Your search keyword '"Blautia"' showing total 51 results

1. A distinct immunophenotype in children carrying the Blautia enterotype: The Generation R study.

Author

Grosserichter-Wagener C, Looman KIM, Beth SA, Radjabzadeh D, Gill PA, Smit KN, Duijts L, Kiefte-de Jong JC, Kraaij R, Moll HA, and van Zelm MC

Subjects

Humans, Child, Female, Male, RNA, Ribosomal, 16S genetics, B-Lymphocytes immunology, Feces microbiology, T-Lymphocyte Subsets immunology, Clostridiales immunology, Clostridiales genetics, Integrin beta Chains, Gastrointestinal Microbiome immunology, Gastrointestinal Microbiome genetics, Immunophenotyping

Abstract

Objective: Studies in mouse models and human adults have shown that the intestinal microbiota composition can affect peripheral immune cells. We here examined whether the gut microbiota compositions affect B and T-cell subsets in children., Methods: The intestinal microbiota was characterized from stool samples of 344 10-year-old children from the Generation R Study by performing 16S rRNA sequencing. Bray-Curtis dissimilarity was used to cluster distinct microbiome compositions (enterotypes). B-cell and T-cell phenotypes were defined by 11-color-flow cytometry. Linear regression models with adjustment for lifestyle and child characteristics were performed to determine associations between enterotypes and immune cell numbers., Results: Three enterotypes with distinct microbiota composition were found, characterized by high abundance of Prevotella, Bacteroides and Blautia. Children with the Blautia enterotype had decreased numbers of plasmablasts, CD4 + central memory (Tcm) T cells and follicular T-helper cells (Tfh), while Th22 cells and CD4 + effector memory (Tem) T cells, CD27 - IgA + memory B cells and CD27 - IgE + memory B cells, were increased in these children. In addition, in children with the Blautia enterotype CD4 + Tcm cell numbers expressing the β7 integrin, which can pair with α4 to mediate intestinal homing were also lower, while CD4 + β7 + Tem cell numbers were higher than in the other enterotypes., Conclusion: The Blautia enterotype showed features beneficial for human health. Enterotypes were associated with differences in memory B- and T-cell compartments. This study is unique in the detailed analysis of the B and T-cell compartment and the intestinal microbiome in a large generic pediatric cohort, enabling correction for child and maternal covariates. These outcomes could guide further studies about the impact of intestinal microbiome intervention, for instance through diet and microbiota metabolites such as short chain fatty acid production., Competing Interests: Declaration of competing interest All authors declare that no competing interests exist. The funders had no role in the design or conduct of the study; the collection of the data and analyses; the interpretation of data; the preparation and review or approval of the manuscript; or the decision to submit the manuscript., (Copyright © 2025 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2025

2. Identification of novel fructo-oligosaccharide bacterial consumers by pulse metatranscriptomics in a human stool sample.

Author

Prattico C, Gonzalez E, Dridi L, Jazestani S, Low KE, Abbott DW, Maurice CF, and Castagner B

Subjects

Humans, Gene Expression Profiling, Metagenomics methods, Fermentation, RNA, Ribosomal, 16S genetics, Transcriptome, Dietary Fiber metabolism, Feces microbiology, Gastrointestinal Microbiome, Oligosaccharides metabolism, Bacteria genetics, Bacteria classification, Bacteria metabolism, Bacteria isolation & purification, Prebiotics

