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Dietary Gluten-Induced Gut Dysbiosis Is Accompanied by Selective Upregulation of microRNAs with Intestinal Tight Junction and Bacteria-Binding Motifs in Rhesus Macaque Model of Celiac Disease
Dietary Gluten-Induced Gut Dysbiosis Is Accompanied by Selective Upregulation of microRNAs with Intestinal Tight Junction and Bacteria-Binding Motifs in Rhesus Macaque Model of Celiac Disease
by Dufour, Jason , Moehs, Charles , Ryan, Caitlin , Sestak, Karol , Mohan, Mahesh , Blanchard, James , Chan, Luisa , Chow, Cheryl-Emiliane , Aye, Pyone
in Animals / Bacteria / barley / binding sites / Biomarkers - metabolism / Celiac disease / Celiac Disease - immunology / Celiac Disease - metabolism / Celiac Disease - microbiology / Celiac Disease - pathology / Claudin-1 - antagonists & inhibitors / Claudin-1 - genetics / Claudin-1 - metabolism / Coriobacteriaceae / Diet / Disease Models, Animal / DNA / dysbiosis / Dysbiosis - immunology / Dysbiosis - metabolism / Dysbiosis - microbiology / Dysbiosis - pathology / feces / Feces - chemistry / Feces - microbiology / Female / Gastrointestinal Microbiome - immunology / Gene Expression Regulation / genes / Gluten / gluten-free diet / Glutens - adverse effects / health status / Hordeum vulgare / intestinal microorganisms / intestinal mucosa / Intestinal Mucosa - immunology / Intestinal Mucosa - metabolism / Intestinal Mucosa - microbiology / Intestinal Mucosa - pathology / jejunum / Jejunum - immunology / Jejunum - metabolism / Jejunum - microbiology / Jejunum - pathology / juveniles / Lactobacillaceae / Lactobacillus reuteri / Macaca / Macaca mulatta / Male / Metabolism / Metabolites / microbiome / Microbiota / Microorganisms / microRNA / MicroRNAs / MicroRNAs - chemistry / MicroRNAs - metabolism / monkeys / Monkeys & apes / Nucleotide Motifs / peers / Prevotella / Research centers / ribosomal RNA / RNA, Bacterial - metabolism / RNA, Ribosomal, 16S - metabolism / Small intestine / species diversity / Specific Pathogen-Free Organisms / Streptococcaceae / Streptococcus / Streptococcus luteciae / tight junctions / Tight Junctions - immunology / Tight Junctions - metabolism / Tight Junctions - pathology / Triticum aestivum / Vegetable Proteins - adverse effects / wheat
2016
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Dietary Gluten-Induced Gut Dysbiosis Is Accompanied by Selective Upregulation of microRNAs with Intestinal Tight Junction and Bacteria-Binding Motifs in Rhesus Macaque Model of Celiac Disease
by Dufour, Jason , Moehs, Charles , Ryan, Caitlin , Sestak, Karol , Mohan, Mahesh , Blanchard, James , Chan, Luisa , Chow, Cheryl-Emiliane , Aye, Pyone
in Animals / Bacteria / barley / binding sites / Biomarkers - metabolism / Celiac disease / Celiac Disease - immunology / Celiac Disease - metabolism / Celiac Disease - microbiology / Celiac Disease - pathology / Claudin-1 - antagonists & inhibitors / Claudin-1 - genetics / Claudin-1 - metabolism / Coriobacteriaceae / Diet / Disease Models, Animal / DNA / dysbiosis / Dysbiosis - immunology / Dysbiosis - metabolism / Dysbiosis - microbiology / Dysbiosis - pathology / feces / Feces - chemistry / Feces - microbiology / Female / Gastrointestinal Microbiome - immunology / Gene Expression Regulation / genes / Gluten / gluten-free diet / Glutens - adverse effects / health status / Hordeum vulgare / intestinal microorganisms / intestinal mucosa / Intestinal Mucosa - immunology / Intestinal Mucosa - metabolism / Intestinal Mucosa - microbiology / Intestinal Mucosa - pathology / jejunum / Jejunum - immunology / Jejunum - metabolism / Jejunum - microbiology / Jejunum - pathology / juveniles / Lactobacillaceae / Lactobacillus reuteri / Macaca / Macaca mulatta / Male / Metabolism / Metabolites / microbiome / Microbiota / Microorganisms / microRNA / MicroRNAs / MicroRNAs - chemistry / MicroRNAs - metabolism / monkeys / Monkeys & apes / Nucleotide Motifs / peers / Prevotella / Research centers / ribosomal RNA / RNA, Bacterial - metabolism / RNA, Ribosomal, 16S - metabolism / Small intestine / species diversity / Specific Pathogen-Free Organisms / Streptococcaceae / Streptococcus / Streptococcus luteciae / tight junctions / Tight Junctions - immunology / Tight Junctions - metabolism / Tight Junctions - pathology / Triticum aestivum / Vegetable Proteins - adverse effects / wheat
2016
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Dietary Gluten-Induced Gut Dysbiosis Is Accompanied by Selective Upregulation of microRNAs with Intestinal Tight Junction and Bacteria-Binding Motifs in Rhesus Macaque Model of Celiac Disease
Dietary Gluten-Induced Gut Dysbiosis Is Accompanied by Selective Upregulation of microRNAs with Intestinal Tight Junction and Bacteria-Binding Motifs in Rhesus Macaque Model of Celiac Disease
by Dufour, Jason , Moehs, Charles , Ryan, Caitlin , Sestak, Karol , Mohan, Mahesh , Blanchard, James , Chan, Luisa , Chow, Cheryl-Emiliane , Aye, Pyone
in Animals / Bacteria / barley / binding sites / Biomarkers - metabolism / Celiac disease / Celiac Disease - immunology / Celiac Disease - metabolism / Celiac Disease - microbiology / Celiac Disease - pathology / Claudin-1 - antagonists & inhibitors / Claudin-1 - genetics / Claudin-1 - metabolism / Coriobacteriaceae / Diet / Disease Models, Animal / DNA / dysbiosis / Dysbiosis - immunology / Dysbiosis - metabolism / Dysbiosis - microbiology / Dysbiosis - pathology / feces / Feces - chemistry / Feces - microbiology / Female / Gastrointestinal Microbiome - immunology / Gene Expression Regulation / genes / Gluten / gluten-free diet / Glutens - adverse effects / health status / Hordeum vulgare / intestinal microorganisms / intestinal mucosa / Intestinal Mucosa - immunology / Intestinal Mucosa - metabolism / Intestinal Mucosa - microbiology / Intestinal Mucosa - pathology / jejunum / Jejunum - immunology / Jejunum - metabolism / Jejunum - microbiology / Jejunum - pathology / juveniles / Lactobacillaceae / Lactobacillus reuteri / Macaca / Macaca mulatta / Male / Metabolism / Metabolites / microbiome / Microbiota / Microorganisms / microRNA / MicroRNAs / MicroRNAs - chemistry / MicroRNAs - metabolism / monkeys / Monkeys & apes / Nucleotide Motifs / peers / Prevotella / Research centers / ribosomal RNA / RNA, Bacterial - metabolism / RNA, Ribosomal, 16S - metabolism / Small intestine / species diversity / Specific Pathogen-Free Organisms / Streptococcaceae / Streptococcus / Streptococcus luteciae / tight junctions / Tight Junctions - immunology / Tight Junctions - metabolism / Tight Junctions - pathology / Triticum aestivum / Vegetable Proteins - adverse effects / wheat
2016

