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European Journal of Nutrition
Published in: European Journal of Nutrition 3/2018

01-04-2018 | Original Contribution

Resistant maltodextrin or fructooligosaccharides promotes GLP-1 production in male rats fed a high-fat and high-sucrose diet, and partially reduces energy intake and adiposity

Authors: Tohru Hira, Ryoya Suto, Yuka Kishimoto, Sumiko Kanahori, Hiroshi Hara

Published in: European Journal of Nutrition | Issue 3/2018

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Abstract

Purpose

Increasing secretion and production of glucagon-like peptide-1 (GLP-1) by continuous ingestion of certain food components has been expected to prevent glucose intolerance and obesity. In this study, we examined whether a physiological dose (5% weight in diet) of digestion-resistant maltodextrin (RMD) has a GLP-1-promoting effect in rats fed a high-fat and high-sucrose (HFS) diet.

Methods

Rats were fed a control diet or the HFS (30% fat, 40% sucrose wt/wt) diet supplemented with 5% RMD or fructooligosaccharides (FOS) for 8 weeks or for 8 days in separated experiments. Glucose tolerance, energy intake, plasma and tissue GLP-1 concentrations, and cecal short-chain fatty acids concentrations were assessed.

Results

After 4 weeks of feeding, HFS-fed rats had significantly higher glycemic response to oral glucose than control rats, but rats fed HFS + RMD/FOS did not (approx. 50% reduction vs HFS rats). HFS + RMD/FOS-fed rats had higher GLP-1 responses (~twofold) to oral glucose, than control rats. After 8 weeks, visceral adipose tissue weight was significantly higher in HFS-fed rats than control rats, while HFS + RMD/FOS rats had a trend of reduced gain (~50%) of the tissue weight. GLP-1 contents and luminal propionate concentrations in the large intestine increased (>twofold) by adding RMD/FOS to HFS. Eight days feeding of RMD/FOS-supplemented diets reduced energy intake (~10%) and enhanced cecal GLP-1 production (~twofold), compared to HFS diet.