Abstract

Dietary fibers influence the composition of the human gut microbiota and directly contribute to its downstream effects on host health. As more research supports the use of glycans as prebiotics for therapeutic applications, the need to identify the gut bacteria that metabolize glycans of interest increases. Fructo-oligosaccharide (FOS) is a common diet-derived glycan that is fermented by the gut microbiota and has been used as a prebiotic. Despite being well studied, we do not yet have a complete picture of all FOS-consuming gut bacterial taxa. To identify new bacterial consumers, we used a short exposure of microbial communities in a stool sample to FOS or galactomannan as the sole carbon source to induce glycan metabolism genes. We then performed metatranscriptomics, paired with whole metagenomic sequencing, and 16S amplicon sequencing. The short incubation was sufficient to cause induction of genes involved in carbohydrate metabolism, like carbohydrate-active enzymes (CAZymes), including glycoside hydrolase family 32 genes, which hydrolyze fructan polysaccharides like FOS and inulin. Interestingly, FOS metabolism transcripts were notably overexpressed in Blautia species not previously reported to be fructan consumers. We therefore validated the ability of different Blautia species to ferment fructans by monitoring their growth and fermentation in defined media. This pulse metatranscriptomics approach is a useful method to find novel consumers of prebiotics and increase our understanding of prebiotic metabolism by CAZymes in the gut microbiota., Importance: Complex carbohydrates are key contributors to the composition of the human gut microbiota and play an essential role in the microbiota's effects on host health. Understanding which bacteria consume complex carbohydrates, or glycans, provides a mechanistic link between dietary prebiotics and their beneficial health effects, an essential step for their therapeutic application. Here, we used a pulse metatranscriptomics pipeline to identify bacterial consumers based on glycan metabolism induction in a human stool sample. We identified novel consumers of fructo-oligosaccharide among Blautia species, expanding our understanding of this well-known glycan. Our approach can be applied to identify consumers of understudied glycans and expand our prebiotic repertoire. It can also be used to study prebiotic glycans directly in stool samples in distinct patient populations to help delineate the prebiotic mechanism., Competing Interests: The authors declare no conflict of interest.

Published

2025

3. Draft genome of a human gut-derived Blautia sp. that ameliorates colitis and colitis-associated sociability deficits in mice.

Author

Murphy MA, Brown DG, Bell RS, Weis AM, Barrios LA, Stephens WZ, and Round JL

Abstract

Blautia is a genus of anaerobic, gram-positive bacteria commonly found in mammalian gastrointestinal tracts. Yet, how variations among different Blautia strains can impact host health is poorly understood. We present a Blautia sp. genome isolated from human feces whose supplementation to mice can ameliorate colitis severity and associated sociability deficits., Competing Interests: The authors declare no conflict of interest.

Published

2025

4. The intestinal microbiome, but not clinical aspects of inflammatory bowel disease, is impacted by lactose malabsorption compared to lactose digestion in children.

Author

Cohen A, Li J, Butcher J, Singleton R, Barbeau P, Stintzi A, and Mack DR

Subjects

Humans, Child, Adolescent, Female, Male, Cross-Sectional Studies, Digestion, Crohn Disease microbiology, Crohn Disease metabolism, Colitis, Ulcerative microbiology, Colitis, Ulcerative metabolism, Lactose Intolerance metabolism, Lactose metabolism, Gastrointestinal Microbiome, Inflammatory Bowel Diseases microbiology, Inflammatory Bowel Diseases metabolism

Abstract

Background: Dietary exclusion of lactose from patients with inflammatory bowel disease (IBD) persists with speculation that deleterious effects are mediated through intestinal microbes., Objectives: To compare IBD characteristics and changes in the intestinal microbiome (IM) at diagnosis in children with and without lactose malabsorption (LM)., Methods: A cross-sectional cohort of children (8-17 y of age) diagnosed with Crohn's disease [n = 149 (63%)] or ulcerative colitis (n = 86) that had undergone lactose breath hydrogen testing was evaluated. The IM of mucosal luminal aspirates was profiled at the time of diagnosis using 16S ribosomal ribonucleic acid gene amplicon sequencing of the V6 hypervariable region., Results: Of the 235 children, 61 (26%) had LM. Microbial characterization yielded differences in bacterial differential abundance between children who could and could not absorb lactose, which varied by intestinal site and between subtypes of IBD. There were no differences in the ages [13.2 ± 3.0 y (mean ± standard deviation) compared with 12.7 ± 3.4 y; P = 0.25], sex (P = 0.88), extent of disease involvement or severity of disease at presentation (P = 0.74) when comparing those that could or could not absorb lactose nor was there a difference in the need for initiation of biological agents (P = 0.43) during 2 y of follow-up., Conclusions: LM does not affect the clinical presentation or outcomes of children with IBD. However, this study establishes that a single nonabsorbed fermentable food product can alter the IM in both a regional and disease-specific manner. As we continue to learn more about the pathophysiology of IBD and the role of the IM in disease onset and progression, it would be of benefit to examine the impact of other potential fermentable nutrients and their products on IBD outcomes., Competing Interests: Conflict of interest AS and DRM are co-founders of MedBiome, Inc. All other authors report no conflicts of interest., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

5. Effect of Postbiotic Bifidobacterium longum CECT 7347 on Gastrointestinal Symptoms, Serum Biochemistry, and Intestinal Microbiota in Healthy Adults: A Randomised, Parallel, Double-Blind, Placebo-Controlled Pilot Study.

