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Berberine alters gut microbial function through modulation of bile acids
Berberine alters gut microbial function through modulation of bile acids
by Kakiyama, Genta , McCracken, Vance J. , Ridlon, Jason M. , Moore, Tyler , Kashyap, Purna , Wolf, Patricia G. , Ly, Lindsey K. , Kurosawa, Takao , Green, Stefan J. , Nittono, Hiroshi , Gaskins, H. Rex , Chlipala, George E. , Doden, Heidi L. , Takei, Hajime , Devendran, Saravanan , Murai, Tsuyoshi , Gillevet, Patrick M.
in Amino acids / Animal models / Animals / Bacteria / Bacteria - classification / Bacteria - drug effects / Bacteria - genetics / Bacteria - isolation & purification / Bacterial Proteins - genetics / Bacteroides / Berberine / Berberine - administration & dosage / Berberine - pharmacology / Bile / Bile acids / Bile Acids and Salts - metabolism / Biological Microscopy / Biomedical and Life Sciences / Carbohydrate metabolism / Carbohydrates / Cecum / Cell walls / Cholesterol / Clostridium / Consortia / Correlation analysis / Datasets / Dehydrogenases / Deoxycholic acid / Diarrhea / Dietary supplements / Digestive system / DNA, Bacterial - genetics / DNA, Ribosomal - genetics / Female / Functional foods / Functional foods & nutraceuticals / Gastrointestinal Microbiome - drug effects / Gastrointestinal system / Gastrointestinal tract / Gene expression / Gene Expression Profiling / Gene Expression Regulation, Bacterial - drug effects / Gnotobiotic mice / Gut bacteria / Health aspects / Intestinal microflora / Kinases / Life Sciences / Lipids / Liver / Male / Metabolism / Metabolites / Metabolomics / Mice / Microbe-host interactions and microbial pathogenicity / Microbiology / Microbiomes / Microbiota (Symbiotic organisms) / Microorganisms / Mycology / Na+/H+-exchanging ATPase / Network analysis / Network topologies / Nutraceutical / Parasitology / Physiological aspects / Physiological effects / Research Article / RNA, Ribosomal, 16S - genetics / rRNA 16S / Sequence Analysis, RNA / Sequences / Species Specificity / Structure-function relationships / Synthesis / Topology / Virology
2021
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Berberine alters gut microbial function through modulation of bile acids
by Kakiyama, Genta , McCracken, Vance J. , Ridlon, Jason M. , Moore, Tyler , Kashyap, Purna , Wolf, Patricia G. , Ly, Lindsey K. , Kurosawa, Takao , Green, Stefan J. , Nittono, Hiroshi , Gaskins, H. Rex , Chlipala, George E. , Doden, Heidi L. , Takei, Hajime , Devendran, Saravanan , Murai, Tsuyoshi , Gillevet, Patrick M.
in Amino acids / Animal models / Animals / Bacteria / Bacteria - classification / Bacteria - drug effects / Bacteria - genetics / Bacteria - isolation & purification / Bacterial Proteins - genetics / Bacteroides / Berberine / Berberine - administration & dosage / Berberine - pharmacology / Bile / Bile acids / Bile Acids and Salts - metabolism / Biological Microscopy / Biomedical and Life Sciences / Carbohydrate metabolism / Carbohydrates / Cecum / Cell walls / Cholesterol / Clostridium / Consortia / Correlation analysis / Datasets / Dehydrogenases / Deoxycholic acid / Diarrhea / Dietary supplements / Digestive system / DNA, Bacterial - genetics / DNA, Ribosomal - genetics / Female / Functional foods / Functional foods & nutraceuticals / Gastrointestinal Microbiome - drug effects / Gastrointestinal system / Gastrointestinal tract / Gene expression / Gene Expression Profiling / Gene Expression Regulation, Bacterial - drug effects / Gnotobiotic mice / Gut bacteria / Health aspects / Intestinal microflora / Kinases / Life Sciences / Lipids / Liver / Male / Metabolism / Metabolites / Metabolomics / Mice / Microbe-host interactions and microbial pathogenicity / Microbiology / Microbiomes / Microbiota (Symbiotic organisms) / Microorganisms / Mycology / Na+/H+-exchanging ATPase / Network analysis / Network topologies / Nutraceutical / Parasitology / Physiological aspects / Physiological effects / Research Article / RNA, Ribosomal, 16S - genetics / rRNA 16S / Sequence Analysis, RNA / Sequences / Species Specificity / Structure-function relationships / Synthesis / Topology / Virology
2021
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Berberine alters gut microbial function through modulation of bile acids
Berberine alters gut microbial function through modulation of bile acids
by Kakiyama, Genta , McCracken, Vance J. , Ridlon, Jason M. , Moore, Tyler , Kashyap, Purna , Wolf, Patricia G. , Ly, Lindsey K. , Kurosawa, Takao , Green, Stefan J. , Nittono, Hiroshi , Gaskins, H. Rex , Chlipala, George E. , Doden, Heidi L. , Takei, Hajime , Devendran, Saravanan , Murai, Tsuyoshi , Gillevet, Patrick M.
in Amino acids / Animal models / Animals / Bacteria / Bacteria - classification / Bacteria - drug effects / Bacteria - genetics / Bacteria - isolation & purification / Bacterial Proteins - genetics / Bacteroides / Berberine / Berberine - administration & dosage / Berberine - pharmacology / Bile / Bile acids / Bile Acids and Salts - metabolism / Biological Microscopy / Biomedical and Life Sciences / Carbohydrate metabolism / Carbohydrates / Cecum / Cell walls / Cholesterol / Clostridium / Consortia / Correlation analysis / Datasets / Dehydrogenases / Deoxycholic acid / Diarrhea / Dietary supplements / Digestive system / DNA, Bacterial - genetics / DNA, Ribosomal - genetics / Female / Functional foods / Functional foods & nutraceuticals / Gastrointestinal Microbiome - drug effects / Gastrointestinal system / Gastrointestinal tract / Gene expression / Gene Expression Profiling / Gene Expression Regulation, Bacterial - drug effects / Gnotobiotic mice / Gut bacteria / Health aspects / Intestinal microflora / Kinases / Life Sciences / Lipids / Liver / Male / Metabolism / Metabolites / Metabolomics / Mice / Microbe-host interactions and microbial pathogenicity / Microbiology / Microbiomes / Microbiota (Symbiotic organisms) / Microorganisms / Mycology / Na+/H+-exchanging ATPase / Network analysis / Network topologies / Nutraceutical / Parasitology / Physiological aspects / Physiological effects / Research Article / RNA, Ribosomal, 16S - genetics / rRNA 16S / Sequence Analysis, RNA / Sequences / Species Specificity / Structure-function relationships / Synthesis / Topology / Virology
2021