Conclusions

The physiological dose of a prebiotic fiber promptly (within 8 days) promotes GLP-1 production in rats fed an obesogenic diet, which would help to prevent excess energy intake and fat accumulation.
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Literature
1.
2.
3.
Nauck M (2016) Incretin therapies: highlighting common features and differences in the modes of action of glucagon-like peptide-1 receptor agonists and dipeptidyl peptidase-4 inhibitors. Diabetes Obes Metab 18(3):203–216. doi:10.​1111/​dom.​12591 CrossRef
4.
5.
Higuchi N, Hira T, Yamada N, Hara H (2013) Oral administration of corn zein hydrolysate stimulates GLP-1 and GIP secretion and improves glucose tolerance in male normal rats and goto-kakizaki rats. Endocrinology 154(9):3089–3098. doi:10.​1210/​en.​2012-2275 CrossRef
6.
Ishikawa Y, Hira T, Inoue D, Harada Y, Hashimoto H, Fujii M, Kadowaki M, Hara H (2015) Rice protein hydrolysates stimulate GLP-1 secretion, reduce GLP-1 degradation, and lower the glycemic response in rats. Food Funct 6(8):2525–2534. doi:10.​1039/​c4fo01054j CrossRef
7.
Greenfield JR, Farooqi IS, Keogh JM, Henning E, Habib AM, Blackwood A, Reimann F, Holst JJ, Gribble FM (2009) Oral glutamine increases circulating glucagon-like peptide 1, glucagon, and insulin concentrations in lean, obese, and type 2 diabetic subjects. Am J Clin Nutr 89(1):106–113. doi:10.​3945/​ajcn.​2008.​26362 CrossRef
8.
Jakubowicz D, Froy O, Ahrén B, Boaz M, Landau Z, Bar-Dayan Y, Ganz T, Barnea M, Wainstein J (2014) Incretin, insulinotropic and glucose-lowering effects of whey protein pre-load in type 2 diabetes: a randomised clinical trial. Diabetologia 57(9):1807–1811. doi:10.​1007/​s00125-014-3305-x CrossRef
9.
Hira T, Ikee A, Kishimoto Y, Kanahori S, Hara H (2015) Resistant maltodextrin promotes fasting glucagon-like peptide-1 secretion and production together with glucose tolerance in rats. Br J Nutr 114(1):34–42. doi:10.​1017/​S000711451400432​2 CrossRef
10.
Cani PD, Dewever C, Delzenne NM (2004) Inulin-type fructans modulate gastrointestinal peptides involved in appetite regulation (glucagon-like peptide-1 and ghrelin) in rats. Br J Nutr 92(3):521–526CrossRef
11.
Cani PD, Daubioul CA, Reusens B, Remacle C, Catillon G, Delzenne NM (2005) Involvement of endogenous glucagon-like peptide-1(7–36) amide on glycaemia-lowering effect of oligofructose in streptozotocin-treated rats. J Endocrinol 185(3):457–465. doi:10.​1677/​joe.​1.​06100 CrossRef
12.
Delzenne NM, Cani PD, Daubioul C, Neyrinck AM (2005) Impact of inulin and oligofructose on gastrointestinal peptides. Br J Nutr 93(Suppl 1):S157–S161CrossRef
13.
Fastinger ND, Karr-Lilienthal LK, Spears JK, Swanson KS, Zinn KE, Nava GM, Ohkuma K, Kanahori S, Gordon DT, Fahey GC (2008) A novel resistant maltodextrin alters gastrointestinal tolerance factors, fecal characteristics, and fecal microbiota in healthy adult humans. J Am Coll Nutr 27(2):356–366CrossRef
14.
15.
Zhou J, Martin RJ, Tulley RT, Raggio AM, McCutcheon KL, Shen L, Danna SC, Tripathy S, Hegsted M, Keenan MJ (2008) Dietary resistant starch upregulates total GLP-1 and PYY in a sustained day-long manner through fermentation in rodents. Am J Physiol Endocrinol Metab 295(5):E1160–E1166. doi:10.​1152/​ajpendo.​90637.​2008 CrossRef
16.
Hashizume C, Kishimoto Y, Kanahori S, Yamamoto T, Okuma K, Yamamoto K (2012) Improvement effect of resistant maltodextrin in humans with metabolic syndrome by continuous administration. J Nutr Sci Vitaminol (Tokyo) 58(6):423–430CrossRef
