OBJECTIVE: To assess the effects of energy dilution with non-fermentable and fermentable fibers on abdominal fat and gut peptide YY (PYY) and glucagon-like peptide (GLP)-1 expressions, three rat studies were conducted to: determine the effects of energy dilution with a non-fermentable fiber, compare similar fiber levels of fermentable and non-fermentable fibers, and compare similar metabolizable energy dilutions with fermentable and non-fermentable fibers. RESEARCH METHODS AND PROCEDURES: In Study 1, rats were fed one of three diets with different metabolizable energy densities. In Study 2, rats were fed diets with similar fiber levels using high amylose-resistant cornstarch (RS) or methylcellulose. In Study 3, rats were fed diets with a similar dilution of metabolizable energy using cellulose or RS. Measurements included food intake, body weight, abdominal fat, plasma PYY and GLP-1, gastrointestinal tract weights, and gene transcription of PYY and proglucagon. RESULTS: Energy dilution resulted in decreased abdominal fat in all studies. In Study 2, rats fed fermentable RS had increased cecal weights and plasma PYY and GLP-1, and increased gene transcription of PYY and proglucagon. In Study 3, RS-fed rats had increased short-chain fatty acids in cecal contents, plasma PYY (GLP-1 not measured), and gene transcription for PYY and proglucagon. DISCUSSION: Inclusion of RS in the diet may affect energy balance through its effect as a fiber or a stimulator of PYY and GLP-1 expression. Increasing gut hormone signaling with a bioactive functional food such as RS may be an effective natural approach to the treatment of obesity.
OBJECTIVE: To assess the effects of energy dilution with non-fermentable and fermentable fibers on abdominal fat and gut peptide YY (PYY) and glucagon-like peptide (GLP)-1 expressions, three rat studies were conducted to: determine the effects of energy dilution with a non-fermentable fiber, compare similar fiber levels of fermentable and non-fermentable fibers, and compare similar metabolizable energy dilutions with fermentable and non-fermentable fibers. RESEARCH METHODS AND PROCEDURES: In Study 1, rats were fed one of three diets with different metabolizable energy densities. In Study 2, rats were fed diets with similar fiber levels using high amylose-resistant cornstarch (RS) or methylcellulose. In Study 3, rats were fed diets with a similar dilution of metabolizable energy using cellulose or RS. Measurements included food intake, body weight, abdominal fat, plasma PYY and GLP-1, gastrointestinal tract weights, and gene transcription of PYY and proglucagon. RESULTS: Energy dilution resulted in decreased abdominal fat in all studies. In Study 2, rats fed fermentable RS had increased cecal weights and plasma PYY and GLP-1, and increased gene transcription of PYY and proglucagon. In Study 3, RS-fed rats had increased short-chain fatty acids in cecal contents, plasma PYY (GLP-1 not measured), and gene transcription for PYY and proglucagon. DISCUSSION: Inclusion of RS in the diet may affect energy balance through its effect as a fiber or a stimulator of PYY and GLP-1 expression. Increasing gut hormone signaling with a bioactive functional food such as RS may be an effective natural approach to the treatment of obesity.
Authors: June Zhou; Roy J Martin; Anne M Raggio; Li Shen; Kathleen McCutcheon; Michael J Keenan Journal: Mol Nutr Food Res Date: 2015-03-02 Impact factor: 5.914
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Authors: Felicia Goldsmith; Justin Guice; Ryan Page; David A Welsh; Christopher M Taylor; Eugene E Blanchard; Meng Luo; Anne M Raggio; Rhett W Stout; Diana Carvajal-Aldaz; Amanda Gaither; Christine Pelkman; Jianping Ye; Roy J Martin; James Geaghan; Holiday A Durham; Diana Coulon; Michael J Keenan Journal: Mol Nutr Food Res Date: 2016-08-11 Impact factor: 5.914
Authors: Michael W Beets; Brie Turner-McGrievy; R Glenn Weaver; Jennifer Huberty; Justin B Moore; Dianne S Ward; Darcy A Freedman Journal: Transl Behav Med Date: 2016-09 Impact factor: 3.046
Authors: June Zhou; Roy J Martin; Richard T Tulley; Anne M Raggio; Kathleen L McCutcheon; Li Shen; Samuel Colby Danna; Sasmita Tripathy; Maren Hegsted; Michael J Keenan Journal: Am J Physiol Endocrinol Metab Date: 2008-09-16 Impact factor: 4.310