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Berberine alters gut microbial function through modulation of bile acids
Berberine alters gut microbial function through modulation of bile acids
Journal Article

Berberine alters gut microbial function through modulation of bile acids

Kakiyama, Genta,
McCracken, Vance J.,
Ridlon, Jason M.,
Moore, Tyler,
Kashyap, Purna,
Wolf, Patricia G.,
Ly, Lindsey K.,
Kurosawa, Takao,
Green, Stefan J.,
Nittono, Hiroshi,
Gaskins, H. Rex,
Chlipala, George E.,
Doden, Heidi L.,
Takei, Hajime,
Devendran, Saravanan,
Murai, Tsuyoshi,
Gillevet, Patrick M.
2021
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Overview
Background Berberine (BBR) is a plant-based nutraceutical that has been used for millennia to treat diarrheal infections and in contemporary medicine to improve patient lipid profiles. Reduction in lipids, particularly cholesterol, is achieved partly through up-regulation of bile acid synthesis and excretion into the gastrointestinal tract (GI). The efficacy of BBR is also thought to be dependent on structural and functional alterations of the gut microbiome. However, knowledge of the effects of BBR on gut microbiome communities is currently lacking. Distinguishing indirect effects of BBR on bacteria through altered bile acid profiles is particularly important in understanding how dietary nutraceuticals alter the microbiome. Results Germfree mice were colonized with a defined minimal gut bacterial consortium capable of functional bile acid metabolism ( Bacteroides vulgatus, Bacteroides uniformis, Parabacteroides distasonis, Bilophila wadsworthia, Clostridium hylemonae, Clostridium hiranonis, Blautia producta ; B4PC2). Multi-omics (bile acid metabolomics, 16S rDNA sequencing, cecal metatranscriptomics) were performed in order to provide a simple in vivo model from which to identify network-based correlations between bile acids and bacterial transcripts in the presence and absence of dietary BBR. Significant alterations in network topology and connectivity in function were observed, despite similarity in gut microbial alpha diversity ( P =  0.30) and beta-diversity ( P  = 0.123) between control and BBR treatment. BBR increased cecal bile acid concentrations, ( P <  0.05), most notably deoxycholic acid (DCA) (P  < 0.001). Overall, analysis of transcriptomes and correlation networks indicates both bacterial species-specific responses to BBR, as well as functional commonalities among species, such as up-regulation of Na + /H + antiporter, cell wall synthesis/repair, carbohydrate metabolism and amino acid metabolism. Bile acid concentrations in the GI tract increased significantly during BBR treatment and developed extensive correlation networks with expressed genes in the B4PC2 community. Conclusions This work has important implications for interpreting the effects of BBR on structure and function of the complex gut microbiome, which may lead to targeted pharmaceutical interventions aimed to achieve the positive physiological effects previously observed with BBR supplementation.
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Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject

Amino acids

/ Animal models

/ Animals

/ Bacteria

/ Bacteria - classification

/ Bacteria - drug effects

/ Bacteria - genetics

/ Bacteria - isolation & purification

/ Bacterial Proteins - genetics

/ Bacteroides

/ Berberine

/ Berberine - administration & dosage

/ Berberine - pharmacology

/ Bile

/ Bile acids

/ Bile Acids and Salts - metabolism

/ Biological Microscopy

/ Biomedical and Life Sciences

/ Carbohydrate metabolism

/ Carbohydrates

/ Cecum

/ Cell walls

/ Cholesterol

/ Clostridium

/ Consortia

/ Correlation analysis

/ Datasets

/ Dehydrogenases

/ Deoxycholic acid

/ Diarrhea

/ Dietary supplements

/ Digestive system

/ DNA, Bacterial - genetics

/ DNA, Ribosomal - genetics

/ Female

/ Functional foods

/ Functional foods & nutraceuticals

/ Gastrointestinal Microbiome - drug effects

/ Gastrointestinal system

/ Gastrointestinal tract

/ Gene expression

/ Gene Expression Profiling

/ Gene Expression Regulation, Bacterial - drug effects

/ Gnotobiotic mice

/ Gut bacteria

/ Health aspects

/ Intestinal microflora

/ Kinases

/ Life Sciences

/ Lipids

/ Liver

/ Male

/ Metabolism

/ Metabolites

/ Metabolomics

/ Mice

/ Microbe-host interactions and microbial pathogenicity

/ Microbiology

/ Microbiomes

/ Microbiota (Symbiotic organisms)

/ Microorganisms

/ Mycology

/ Na+/H+-exchanging ATPase

/ Network analysis

/ Network topologies

/ Nutraceutical

/ Parasitology

/ Physiological aspects

/ Physiological effects

/ Research Article

/ RNA, Ribosomal, 16S - genetics

/ rRNA 16S

/ Sequence Analysis, RNA

/ Sequences

/ Species Specificity

/ Structure-function relationships

/ Synthesis

/ Topology

/ Virology

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