17.
Livesey G, Tagami H (2009) Interventions to lower the glycemic response to carbohydrate foods with a low-viscosity fiber (resistant maltodextrin): meta-analysis of randomized controlled trials. Am J Clin Nutr 89(1):114–125. doi:10.​3945/​ajcn.​2008.​26842 CrossRef
18.
Chu HF, Pan MH, Ho CT, Tseng YH, Wang WW, Chau CF (2014) Variations in the efficacy of resistant maltodextrin on body fat reduction in rats fed different high-fat models. J Agric Food Chem 62(1):192–197. doi:10.​1021/​jf404809v CrossRef
19.
20.
Adam CL, Gratz SW, Peinado DI, Thomson LM, Garden KE, Williams PA, Richardson AJ, Ross AW (2016) Effects of dietary fibre (Pectin) and/or increased protein (Casein or Pea) on satiety, body weight, adiposity and caecal fermentation in high fat diet-induced obese rats. PLoS One 11(5):e0155871. doi:10.​1371/​journal.​pone.​0155871 CrossRef
21.
den Besten G, Gerding A, van Dijk TH, Ciapaite J, Bleeker A, van Eunen K, Havinga R, Groen AK, Reijngoud DJ, Bakker BM (2015) Protection against the metabolic syndrome by guar gum-derived short-chain fatty acids depends on peroxisome proliferator-activated receptor γ and glucagon-like peptide-1. PLoS One 10(8):e0136364. doi:10.​1371/​journal.​pone.​0136364 CrossRef
22.
Adam CL, Williams PA, Dalby MJ, Garden K, Thomson LM, Richardson AJ, Gratz SW, Ross AW (2014) Different types of soluble fermentable dietary fibre decrease food intake, body weight gain and adiposity in young adult male rats. Nutr Metab (Lond) 11:36. doi:10.​1186/​1743-7075-11-36 CrossRef
23.
Parnell JA, Reimer RA (2012) Prebiotic fiber modulation of the gut microbiota improves risk factors for obesity and the metabolic syndrome. Gut Microbes 3(1):29–34. doi:10.​4161/​gmic.​19246 CrossRef
24.
Cluny NL, Eller LK, Keenan CM, Reimer RA, Sharkey KA (2015) Interactive effects of oligofructose and obesity predisposition on gut hormones and microbiota in diet-induced obese rats. Obesity (Silver Spring) 23(4):769–778. doi:10.​1002/​oby.​21017 CrossRef
25.
26.
Reeves PG (1997) Components of the AIN-93 diets as improvements in the AIN-76A diet. J Nutr 127(5 Suppl):838 S–841 SCrossRef
27.
28.
Iwaya H, Lee JS, Yamagishi S, Shinoki A, Lang W, Thawornkuno C, Kang HK, Kumagai Y, Suzuki S, Kitamura S, Hara H, Okuyama M, Mori H, Kimura A, Ishizuka S (2012) The delay in the development of experimental colitis from isomaltosyloligosaccharides in rats is dependent on the degree of polymerization. PLoS One 7(11):e50658. doi:10.​1371/​journal.​pone.​0050658 CrossRef
29.
Miyazato S, Nakagawa C, Kishimoto Y, Tagami H, Hara H (2010) Promotive effects of resistant maltodextrin on apparent absorption of calcium, magnesium, iron and zinc in rats. Eur J Nutr 49(3):165–171. doi:10.​1007/​s00394-009-0062-6 CrossRef
30.
Cacho J, Sevillano J, de Castro J, Herrera E, M. P. Ramos (2108) Validation of simple indexes to assess insulin sensitivity during pregnancy in Wistar and Sprague-Dawley rats. Am J Physiol Endocrinol Metab 295:E1269–E1276. doi:10.​1152/​ajpendo.​90207.​2008
31.
32.
Micha R, Khatibzadeh S, Shi P, Fahimi S, Lim S, Andrews KG, Engell RE, Powles J, Ezzati M, Mozaffarian D, NutriCoDE GBoDNaCDEG (2014) Global, regional, and national consumption levels of dietary fats and oils in 1990 and 2010: a systematic analysis including 266 country-specific nutrition surveys. BMJ 348:g2272. doi:10.​1136/​bmj.​g2272 CrossRef
33.
