (BCAAs), particularly leucine, act as nutrient signals regulating protein synthesis and degradation as well as glucose metabolism. In addition, leucine has been demonstrated in animal experiments to modulate eating and energy homeostasis. We aimed to characterize the effec...

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Published in:The American journal of clinical nutrition 2015-10, Vol.102 (4), p.820-827
Main Authors: Steinert, Robert E, Landrock, Maria F, Ullrich, Sina S, Standfield, Scott, Otto, Bärbel, Horowitz, Michael, Feinle-Bisset, Christine
Format: Article
Language:English
Subjects:
Adolescent
Adult
Amino acids
Appetite - drug effects
Blood Glucose - metabolism
Body Mass Index
Cholecystokinin - blood
Dose-Response Relationship, Drug
Double-Blind Method
Duodenum - drug effects
Duodenum - metabolism
Eating - drug effects
Energy Intake
Gastrointestinal Hormones - blood
Gastrointestinal Motility - drug effects
Ghrelin - blood
Glucagon - blood
Glucagon-Like Peptide 1 - blood
Glucose
Hormones
Humans
Insulin - blood
Leucine - administration & dosage
Leucine - blood
Male
Peptide YY - blood
Peptides
Young Adult
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Summary:Branched-chain amino acids (BCAAs), particularly leucine, act as nutrient signals regulating protein synthesis and degradation as well as glucose metabolism. In addition, leucine has been demonstrated in animal experiments to modulate eating and energy homeostasis. We aimed to characterize the effects of physiologic and supraphysiologic loads of intraduodenal leucine on eating, gut hormone and motor functions, and blood glucose in humans. Twelve lean men were studied on 3 occasions in a randomized, double-blind order. Antropyloroduodenal motility, plasma ghrelin, cholecystokinin, glucagon-like peptide 1, peptide YY, insulin, glucagon, blood glucose, appetite perceptions, and gastrointestinal symptoms were measured during 90-min intraduodenal infusions of leucine at 0.15 kcal/min (total 3.3 g, 13.5 kcal), 0.45 kcal/min (total 9.9 g, 40.5 kcal), or saline (control). Ad libitum eating from a buffet lunch was quantified immediately after the infusions. Leucine at 0.45 kcal/min inhibited eating (energy intake by ∼13%, P < 0.05), increased plasma cholecystokinin, slightly reduced blood glucose and increased plasma insulin, and decreased antral pressures (all P < 0.05). Leucine at 0.15 kcal/min had no effect on food intake, blood glucose, or antral pressures but also slightly increased plasma cholecystokinin (P < 0.05). Neither dose affected plasma ghrelin, glucagon, glucagon-like peptide 1 and peptide YY, or pyloric and duodenal pressures. Plasma leucine concentrations were related to the dose of intraduodenal leucine, with substantial increases during both 0.15 and 0.45 kcal/min. The effects of intraduodenal infusions of free leucine on eating are probably not primarily mediated by changes in gut motor and hormone functions, with perhaps the exception of cholecystokinin. Instead, increased plasma leucine concentrations may be a potential signal mediating the eating-inhibitory effect of leucine. The study was registered as a clinical trial with the Australia and New Zealand Clinical Trial Registry (www.anzctr.org.au) as ACTRN12613000899741.
ISSN:0002-9165
1938-3207
DOI:10.3945/ajcn.115.114488