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Mohammed Bin Rashid Library /
Catalogue /
Dietary Gluten-Induced Gut Dysbiosis Is Accompanied by Selective Upregulation of microRNAs with Intestinal Tight Junction and Bacteria-Binding Motifs in Rhesus Macaque Model of Celiac Disease
Dietary Gluten-Induced Gut Dysbiosis Is Accompanied by Selective Upregulation of microRNAs with Intestinal Tight Junction and Bacteria-Binding Motifs in Rhesus Macaque Model of Celiac Disease
Journal Article

Dietary Gluten-Induced Gut Dysbiosis Is Accompanied by Selective Upregulation of microRNAs with Intestinal Tight Junction and Bacteria-Binding Motifs in Rhesus Macaque Model of Celiac Disease

Dufour, Jason,
Moehs, Charles,
Ryan, Caitlin,
Sestak, Karol,
Mohan, Mahesh,
Blanchard, James,
Chan, Luisa,
Chow, Cheryl-Emiliane,
Aye, Pyone
2016
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Overview
The composition of the gut microbiome reflects the overall health status of the host. In this study, stool samples representing the gut microbiomes from 6 gluten-sensitive (GS) captive juvenile rhesus macaques were compared with those from 6 healthy, age- and diet-matched peers. A total of 48 samples representing both groups were studied using V4 16S rRNA gene DNA analysis. Samples from GS macaques were further characterized based on type of diet administered: conventional monkey chow, i.e., wheat gluten-containing diet (GD), gluten-free diet (GFD), barley gluten-derived diet (BOMI) and reduced gluten barley-derived diet (RGB). It was hypothesized that the GD diet would lower the gut microbial diversity in GS macaques. This is the first report illustrating the reduction of gut microbial alpha-diversity (p < 0.05) following the consumption of dietary gluten in GS macaques. Selected bacterial families (e.g., Streptococcaceae and Lactobacillaceae) were enriched in GS macaques while Coriobacteriaceae was enriched in healthy animals. Within several weeks after the replacement of the GD by the GFD diet, the composition (beta-diversity) of gut microbiome in GS macaques started to change (p = 0.011) towards that of a normal macaque. Significance for alpha-diversity however, was not reached by the day 70 when the feeding experiment ended. Several inflammation-associated microRNAs (miR-203, -204, -23a, -23b and -29b) were upregulated (p < 0.05) in jejunum of 4 biopsied GS macaques fed GD with predicted binding sites on 16S ribosomal RNA of Lactobacillus reuteri (accession number: NR_025911), Prevotella stercorea (NR_041364) and Streptococcus luteciae (AJ297218) that were overrepresented in feces. Additionally, claudin-1, a validated tight junction protein target of miR-29b was significantly downregulated in jejunal epithelium of GS macaques. Taken together, we predict that with the introduction of effective treatments in future studies the diversity of gut microbiomes in GS macaques will approach those of healthy individuals. Further studies are needed to elucidate the regulatory pathways of inflammatory miRNAs in intestinal mucosa of GS macaques and to correlate their expression with gut dysbiosis.
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MDPI AG,MDPI
Subject

Animals

/ Bacteria

/ barley

/ binding sites

/ Biomarkers - metabolism

/ Celiac disease

/ Celiac Disease - immunology

/ Celiac Disease - metabolism

/ Celiac Disease - microbiology

/ Celiac Disease - pathology

/ Claudin-1 - antagonists & inhibitors

/ Claudin-1 - genetics

/ Claudin-1 - metabolism

/ Coriobacteriaceae

/ Diet

/ Disease Models, Animal

/ DNA

/ dysbiosis

/ Dysbiosis - immunology

/ Dysbiosis - metabolism

/ Dysbiosis - microbiology

/ Dysbiosis - pathology

/ feces

/ Feces - chemistry

/ Feces - microbiology

/ Female

/ Gastrointestinal Microbiome - immunology

/ Gene Expression Regulation

/ genes

/ Gluten

/ gluten-free diet

/ Glutens - adverse effects

/ health status

/ Hordeum vulgare

/ intestinal microorganisms

/ intestinal mucosa

/ Intestinal Mucosa - immunology

/ Intestinal Mucosa - metabolism

/ Intestinal Mucosa - microbiology

/ Intestinal Mucosa - pathology

/ jejunum

/ Jejunum - immunology

/ Jejunum - metabolism

/ Jejunum - microbiology

/ Jejunum - pathology

/ juveniles

/ Lactobacillaceae

/ Lactobacillus reuteri

/ Macaca

/ Macaca mulatta

/ Male

/ Metabolism

/ Metabolites

/ microbiome

/ Microbiota

/ Microorganisms

/ microRNA

/ MicroRNAs

/ MicroRNAs - chemistry

/ MicroRNAs - metabolism

/ monkeys

/ Monkeys & apes

/ Nucleotide Motifs

/ peers

/ Prevotella

/ Research centers

/ ribosomal RNA

/ RNA, Bacterial - metabolism

/ RNA, Ribosomal, 16S - metabolism

/ Small intestine

/ species diversity

/ Specific Pathogen-Free Organisms

/ Streptococcaceae

/ Streptococcus

/ Streptococcus luteciae

/ tight junctions

/ Tight Junctions - immunology

/ Tight Junctions - metabolism

/ Tight Junctions - pathology

/ Triticum aestivum

/ Vegetable Proteins - adverse effects

/ wheat

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