Author

Naghibi M, Pont-Beltran A, Lamelas A, Llobregat L, Martinez-Blanch JF, Rojas A, Álvarez B, López Plaza B, Arcos Castellanos L, Chenoll E, Vijayakumar V, and Day R

Subjects

Humans, Double-Blind Method, Pilot Projects, Male, Adult, Female, Middle Aged, Quality of Life, Irritable Bowel Syndrome microbiology, Irritable Bowel Syndrome blood, Irritable Bowel Syndrome therapy, Young Adult, Leukocyte L1 Antigen Complex analysis, Leukocyte L1 Antigen Complex blood, Gastrointestinal Microbiome, Bifidobacterium longum, Probiotics administration & dosage, Feces microbiology

Abstract

Objectives: A randomised, double-blind, placebo-controlled pilot trial was conducted to assess the effect of heat-treated Bifidobacterium longum CECT 7347 (HT-ES1) in healthy adults with mild to moderate digestive symptoms. A total of 60 participants were recruited and received either HT-ES1 or an identical placebo for 8 weeks with a further follow-up at week 10., Methods: This study monitored changes in the total Gastrointestinal Symptom Rating Scale for IBS score (GSRS-IBS), Irritable Bowel Syndrome Symptom Severity Scale (IBS-SSS), IBS Quality of Life index (IBS-QoL), gut microbiome using 16S rRNA sequencing, and the Visceral Sensitivity Index, as well as a range of biochemical markers, anthropometric parameters, and adverse events., Results: While minimal changes were observed in gastrointestinal (GI) symptoms, the HT-ES1 group showed a significant decrease in total and non-HDL cholesterol compared to the placebo. The intervention group also exhibited a significant increase in the abundance of the genera Faecalibacterium and Anaerobutyricum , both of which were positively correlated with butyrate concentrations. Faecal calprotectin significantly increased over time in the placebo group but remained stable in the HT-ES1 group., Conclusions: Overall, these findings suggest that HT-ES1 may promote gut health by increasing butyrate-producing bacteria in the gut, maintaining normal levels of faecal calprotectin and reducing serum cholesterol.

Published

2024

6. Unveiling the therapeutic potential and mechanism of inulin in DSS-induced colitis mice.

Author

Niu B, Li F, Lv X, Xiao Y, Zhu J, Zhao J, Lu W, and Chen W

Subjects

Animals, Mice, Male, Humans, Probiotics pharmacology, Probiotics therapeutic use, Colon pathology, Colon drug effects, Colon microbiology, Colon metabolism, Fatty Acids, Volatile metabolism, Mice, Inbred C57BL, Inulin pharmacology, Colitis chemically induced, Colitis drug therapy, Colitis microbiology, Dextran Sulfate, Gastrointestinal Microbiome drug effects, Disease Models, Animal, Cytokines metabolism

Abstract

Inulin has been reported to alleviate colitis. In this study, colitis patients' feces were used to simulate fermentation to demonstrate changes in the microbiota profile in the presence of inulin. We found inulin can reshape the gut microbiota profile of colitis patients, especially by altering the abundance of Faecalibacterium and Blautia. Interestingly, the subsequent co-culture with inulin demonstrated that inulin promoted the growth of these two strains of bacteria. The dextran sodium sulfate (DSS)-induced mouse model was used to examine the effect of inulin and its combination with two probiotics on colitis. Results showed that all three treatments can alleviate the clinical symptoms, including weight-losing, colon-shortening, and the Disease Activity Index (DAI) score. Further investigations showed that the administrations regulate colitis mice's pro- and anti-inflammatory cytokines, such as TNF-α, IL-1β, IL-6, IL-10, and IL-17. Also, they alter the relative abundance of Faecalibacterium and Blautia, change the short-chain fatty acids (SCFAs) profile in the cecum and colon, and improve the intestinal barrier; specifically, the intervention increased the expressions of Claudin, Occludin, Zonula Occludens (ZO)-1, and Mucin (MUC)-2 in colonic tissues, thus restoring the colonic tissue structure and morphology of colitis mice. Collectively, our results confirm that inulin can alter the colitis patients' characteristic microbial community, and they can ameliorate experimental colitis by inhibiting the TRL4/MyD88/NF-κB signaling pathway-improving the inflammatory response and enhancing the intestinal barrier. In conclusion, we propose that inulin may hold promise as a functional food therapeutic approach for the treatment of colitis., Competing Interests: Declaration of competing interest There is no declaration of interest statement., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

