Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor Model

Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor Model

Dietary fiber and flavonoids have substantial influence on the human gut microbiota composition that significantly impact health. Recent studies with dietary supplements such as quercetin and rice bran have shown beneficial impacts on the host alongside a positive influence of the gut microbiota. Th...

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Main Authors: Sudeep Ghimire, Supapit Wongkuna, Ranjini Sankaranarayanan, Elizabeth P. Ryan, G. Jayarama Bhat, Joy Scaria
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-09-01
Series:Frontiers in Microbiology
Subjects:
gut microbiome
bioreactor
metagenomics
flavonoid
quercetin
rice bran
Online Access:https://www.frontiersin.org/articles/10.3389/fmicb.2021.751225/full
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spelling doaj-18905986d9324e3b84bb2f896eb7a8cf2021-09-30T08:41:39ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2021-09-011210.3389/fmicb.2021.751225751225Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor ModelSudeep Ghimire0Sudeep Ghimire1Supapit Wongkuna2Supapit Wongkuna3Ranjini Sankaranarayanan4Elizabeth P. Ryan5G. Jayarama Bhat6Joy Scaria7Joy Scaria8Department of Veterinary and Biomedical Sciences, South Dakota State University, Brookings, SD, United StatesSouth Dakota Center for Biologics Research and Commercialization, Brookings, SD, United StatesDepartment of Veterinary and Biomedical Sciences, South Dakota State University, Brookings, SD, United StatesSouth Dakota Center for Biologics Research and Commercialization, Brookings, SD, United StatesDepartment of Pharmaceutical Sciences, South Dakota State University, Brookings, SD, United StatesDepartment of Environmental and Radiological Health Sciences, Colorado State University, Fort Collins, CO, United StatesDepartment of Pharmaceutical Sciences, South Dakota State University, Brookings, SD, United StatesDepartment of Veterinary and Biomedical Sciences, South Dakota State University, Brookings, SD, United StatesSouth Dakota Center for Biologics Research and Commercialization, Brookings, SD, United StatesDietary fiber and flavonoids have substantial influence on the human gut microbiota composition that significantly impact health. Recent studies with dietary supplements such as quercetin and rice bran have shown beneficial impacts on the host alongside a positive influence of the gut microbiota. The specific bacterial species impacted by quercetin or rice bran in the diet is not well understood. In this study, we used a minibioreactor array system as a model to determine the effect of quercetin and rice bran individually, as well as in combination, on gut microbiota without the confounding host factors. We found that rice bran exerts higher shift in gut microbiome composition when compared to quercetin. At the species level, Acidaminococcus intestini was the only significantly enriched taxa when quercetin was supplemented, while 15 species were enriched in rice bran supplementation and 13 were enriched when quercetin and rice bran were supplemented in combination. When comparing the short chain fatty acid production, quercetin supplementation increased isobutyrate production while propionate dominated the quercetin and rice bran combined group. Higher levels of propionate were highly correlated to the lower abundance of the potentially pathogenic Enterobacteriaceae family. These findings suggest that the combination of quercetin and rice bran serve to enrich beneficial bacteria and reduce potential opportunistic pathogens. In vivo studies are necessary to determine how this synergy of quercetin and rice bran on microbiota impact host health.https://www.frontiersin.org/articles/10.3389/fmicb.2021.751225/fullgut microbiomebioreactormetagenomicsflavonoidquercetinrice bran
collection DOAJ
language English
format Article
sources DOAJ
author Sudeep Ghimire
Sudeep Ghimire
Supapit Wongkuna
Supapit Wongkuna
Ranjini Sankaranarayanan
Elizabeth P. Ryan
G. Jayarama Bhat
Joy Scaria
Joy Scaria
spellingShingle Sudeep Ghimire
Sudeep Ghimire
Supapit Wongkuna
Supapit Wongkuna
Ranjini Sankaranarayanan
Elizabeth P. Ryan
G. Jayarama Bhat
Joy Scaria
Joy Scaria
Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor Model
Frontiers in Microbiology
gut microbiome
bioreactor
metagenomics
flavonoid
quercetin
rice bran
author_facet Sudeep Ghimire
Sudeep Ghimire
Supapit Wongkuna
Supapit Wongkuna
Ranjini Sankaranarayanan
Elizabeth P. Ryan
G. Jayarama Bhat
Joy Scaria
Joy Scaria
author_sort Sudeep Ghimire
title Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor Model
title_short Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor Model
title_full Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor Model
title_fullStr Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor Model
title_full_unstemmed Positive Synergistic Effects of Quercetin and Rice Bran on Human Gut Microbiota Reduces Enterobacteriaceae Family Abundance and Elevates Propionate in a Bioreactor Model
title_sort positive synergistic effects of quercetin and rice bran on human gut microbiota reduces enterobacteriaceae family abundance and elevates propionate in a bioreactor model
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2021-09-01
description Dietary fiber and flavonoids have substantial influence on the human gut microbiota composition that significantly impact health. Recent studies with dietary supplements such as quercetin and rice bran have shown beneficial impacts on the host alongside a positive influence of the gut microbiota. The specific bacterial species impacted by quercetin or rice bran in the diet is not well understood. In this study, we used a minibioreactor array system as a model to determine the effect of quercetin and rice bran individually, as well as in combination, on gut microbiota without the confounding host factors. We found that rice bran exerts higher shift in gut microbiome composition when compared to quercetin. At the species level, Acidaminococcus intestini was the only significantly enriched taxa when quercetin was supplemented, while 15 species were enriched in rice bran supplementation and 13 were enriched when quercetin and rice bran were supplemented in combination. When comparing the short chain fatty acid production, quercetin supplementation increased isobutyrate production while propionate dominated the quercetin and rice bran combined group. Higher levels of propionate were highly correlated to the lower abundance of the potentially pathogenic Enterobacteriaceae family. These findings suggest that the combination of quercetin and rice bran serve to enrich beneficial bacteria and reduce potential opportunistic pathogens. In vivo studies are necessary to determine how this synergy of quercetin and rice bran on microbiota impact host health.
topic gut microbiome
bioreactor
metagenomics
flavonoid
quercetin
rice bran
url https://www.frontiersin.org/articles/10.3389/fmicb.2021.751225/full
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