Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch

Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch

Beta (β)-glucan (BG) from cereal grains is associated with lowering post-prandial blood glucose but the precise mechanism is not well-elucidated. The main aim of this study was to understand the mechanism through which BG from barley affects post-prandial glycemic response. Waffles containing 0, 1,...

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Main Authors: Lovemore Nkhata Malunga, Nancy Ames, Haonan Zhouyao, Heather Blewett, Sijo Joseph Thandapilly
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-04-01
Series:Frontiers in Nutrition
Subjects:
barley
beta-glucan
post-prandial glucose response
viscosity
GLUT2
SGLT1
Online Access:https://www.frontiersin.org/articles/10.3389/fnut.2021.628571/full
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spelling doaj-7a34cfed4e844e76afcfa283b38943c92021-04-16T04:29:21ZengFrontiers Media S.A.Frontiers in Nutrition2296-861X2021-04-01810.3389/fnut.2021.628571628571Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of StarchLovemore Nkhata Malunga0Lovemore Nkhata Malunga1Lovemore Nkhata Malunga2Nancy Ames3Nancy Ames4Nancy Ames5Haonan Zhouyao6Heather Blewett7Heather Blewett8Heather Blewett9Sijo Joseph Thandapilly10Sijo Joseph Thandapilly11Sijo Joseph Thandapilly12Richardson Center for Functional Foods and Nutraceuticals, Agriculture and Agri-Food Canada, Winnipeg, MB, CanadaDepartment of Food and Human Nutritional Sciences, University of Manitoba, Winnipeg, MB, CanadaMorden Research and Development Centre, Agriculture and Agri-Food Canada, Morden, MB, CanadaRichardson Center for Functional Foods and Nutraceuticals, Agriculture and Agri-Food Canada, Winnipeg, MB, CanadaDepartment of Food and Human Nutritional Sciences, University of Manitoba, Winnipeg, MB, CanadaMorden Research and Development Centre, Agriculture and Agri-Food Canada, Morden, MB, CanadaDepartment of Food and Human Nutritional Sciences, University of Manitoba, Winnipeg, MB, CanadaDepartment of Food and Human Nutritional Sciences, University of Manitoba, Winnipeg, MB, CanadaMorden Research and Development Centre, Agriculture and Agri-Food Canada, Morden, MB, CanadaCanadian Centre for Agri-Food Research in Health and Medicine (CCARM), St Boniface Hospital Research Centre, Winnipeg, MB, CanadaRichardson Center for Functional Foods and Nutraceuticals, Agriculture and Agri-Food Canada, Winnipeg, MB, CanadaDepartment of Food and Human Nutritional Sciences, University of Manitoba, Winnipeg, MB, CanadaMorden Research and Development Centre, Agriculture and Agri-Food Canada, Morden, MB, CanadaBeta (β)-glucan (BG) from cereal grains is associated with lowering post-prandial blood glucose but the precise mechanism is not well-elucidated. The main aim of this study was to understand the mechanism through which BG from barley affects post-prandial glycemic response. Waffles containing 0, 1, 2, and 3 g barley BG and the same amount of available carbohydrate (15 g) were fed to the TIM-1 dynamic gastrointestinal digestion system to study the effect of BG on starch hydrolysis. Intestinal acetone powder and Xenopus laevis oocytes were used to study BG's effect on mammalian intestinal α-glucosidase and glucose transporters. The presence of BG did not significantly affect the in vitro starch digestion profiles of waffles suggesting that BG does not affect α-amylase activity. Intestinal α-glucosidase and glucose transport activities were significantly (p < 0.0001) inhibited in the presence of barley BG. Interestingly, BG viscosity did not influence α-amylase, α-glucosidase, GLUT2, and SGLT1 activities. This study provides the first evidence for the mechanism by which BG from barley attenuates post-prandial glycemic response is via alteration of α-glucosidase, GLUT2, and SGLT1 activity, but not amylolysis of starch. The decrease in post-prandial blood glucose in the presence of BG is likely a consequence of the interaction between BG and membrane active proteins (brush border enzymes and glucose transporters) as opposed to the commonly held hypothesis that increased viscosity caused by BG inhibits starch digestion.https://www.frontiersin.org/articles/10.3389/fnut.2021.628571/fullbarleybeta-glucanpost-prandial glucose responseviscosityGLUT2SGLT1