Lai M, Chandrasekera PC, Barnard ND (2014) You are what you eat, or are you? The challenges of translating high-fat-fed rodents to human obesity and diabetes. Nutr Diabetes 4:e135. doi:10.​1038/​nutd.​2014.​30 CrossRef
34.
Nakajima S, Hira T, Hara H (2015) Postprandial glucagon-like peptide-1 secretion is increased during the progression of glucose intolerance and obesity in high-fat/high-sucrose diet-fed rats. Br J Nutr 113(9):1477–1488. doi:10.​1017/​S000711451500055​0 CrossRef
35.
Theodorakis MJ (2015) Comment on Færch et al. GLP-1 Response to Oral Glucose Is Reduced in Prediabetes, Screen-Detected Type 2 Diabetes, and Obesity and Influenced by Sex: The ADDITION-PRO Study. Diabetes 2015;64:2513–2525. Diabetes 64(9):e28–29. doi:10.​2337/​db15-0614. (discussion e30–21) CrossRef
36.
Færch K, Torekov SS, Vistisen D, Johansen NB, Witte DR, Jonsson A, Pedersen O, Hansen T, Lauritzen T, Sandbæk A, Holst JJ, Jørgensen ME (2015) GLP-1 response to oral glucose is reduced in prediabetes, screen-detected type 2 diabetes, and obesity and influenced by sex: The ADDITION-PRO Study. Diabetes 64(7):2513–2525. doi:10.​2337/​db14-1751 CrossRef
37.
Smushkin G, Sathananthan A, Man CD, Zinsmeister AR, Camilleri M, Cobelli C, Rizza RA, Vella A (2012) Defects in GLP-1 response to an oral challenge do not play a significant role in the pathogenesis of prediabetes. J Clin Endocrinol Metab 97(2):589–598. doi:10.​1210/​jc.​2011-2561 CrossRef
38.
Numao S, Kawano H, Endo N, Yamada Y, Konishi M, Takahashi M, Sakamoto S (2012) Short-term low carbohydrate/high-fat diet intake increases postprandial plasma glucose and glucagon-like peptide-1 levels during an oral glucose tolerance test in healthy men. Eur J Clin Nutr 66(8):926–931. doi:10.​1038/​ejcn.​2012.​58 CrossRef
39.
Trevaskis JL, Griffin PS, Wittmer C, Neuschwander-Tetri BA, Brunt EM, Dolman CS, Erickson MR, Napora J, Parkes DG, Roth JD (2012) Glucagon-like peptide-1 receptor agonism improves metabolic, biochemical, and histopathological indices of nonalcoholic steatohepatitis in mice. Am J Physiol Gastrointest Liver Physiol 302(8):G762–G772. doi:10.​1152/​ajpgi.​00476.​2011 CrossRef
40.
Wu H, Sui C, Xu H, Xia F, Zhai H, Zhang H, Weng P, Han B, Du S, Lu Y (2014) The GLP-1 analogue exenatide improves hepatic and muscle insulin sensitivity in diabetic rats: tracer studies in the basal state and during hyperinsulinemic-euglycemic clamp. J Diabetes Res 2014:524517. doi:10.​1155/​2014/​524517
41.
42.
Beylot M (2005) Effects of inulin-type fructans on lipid metabolism in man and in animal models. Br J Nutr 93(Suppl 1):S163–S168CrossRef
43.
Phuwamongkolwiwat P, Suzuki T, Hira T, Hara H (2014) Fructooligosaccharide augments benefits of quercetin-3-O-β-glucoside on insulin sensitivity and plasma total cholesterol with promotion of flavonoid absorption in sucrose-fed rats. Eur J Nutr 53(2):457–468. doi:10.​1007/​s00394-013-0546-2 CrossRef
44.
Cani PD, Knauf C, Iglesias MA, Drucker DJ, Delzenne NM, Burcelin R (2006) Improvement of glucose tolerance and hepatic insulin sensitivity by oligofructose requires a functional glucagon-like peptide 1 receptor. Diabetes 55(5):1484–1490CrossRef
45.
Cani PD, Neyrinck AM, Maton N, Delzenne NM (2005) Oligofructose promotes satiety in rats fed a high-fat diet: involvement of glucagon-like Peptide-1. Obes Res 13(6):1000–1007. doi:10.​1038/​oby.​2005.​117 CrossRef
46.
Verhoef SP, Meyer D, Westerterp KR (2011) Effects of oligofructose on appetite profile, glucagon-like peptide 1 and peptide YY3-36 concentrations and energy intake. Br J Nutr 106(11):1757–1762. doi:10.​1017/​S000711451100219​4 CrossRef