7. The Ambiguous Correlation of Blautia with Obesity: A Systematic Review.

Author

Chanda W, Jiang H, and Liu SJ

Abstract

Obesity is a complex and multifactorial disease with global epidemic proportions, posing significant health and economic challenges. Whilst diet and lifestyle are well-established contributors to the pathogenesis, the gut microbiota's role in obesity development is increasingly recognized. Blautia , as one of the major intestinal bacteria of the Firmicutes phylum, is reported with both potential probiotic properties and causal factors for obesity in different studies, making its role controversial. To summarize the current understanding of the Blautia -obesity correlation and to evaluate the evidence from animal and clinical studies, we used " Blautia " AND "obesity" as keywords searching through PubMed and SpringerLink databases for research articles. After removing duplicates and inadequate articles using the exclusion criteria, we observed different results between studies supporting and opposing the beneficial role of Blautia in obesity at the genus level. Additionally, several studies showed probiotic effectiveness at the species level for Blautia coccoides , B. wexlerae , B. hansenii , B. producta , and B. luti . Therefore, the current evidence does not demonstrate Blautia 's direct involvement as a pathogenic microbe in obesity development or progression, which informs future research and therapeutic strategies targeting the gut Blautia in obesity management.

Published

2024

8. Phylogenetic diversity of putative nickel-containing carbon monoxide dehydrogenase-encoding prokaryotes in the human gut microbiome.

Author

Katayama YA, Kamikawa R, and Yoshida T

Subjects

Humans, Bacterial Proteins genetics, Bacterial Proteins metabolism, Aldehyde Oxidoreductases genetics, Aldehyde Oxidoreductases metabolism, Gastrointestinal Microbiome genetics, Phylogeny, Nickel metabolism, Carbon Monoxide metabolism, Multienzyme Complexes genetics, Bacteria genetics, Bacteria classification, Bacteria enzymology, Bacteria isolation & purification

Abstract

Although the production of carbon monoxide (CO) within the human body has been detected, only two CO-utilizing prokaryotes (CO utilizers) have been reported in the human gut. Therefore, the phylogenetic diversity of the human gut CO-utilizing prokaryotes remains unclear. Here, we unveiled more than a thousand representative genomes containing genes for putative nickel-containing CO dehydrogenase (pCODH), an essential enzyme for CO utilization. The taxonomy of genomes encoding pCODH was expanded to include 8 phyla, comprising 82 genera and 248 species. In contrast, putative molybdenum-containing CODH genes were not detected in the human gut microbial genomes. pCODH transcripts were detected in 97.3 % ( n =110) of public metatranscriptome datasets derived from healthy human faeces, suggesting the ubiquitous presence of prokaryotes bearing transcriptionally active pCODH genes in the human gut. More than half of the pCODH-encoding genomes contain a set of genes for the autotrophic Wood-Ljungdahl pathway (WLP). However, 79 % of these genomes commonly lack a key gene for the WLP, which encodes the enzyme that synthesizes formate from CO 2 , suggesting that potential human gut CO-utilizing prokaryotes share a degenerated gene set for WLP. In the other half of the pCODH-encoding genomes, seven genes, including putative genes for flavin adenine dinucleotide-dependent NAD(P) oxidoreductase (FNOR), ABC transporter and Fe-hydrogenase, were found adjacent to the pCODH gene. None of the putative genes associated with CO-oxidizing respiratory machinery, such as energy-converting hydrogenase genes, were found in pCODH-encoding genomes. This suggests that the human gut CO utilization is not for CO removal, but potentially for fixation and/or biosynthesis, consistent with the harmless yet continuous production of CO in the human gut. Our findings reveal the diversity and distribution of prokaryotes with pCODH in the human gut microbiome, suggesting their potential contribution to microbial ecosystems in human gut environments.

