TY - JOUR
T1 - Comparative effects of intraduodenal whey protein hydrolysate on antropyloroduodenal motility, gut hormones, glycemia, appetite, and energy intake in lean and obese men
AU - Hutchison, Amy
AU - Feinle-Bisset, Christine
AU - Fitzgerald, Penelope C.E.
AU - Standfield, Scott
AU - Horowitz, Michael
AU - Clifton, Peter M.
AU - Luscombe-Marsh, Natalie D.
N1 - Publisher Copyright:
© 2015 American Society for Nutrition.
PY - 2015/12/1
Y1 - 2015/12/1
N2 - Background: In lean individuals, intraduodenal protein and lipid modulate gastrointestinal motor and hormone functions and reduce energy intake in a load-dependent manner; protein also stimulates insulin, with modest effects on reducing blood glucose. The effect of intraduodenal lipid on gastrointestinal motor and hormone responses is diminished in obesity; whether the effects of protein are also attenuated remains unclear. Objectives: The objectives of this study were to characterize the load-dependent effects of intraduodenal whey protein hydrolysate on antropyloroduodenal pressures, gut hormones, glycemia, appetite, and energy intake in obese subjects and to compare the responses to the higher protein load with those in lean subjects. Design: We measured antropyloroduodenal pressures, plasma cholecystokinin (CCK), glucagon-like peptide 1 (GLP-1), glucosedependent insulinotropic polypeptide (GIP), glucagon, insulin, blood glucose, appetite, and energy intake in 12 nondiabetic obese men on 3 separate occasions, in a double-blind, randomized order, during 60-min intraduodenal infusions of hydrolyzed whey protein at either 0 (saline control), 1.5, or 3 kcal/min. Twelve age-matched lean individuals received a 3-kcal/min infusion only. Immediately after the infusions, energy intake from a buffet lunch was quantified. Results: In obese subjects, protein suppressed antral and duodenal pressures; stimulated plasma CCK, GLP-1, GIP, insulin, and glucagon (all r . 0.57, P , 0.01); and tended to reduce energy intake (r = 20.38, P = 0.057) in a dose-dependent manner. In response to the 3-kcal/min protein load, antropyloroduodenal pressures, CCK, GLP-1, and glucagon did not differ between lean and obese subjects. Insulin release was greater, and GIP release less, in obese than in lean subjects (both P , 0.05), whereas the reduction in glucose was comparable. Energy intake tended to be higher in obese subjects (P = 0.08). Conclusions: The gastrointestinal effects of hydrolyzed whey protein remain relatively intact in obesity; however, the observed changes in insulin and GIP suggest early disturbances in the insulin-incretin axis. This study was registered at www.anzctr. org.au as ACTRN 12612000203853.
AB - Background: In lean individuals, intraduodenal protein and lipid modulate gastrointestinal motor and hormone functions and reduce energy intake in a load-dependent manner; protein also stimulates insulin, with modest effects on reducing blood glucose. The effect of intraduodenal lipid on gastrointestinal motor and hormone responses is diminished in obesity; whether the effects of protein are also attenuated remains unclear. Objectives: The objectives of this study were to characterize the load-dependent effects of intraduodenal whey protein hydrolysate on antropyloroduodenal pressures, gut hormones, glycemia, appetite, and energy intake in obese subjects and to compare the responses to the higher protein load with those in lean subjects. Design: We measured antropyloroduodenal pressures, plasma cholecystokinin (CCK), glucagon-like peptide 1 (GLP-1), glucosedependent insulinotropic polypeptide (GIP), glucagon, insulin, blood glucose, appetite, and energy intake in 12 nondiabetic obese men on 3 separate occasions, in a double-blind, randomized order, during 60-min intraduodenal infusions of hydrolyzed whey protein at either 0 (saline control), 1.5, or 3 kcal/min. Twelve age-matched lean individuals received a 3-kcal/min infusion only. Immediately after the infusions, energy intake from a buffet lunch was quantified. Results: In obese subjects, protein suppressed antral and duodenal pressures; stimulated plasma CCK, GLP-1, GIP, insulin, and glucagon (all r . 0.57, P , 0.01); and tended to reduce energy intake (r = 20.38, P = 0.057) in a dose-dependent manner. In response to the 3-kcal/min protein load, antropyloroduodenal pressures, CCK, GLP-1, and glucagon did not differ between lean and obese subjects. Insulin release was greater, and GIP release less, in obese than in lean subjects (both P , 0.05), whereas the reduction in glucose was comparable. Energy intake tended to be higher in obese subjects (P = 0.08). Conclusions: The gastrointestinal effects of hydrolyzed whey protein remain relatively intact in obesity; however, the observed changes in insulin and GIP suggest early disturbances in the insulin-incretin axis. This study was registered at www.anzctr. org.au as ACTRN 12612000203853.
KW - Blood glucose
KW - Cholecystokinin
KW - Food intake
KW - Gastrointestinal motility
KW - Glucagon-like peptide 1
KW - Obesity
UR - http://www.scopus.com/inward/record.url?scp=84948770293&partnerID=8YFLogxK
U2 - 10.3945/ajcn.115.114538
DO - 10.3945/ajcn.115.114538
M3 - Article
C2 - 26561615
AN - SCOPUS:84948770293
SN - 0002-9165
VL - 102
SP - 1323
EP - 1331
JO - American Journal of Clinical Nutrition
JF - American Journal of Clinical Nutrition
IS - 6
ER -