collection DOAJ
language English
format Article
sources DOAJ
author Lovemore Nkhata Malunga
Lovemore Nkhata Malunga
Lovemore Nkhata Malunga
Nancy Ames
Nancy Ames
Nancy Ames
Haonan Zhouyao
Heather Blewett
Heather Blewett
Heather Blewett
Sijo Joseph Thandapilly
Sijo Joseph Thandapilly
Sijo Joseph Thandapilly
spellingShingle Lovemore Nkhata Malunga
Lovemore Nkhata Malunga
Lovemore Nkhata Malunga
Nancy Ames
Nancy Ames
Nancy Ames
Haonan Zhouyao
Heather Blewett
Heather Blewett
Heather Blewett
Sijo Joseph Thandapilly
Sijo Joseph Thandapilly
Sijo Joseph Thandapilly
Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch
Frontiers in Nutrition
barley
beta-glucan
post-prandial glucose response
viscosity
GLUT2
SGLT1
author_facet Lovemore Nkhata Malunga
Lovemore Nkhata Malunga
Lovemore Nkhata Malunga
Nancy Ames
Nancy Ames
Nancy Ames
Haonan Zhouyao
Heather Blewett
Heather Blewett
Heather Blewett
Sijo Joseph Thandapilly
Sijo Joseph Thandapilly
Sijo Joseph Thandapilly
author_sort Lovemore Nkhata Malunga
title Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch
title_short Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch
title_full Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch
title_fullStr Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch
title_full_unstemmed Beta-Glucan From Barley Attenuates Post-prandial Glycemic Response by Inhibiting the Activities of Glucose Transporters but Not Intestinal Brush Border Enzymes and Amylolysis of Starch
title_sort beta-glucan from barley attenuates post-prandial glycemic response by inhibiting the activities of glucose transporters but not intestinal brush border enzymes and amylolysis of starch
publisher Frontiers Media S.A.
series Frontiers in Nutrition
issn 2296-861X
publishDate 2021-04-01
description Beta (β)-glucan (BG) from cereal grains is associated with lowering post-prandial blood glucose but the precise mechanism is not well-elucidated. The main aim of this study was to understand the mechanism through which BG from barley affects post-prandial glycemic response. Waffles containing 0, 1, 2, and 3 g barley BG and the same amount of available carbohydrate (15 g) were fed to the TIM-1 dynamic gastrointestinal digestion system to study the effect of BG on starch hydrolysis. Intestinal acetone powder and Xenopus laevis oocytes were used to study BG's effect on mammalian intestinal α-glucosidase and glucose transporters. The presence of BG did not significantly affect the in vitro starch digestion profiles of waffles suggesting that BG does not affect α-amylase activity. Intestinal α-glucosidase and glucose transport activities were significantly (p < 0.0001) inhibited in the presence of barley BG. Interestingly, BG viscosity did not influence α-amylase, α-glucosidase, GLUT2, and SGLT1 activities. This study provides the first evidence for the mechanism by which BG from barley attenuates post-prandial glycemic response is via alteration of α-glucosidase, GLUT2, and SGLT1 activity, but not amylolysis of starch. The decrease in post-prandial blood glucose in the presence of BG is likely a consequence of the interaction between BG and membrane active proteins (brush border enzymes and glucose transporters) as opposed to the commonly held hypothesis that increased viscosity caused by BG inhibits starch digestion.
topic barley
beta-glucan
post-prandial glucose response
viscosity
GLUT2
SGLT1
url https://www.frontiersin.org/articles/10.3389/fnut.2021.628571/full
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