Published

2024

9. Relationship Between the Gut Microbiota and Neurological Deficits in Patients With Cerebral Ischemic Stroke.

Author

Bao W, Sun Y, Wang J, Wei S, Mao L, Zheng J, Liu P, Yang X, and Chen Z

Subjects

Humans, Male, Female, Middle Aged, Aged, Severity of Illness Index, Feces microbiology, RNA, Ribosomal, 16S, Gastrointestinal Microbiome physiology, Ischemic Stroke microbiology, Ischemic Stroke complications

Abstract

Objective: The aim of the paper was to investigate the composition and structure of intestinal flora in patients with cerebral ischemic stroke (CIS), and to investigate the relationship between gut microbiota (GM) and different levels of stroke severity., Methods: In this study, 47 CIS patients (16 mild, 21 moderate, and 10 severe) and 15 healthy controls were included. General information, clinical data, and behavioral scores of the enrolled subjects were collected. Deoxyribonucleic acid in fecal intestinal flora was extracted and detected using high-throughput Illumina 16S ribosomal ribonucleic acid sequencing technology. Finally, the correlation between the community composition of intestinal microbiota and National Institutes of Health Stroke Scale (NIHSS) score in CIS patients was analyzed., Results: Compared with healthy controls, there was no statistically significant difference in Alpha diversity among CIS patients, but the principal coordinate analysis showed significant differences in the composition of the GM among stroke patients with different degrees of severity and controls. In CIS patients, Streptococcus was significantly enriched, and Eshibacter-Shigella, Bacteroides, and Agathobacter were significantly down-regulated ( P  < .05). In addition, the relative abundance of Blautia was negatively correlated with the NIHSS score., Conclusions: Our results show that different degrees of CIS severity exert distinct effects on the intestinal microbiome. This study reveals the intestinal microecological changes after brain injury from the perspective of brain-gut axis. Intestinal microorganisms not only reveal the possible pathological process and indicate the severity of neurologic impairment, but also make targeted therapy possible for CIS patients., Competing Interests: Declaration of Conflicting InterestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

10. Placebo-resistant gut bacteria: Akkermansia muciniphila spp. and Familial Mediterranean fever disease.

Author

Pepoyan E, Marotta F, Manvelyan A, Galstyan A, Stepanyan L, Grigoryan H, Grigoryan L, Mikayelyan M, Balayan M, Harutyunyan N, Mirzabekyan S, Tsaturyan V, Torok T, and Pepoyan A

Subjects

Humans, Male, Akkermansia, Bacteria, Adolescent, Young Adult, Adult, Middle Aged, Familial Mediterranean Fever drug therapy, Familial Mediterranean Fever microbiology, Gastrointestinal Microbiome, Probiotics pharmacology

Abstract

Introduction: Despite numerous investigations into the impact of drugs/probiotics on the gut microbiota composition in Familial Mediterranean Fever (FMF) patients, the question as to whether there exists a significant bacterial diversity(ies) independent of the placebo effect that can be reliably considered in clinical and nutritional trials remains unresolved., Methods: This study represents the in augural analysis of the placebo's influence on the gut microbiota of both healthy individuals and FMF afflicted men, utilizing previously collected data from PhyloChip™ DNA microarray experiments. A total of 15 healthy and 15 FMF male volunteers, aged 18 to 50, participated in this partially randomized placebo trial, which is accessible through the GEO Series accession number GSE111835., Results and Discussion: Key findings from current investigations include i. the anticipated divergence in gut bacteria resistance to placebo between healthy and FMF individuals, ii. the minor impact of placebo on gut bacterial diversities in healthy individuals, with Enterobacteriaceae diversities identified as placebo-resistant among "healthy" gut bacteria, and iii. the comprehensive influence of placebo on all bacterial phyla in the gut microbiome of FMF patients, extending to nearly all bacterial genera, except for the resilience of gut Akkermansia muciniphila spp. to placebo in FMF patients. This study underscores the susceptibility of Faecalibacterium , Blautia , and Clostridium genera to placebo. Consequently, this investigation holds significance for the proper design of placebo-controlled trials and establishes a foundation for further exploration of the gut-brain axis. Furthermore, it contributes valuable insights to discussions regarding proposals for probiotic therapies, particularly focusing on Faecalibacterium spp., Blautia spp., and Clostridium spp., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Pepoyan, Marotta, Manvelyan, Galstyan, Stepanyan, Grigoryan, Grigoryan, Mikayelyan, Balayan, Harutyunyan, Mirzabekyan, Tsaturyan, Torok and Pepoyan.)

