Literature DB >> 25764457

Polyphenol-rich sorghum brans alter colon microbiota and impact species diversity and species richness after multiple bouts of dextran sodium sulfate-induced colitis.

Lauren E Ritchie1, Joseph M Sturino2, Raymond J Carroll3, Lloyd W Rooney4, M Andrea Azcarate-Peril5, Nancy D Turner6.   

Abstract

The microbiota affects host health, and dysbiosis is involved in colitis. Sorghum bran influences butyrate concentrations during dextran sodium sulfate (DSS) colitis, suggesting microbiota changes. We aimed to characterize the microbiota during colitis, and ascertain if polyphenol-rich sorghum bran diets mitigate these effects. Rats (n = 80) were fed diets containing 6% fiber from cellulose, or Black (3-deoxyanthocyanins), Sumac (condensed tannins), or Hi Tannin black (both) sorghum bran. Inflammation was induced three times using 3% DSS for 48 h (40 rats, 2 week separation), and the microbiota characterized by pyrosequencing. The Firmicutes/Bacteroidetes ratio was higher in Cellulose DSS rats. Colonic injury negatively correlated with Firmicutes, Actinobacteria, Lactobacillales and Lactobacillus, and positively correlated with Unknown/Unclassified. Post DSS#2, richness was significantly lower in Sumac and Hi Tannin black. Post DSS#3 Bacteroidales, Bacteroides, Clostridiales, Lactobacillales and Lactobacillus were reduced, with no Clostridium identified. Diet significantly affected Bacteroidales, Bacteroides, Clostridiales and Lactobacillus post DSS#2 and #3. Post DSS#3 diet significantly affected all genus, including Bacteroides and Lactobacillus, and diversity and richness increased. Sumac and Hi Tannin black DSS had significantly higher richness compared to controls. Thus, these sorghum brans may protect against alterations observed during colitis including reduced microbial diversity and richness, and dysbiosis of Firmicutes/Bacteroidetes. © FEMS 2015. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.

Entities:  

Keywords:  Chao; Shannon–Weaver; inflammatory bowel disease; short chain fatty acids

Mesh:

Substances:

Year:  2015        PMID: 25764457      PMCID: PMC4573659          DOI: 10.1093/femsec/fiv008

Source DB:  PubMed          Journal:  FEMS Microbiol Ecol        ISSN: 0168-6496            Impact factor:   4.194


  62 in total

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Authors:  Alan W Walker; Jennifer Ince; Sylvia H Duncan; Lucy M Webster; Grietje Holtrop; Xiaolei Ze; David Brown; Mark D Stares; Paul Scott; Aurore Bergerat; Petra Louis; Freda McIntosh; Alexandra M Johnstone; Gerald E Lobley; Julian Parkhill; Harry J Flint
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2.  Xanthohumol does not affect the composition of rat intestinal microbiota.

Authors:  Laura Hanske; Ragna Hussong; Norbert Frank; Clarissa Gerhäuser; Michael Blaut; Annett Braune
Journal:  Mol Nutr Food Res       Date:  2005-09       Impact factor: 5.914

3.  Distribution and excretion of bilberry anthocyanins [corrected] in mice.

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Journal:  J Agric Food Chem       Date:  2009-09-09       Impact factor: 5.279

4.  Microbial diversity of inflamed and noninflamed gut biopsy tissues in inflammatory bowel disease.

Authors:  Shadi Sepehri; Roman Kotlowski; Charles N Bernstein; Denis O Krause
Journal:  Inflamm Bowel Dis       Date:  2007-06       Impact factor: 5.325

5.  Prolonged impact of antibiotics on intestinal microbial ecology and susceptibility to enteric Salmonella infection.

Authors:  Amy Croswell; Elad Amir; Paul Teggatz; Melissa Barman; Nita H Salzman
Journal:  Infect Immun       Date:  2009-04-20       Impact factor: 3.441

6.  Effect of condensed tannins on bacterial diversity and metabolic activity in the rat gastrointestinal tract.

Authors:  Alexandra H Smith; Roderick I Mackie
Journal:  Appl Environ Microbiol       Date:  2004-02       Impact factor: 4.792

7.  Reduced colitis-associated colon cancer in Fat-1 (n-3 fatty acid desaturase) transgenic mice.

Authors:  Qian Jia; Joanne R Lupton; Roger Smith; Brad R Weeks; Evelyn Callaway; Laurie A Davidson; Wooki Kim; Yang-Yi Fan; Peiying Yang; Robert A Newman; Jing X Kang; David N McMurray; Robert S Chapkin
Journal:  Cancer Res       Date:  2008-05-15       Impact factor: 12.701

8.  Down-regulation of the monocarboxylate transporter 1 is involved in butyrate deficiency during intestinal inflammation.

