Supplementation of Hydroxypropyl Methylcellulose into Yeast Leavened All-Whole Grain Barley Bread Potentiates Cholesterol-Lowering Effect

We investigated in Syrian Golden hamsters the biological impact and its underlying mechanism of single whole grain breads supplemented with 2–3% hydroxypropyl methylcellulose (HPMC), a semisynthetic viscous soluble dietary fiber (SDF) as a substitute for gluten. Hamsters were fed high-fat diets supp...

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Bibliographic Details
Published in:Journal of agricultural and food chemistry 2011-07, Vol.59 (14), p.7672-7678
Main Authors: Kim, Hyunsook, Turowski, Maciej, Anderson, W. H. Kerr, Young, Scott A, Kim, Yookyung, Yokoyama, Wallace
Format: Article
Language:English
Subjects:
Animals
Anticholesteremic Agents - administration & dosage
beta-Glucans - metabolism
Bile Acids and Salts - metabolism
Bioactive Constituents
Biological and medical sciences
Bread - analysis
Bread - microbiology
Cereal and baking product industries
Cholesterol - blood
Cholesterol 7-alpha-Hydroxylase - genetics
Cholesterol 7-alpha-Hydroxylase - metabolism
Cricetinae
Dietary Fiber - administration & dosage
Feeding. Feeding behavior
Food Additives - administration & dosage
Food industries
Fundamental and applied biological sciences. Psychology
Gene Expression Regulation
Hordeum - chemistry
Hordeum - microbiology
Humans
Hypromellose Derivatives
Liver - metabolism
Male
Mesocricetus
Methylcellulose - administration & dosage
Methylcellulose - analogs & derivatives
Models, Animal
Saccharomyces cerevisiae - metabolism
Vertebrates: anatomy and physiology, studies on body, several organs or systems
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Summary:We investigated in Syrian Golden hamsters the biological impact and its underlying mechanism of single whole grain breads supplemented with 2–3% hydroxypropyl methylcellulose (HPMC), a semisynthetic viscous soluble dietary fiber (SDF) as a substitute for gluten. Hamsters were fed high-fat diets supplemented with 48–65% (w/w) differently ground, freeze-dried single grain breads including whole grain wheat, barley, barley supplemented with HPMC, debranned oat, and oat supplemented with HPMC which were compared to a diet containing microcrystalline cellulose (control). All single grain breads significantly lowered plasma LDL-cholesterol concentrations compared to the control. Enrichment with HPMC further lowered plasma and hepatic cholesterol concentrations. Despite the reduced molecular weight of naturally occurring soluble (1→3),(1→4)-β-d-glucan (β-glucan) caused by the bread-making process, whole grain barley breads downregulated hepatic expression of CYP7A1 and HMG-CoAR genes that are responsible for bile acid and cholesterol synthesis, suggesting a possible role of bioactive compounds such as short-chain fatty acids and phenolic compounds from barley bread. Barley bread enriched with HPMC downregulated expression of ABCG5 gene. Taken together, it appears that distinctive modulation of synthesis and excretion of hepatic cholesterol and bile acid contributes to the cholesterol-lowering properties of whole grain barley breads and breads enriched with HPMC. These data suggests that alternative whole grain breads supplemented with HPMC may provide consumers with a staple food that can assist in cholesterol management.
ISSN:0021-8561
1520-5118
DOI:10.1021/jf104821b