Published

2024

11. The gut microbiota participates in the effect of linaclotide in patients with irritable bowel syndrome with constipation (IBS-C): a multicenter, prospective, pre-post study.

Author

Zhou J, Wei H, Zhou A, Xiao X, Xie X, Tang B, Lin H, Tang L, Meng R, Yuan X, Zhang J, Huang C, Huang B, Liao X, Zhong T, He S, Gu S, and Yang S

Subjects

Humans, Prospective Studies, RNA, Ribosomal, 16S, Constipation, Irritable Bowel Syndrome, Gastrointestinal Microbiome, Peptides

Abstract

Background: Interindividual variation characterizes the relief experienced by constipation-predominant irritable bowel syndrome (IBS-C) patients following linaclotide treatment. Complex bidirectional interactions occur between the gut microbiota and various clinical drugs. To date, no established evidence has elucidated the interactions between the gut microbiota and linaclotide. We aimed to explore the impact of linaclotide on the gut microbiota and identify critical bacterial genera that might participate in linaclotide efficacy., Methods: IBS-C patients were administered a daily linaclotide dose of 290 µg over six weeks, and their symptoms were then recorded during a four-week posttreatment observational period. Pre- and posttreatment fecal samples were collected for 16S rRNA sequencing to assess alterations in the gut microbiota composition. Additionally, targeted metabolomics analysis was performed for the measurement of short-chain fatty acid (SCFA) concentrations., Results: Approximately 43.3% of patients met the FDA responder endpoint after taking linaclotide for 6 weeks, and 85% of patients reported some relief from abdominal pain and constipation. Linaclotide considerably modified the gut microbiome and SCFA metabolism. Notably, the higher efficacy of linaclotide was associated with enrichment of the Blautia genus, and the abundance of Blautia after linaclotide treatment was higher than that in healthy volunteers. Intriguingly, a positive correlation was found for the Blautia abundance and SCFA concentrations with improvements in clinical symptoms among IBS-C patients., Conclusion: The gut microbiota, especially the genus Blautia, may serve as a significant predictive microbe for symptom relief in IBS-C patients receiving linaclotide treatment., Trial Registration: This trial was registered with the Chinese Clinical Trial Registry (Chictr.org.cn, ChiCTR1900027934)., (© 2024. The Author(s).)

Published

2024

12. Berberine-microbiota interplay: orchestrating gut health through modulation of the gut microbiota and metabolic transformation into bioactive metabolites.

Author

Dehau T, Cherlet M, Croubels S, Van De Vliet M, Goossens E, and Van Immerseel F

Abstract

Berberine is an isoquinoline alkaloid found in plants. It presents a wide range of pharmacological activities, including anti-inflammatory and antioxidant properties, despite a low oral bioavailability. Growing evidence suggests that the gut microbiota is the target of berberine, and that the microbiota metabolizes berberine to active metabolites, although little evidence exists in the specific species involved in its therapeutic effects. This study was performed to detail the bidirectional interactions of berberine with the broiler chicken gut microbiota, including the regulation of gut microbiota composition and metabolism by berberine and metabolization of berberine by the gut microbiota, and how they contribute to berberine-mediated effects on gut health. As previous evidence showed that high concentrations of berberine may induce dysbiosis, low (0.1 g/kg feed), middle (0.5 g/kg feed) and high (1 g/kg feed) doses were here investigated. Low and middle doses of in-feed berberine stimulated potent beneficial bacteria from the Lachnospiraceae family in the large intestine of chickens, while middle and high doses tended to increase villus length in the small intestine. Plasma levels of the berberine-derived metabolites berberrubine, thalifendine and demethyleneberberine were positively correlated with the villus length of chickens. Berberrubine and thalifendine were the main metabolites of berberine in the caecum, and they were produced in vitro by the caecal microbiota, confirming their microbial origin. We show that members of the genus Blautia could demethylate berberine into mainly thalifendine, and that this reaction may stimulate the production of short-chain fatty acids (SCFAs) acetate and butyrate, via acetogenesis and cross-feeding respectively. We hypothesize that acetogens such as Blautia spp. are key bacteria in the metabolization of berberine, and that berberrubine, thalifendine and SCFAs play a significant role in the biological effect of berberine., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Dehau, Cherlet, Croubels, Van De Vliet, Goossens and Van Immerseel.)