Authors:  Ronan Thibault; Pierre De Coppet; Kristian Daly; Arnaud Bourreille; Mark Cuff; Christian Bonnet; Jean-François Mosnier; Jean-Paul Galmiche; Soraya Shirazi-Beechey; Jean-Pierre Segain
Journal:  Gastroenterology       Date:  2007-08-22       Impact factor: 22.682

9.  Ulcerative colitis and irritable bowel patients exhibit distinct abnormalities of the gut microbiota.

Authors:  Samah O Noor; Karyn Ridgway; Louise Scovell; E Katherine Kemsley; Elizabeth K Lund; Crawford Jamieson; Ian T Johnson; Arjan Narbad
Journal:  BMC Gastroenterol       Date:  2010-11-12       Impact factor: 3.067

10.  Barcoded pyrosequencing reveals that consumption of galactooligosaccharides results in a highly specific bifidogenic response in humans.

Authors:  Lauren M G Davis; Inés Martínez; Jens Walter; Caitlin Goin; Robert W Hutkins
Journal:  PLoS One       Date:  2011-09-26       Impact factor: 3.240
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  18 in total

1.  Ursodeoxycholic Acid and Its Taurine- or Glycine-Conjugated Species Reduce Colitogenic Dysbiosis and Equally Suppress Experimental Colitis in Mice.

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Journal:  Appl Environ Microbiol       Date:  2017-03-17       Impact factor: 4.792

2.  Comparison of anti-inflammatory mechanisms of mango (Mangifera Indica L.) and pomegranate (Punica Granatum L.) in a preclinical model of colitis.

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Review 3.  Shaping functional gut microbiota using dietary bioactives to reduce colon cancer risk.

Authors:  Derek V Seidel; M Andrea Azcárate-Peril; Robert S Chapkin; Nancy D Turner
Journal:  Semin Cancer Biol       Date:  2017-07-01       Impact factor: 15.707

4.  Dietary resveratrol attenuated colitis and modulated gut microbiota in dextran sulfate sodium-treated mice.

Authors:  Fang Li; Yanhui Han; Xiaokun Cai; Min Gu; Jin Sun; Ce Qi; Tim Goulette; Mingyue Song; Zhengze Li; Hang Xiao
Journal:  Food Funct       Date:  2020-01-29       Impact factor: 5.396

5.  Intestinal Microbiota Signatures Associated with Inflammation History in Mice Experiencing Recurring Colitis.

Authors:  David Berry; Orest Kuzyk; Isabella Rauch; Susanne Heider; Clarissa Schwab; Eva Hainzl; Thomas Decker; Mathias Müller; Birgit Strobl; Christa Schleper; Tim Urich; Michael Wagner; Lukas Kenner; Alexander Loy
Journal:  Front Microbiol       Date:  2015-12-15       Impact factor: 5.640

Review 6.  Bioactivity of Polyphenols: Preventive and Adjuvant Strategies toward Reducing Inflammatory Bowel Diseases-Promises, Perspectives, and Pitfalls.

Authors:  Anouk Kaulmann; Torsten Bohn
Journal:  Oxid Med Cell Longev       Date:  2016-07-10       Impact factor: 6.543

7.  Dietary Propolis Ameliorates Dextran Sulfate Sodium-Induced Colitis and Modulates the Gut Microbiota in Rats Fed a Western Diet.

Authors:  Kai Wang; Xiaolu Jin; Mengmeng You; Wenli Tian; Richard K Le Leu; David L Topping; Michael A Conlon; Liming Wu; Fuliang Hu
Journal:  Nutrients       Date:  2017-08-14       Impact factor: 5.717

8.  Impact of Novel Sorghum Bran Diets on DSS-Induced Colitis.

Authors:  Lauren E Ritchie; Stella S Taddeo; Brad R Weeks; Raymond J Carroll; Linda Dykes; Lloyd W Rooney; Nancy D Turner
Journal:  Nutrients       Date:  2017-03-27       Impact factor: 5.717

9.  High-polyphenol extracts from Sorghum bicolor attenuate replication of Legionella pneumophila within RAW 264.7 macrophages.

Authors:  Aubrey K Gilchrist; Dmitriy Smolensky; Tshegofatso Ngwaga; Deepika Chauhan; Sarah Cox; Ramasamy Perumal; Leela E Noronha; Stephanie R Shames
Journal:  FEMS Microbiol Lett       Date:  2020-04-01       Impact factor: 2.742

10.  Quinoa whole grain diet compromises the changes of gut microbiota and colonic colitis induced by dextran Sulfate sodium in C57BL/6 mice.

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