47.
Liber A, Szajewska H (2013) Effects of inulin-type fructans on appetite, energy intake, and body weight in children and adults: systematic review of randomized controlled trials. Ann Nutr Metab 63(1–2):42–54. doi:10.​1159/​000350312 CrossRef
48.
Pedersen C, Lefevre S, Peters V, Patterson M, Ghatei MA, Morgan LM, Frost GS (2013) Gut hormone release and appetite regulation in healthy non-obese participants following oligofructose intake. A dose-escalation study. Appetite 66:44–53. doi:10.​1016/​j.​appet.​2013.​02.​017 CrossRef
49.
Daud NM, Ismail NA, Thomas EL, Fitzpatrick JA, Bell JD, Swann JR, Costabile A, Childs CE, Pedersen C, Goldstone AP, Frost GS (2014) The impact of oligofructose on stimulation of gut hormones, appetite regulation and adiposity. Obesity (Silver Spring) 22(6):1430–1438. doi:10.​1002/​oby.​20754 CrossRef
50.
Tolhurst G, Heffron H, Lam YS, Parker HE, Habib AM, Diakogiannaki E, Cameron J, Grosse J, Reimann F, Gribble FM (2012) Short-chain fatty acids stimulate glucagon-like peptide-1 secretion via the G-protein-coupled receptor FFAR2. Diabetes 61(2):364–371. doi:10.​2337/​db11-1019 CrossRef
51.
Psichas A, Sleeth ML, Murphy KG, Brooks L, Bewick GA, Hanyaloglu AC, Ghatei MA, Bloom SR, Frost G (2015) The short chain fatty acid propionate stimulates GLP-1 and PYY secretion via free fatty acid receptor 2 in rodents. Int J Obes (Lond) 39(3):424–429. doi:10.​1038/​ijo.​2014.​153 CrossRef
52.
Chambers ES, Viardot A, Psichas A, Morrison DJ, Murphy KG, Zac-Varghese SE, MacDougall K, Preston T, Tedford C, Finlayson GS, Blundell JE, Bell JD, Thomas EL, Mt-Isa S, Ashby D, Gibson GR, Kolida S, Dhillo WS, Bloom SR, Morley W, Clegg S, Frost G (2015) Effects of targeted delivery of propionate to the human colon on appetite regulation, body weight maintenance and adiposity in overweight adults. Gut 64(11):1744–1754. doi:10.​1136/​gutjnl-2014-307913 CrossRef
53.
Byrne CS, Chambers ES, Morrison DJ, Frost G (2015) The role of short chain fatty acids in appetite regulation and energy homeostasis. Int J Obes (Lond) 39(9):1331–1338. doi:10.​1038/​ijo.​2015.​84 CrossRef
54.
Svendsen B, Pedersen J, Albrechtsen NJ, Hartmann B, Toräng S, Rehfeld JF, Poulsen SS, Holst JJ (2015) An analysis of cosecretion and coexpression of gut hormones from male rat proximal and distal small intestine. Endocrinology 156(3):847–857. doi:10.​1210/​en.​2014-1710 CrossRef
55.
Rouillé Y, Kantengwa S, Irminger JC, Halban PA (1997) Role of the prohormone convertase PC3 in the processing of proglucagon to glucagon-like peptide 1. J Biol Chem 272(52):32810–32816CrossRef
56.
Morimoto K, Watanabe M, Sugizaki T, Irie J, Itoh H (2016) Intestinal bile acid composition modulates prohormone convertase 1/3 (PC1/3) expression and consequent GLP-1 production in male mice. Endocrinology 157(3):1071–1081. doi:10.​1210/​en.​2015-1551 CrossRef
Metadata
Title
Resistant maltodextrin or fructooligosaccharides promotes GLP-1 production in male rats fed a high-fat and high-sucrose diet, and partially reduces energy intake and adiposity
Authors
Tohru Hira
Ryoya Suto
Yuka Kishimoto
Sumiko Kanahori
Hiroshi Hara
Publication date
01-04-2018
Publisher
Springer Berlin Heidelberg
Published in
European Journal of Nutrition / Issue 3/2018
Print ISSN: 1436-6207
Electronic ISSN: 1436-6215
DOI
https://doi.org/10.1007/s00394-017-1381-7

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