Published

2023

13. Blautia parvula sp. nov., isolated from Japanese faecal samples.

Author

Miura T, Shimamura M, Yamazoe A, and Kawasaki H

Subjects

Humans, Bacterial Typing Techniques, Base Composition, DNA, Bacterial genetics, East Asian People, Fatty Acids chemistry, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Feces microbiology, Phylogeny, Clostridiales classification, Clostridiales isolation & purification

Abstract

Two Gram-positive, anaerobic, non-spore-forming and coccoid or oval-shaped bacterial strains, namely, DN0138 T and DN0266, were isolated from faecal samples of healthy Japanese people. Phylogenetic analyses based on 16S rRNA gene sequences revealed that strain DN0138 T clustered with a species of the genus Blautia and was closely related to Blautia producta JCM 1471 T , Blautia coccoides JCM 1395 T , Blautia hominis KB1 T and ' Blautia marasmi ' Marseille-P2377, with sequence similarities of 98.6, 98.5, 98.8 and 98.2 %, respectively. The average nucleotide identity values were 85.3 % for B. producta JCM 1471 T , 85.0 % for B. coccoides NCTC 11035 T , 84.3 % for B. hominis KB1 T and 84.3 % for ' B. marasmi ' Marseille-P2377. The major end products of glucose metabolism were acetic acid, lactic acid and succinic acid. The genome length of strain DN0138 T was 6 247 046 bp with 46.7 mol% G+C content of genome sequence. Based on their phenotypic, cellular fatty acid and phylogenetic characteristics, the three isolates represent a novel species within the genus Blautia , for which the name Blautia parvula sp. nov. is proposed. The type strain is DN0138 T (=NBRC 113351 T =BCRC 81349 T ).

Published

2023

14. Dysbiosis of the gut microbiota as a susceptibility factor for Kawasaki disease.

Author

Teramoto Y, Akagawa S, Hori SI, Tsuji S, Higasa K, and Kaneko K

Subjects

Dysbiosis microbiology, Ruminococcus genetics, Child, RNA, Ribosomal, 16S genetics, Child, Preschool, Humans, Clostridiales, Acute Disease, Male, Phylogeny, Gastrointestinal Microbiome genetics, Mucocutaneous Lymph Node Syndrome genetics

Abstract

Introduction: Gut microbial imbalance (dysbiosis) has been reported in patients with acute Kawasaki disease (KD). However, no studies have analyzed the gut microbiota while focusing on susceptibility to KD. This study aimed to evaluate whether dysbiosis elevates susceptibility to KD by assessing children with a history of KD., Methods: Fecal DNA was extracted from 26 children with a history of KD approximately 1 year prior (KD group, 12 boys; median age, 32.5 months; median time from onset, 11.5 months) and 57 age-matched healthy controls (HC group, 35 boys; median age, 36.0 months). 16S rRNA gene analysis was conducted with the Illumina Miseq instrument. Sequence reads were analyzed using QIIME2., Results: For alpha diversity, Faith's phylogenetic diversity was significantly higher in the KD group. Regarding beta diversity, the two groups formed significantly different clusters based on Bray-Curtis dissimilarity. Comparing microbial composition at the genus level, the KD and HC groups were significantly different in the abundance of two genera with abundance over 1% after Benjamini-Hochberg false discovery rate correction for multiple comparisons. Compared with the HC group, the KD group had higher relative abundance of Ruminococcus gnavus group and lower relative abundance of Blautia ., Discussion and Conclusion: Ruminococcus gnavus group reportedly includes pro-inflammatory bacteria. In contrast, Blautia suppresses inflammation via butyrate production. In the predictive functional analysis, the proportion of gut microbiota involved in several pathways was lower in the KD group. Therefore, dysbiosis characterized by distinct microbial diversity and decreased abundance of Blautia in parallel with increased abundance of Ruminococcus gnavus group might be a susceptibility factor for KD., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2023 Teramoto, Akagawa, Hori, Tsuji, Higasa and Kaneko.)

Published

2023

15. Gut microbiome modified by bariatric surgery improves insulin sensitivity and correlates with increased brown fat activity and energy expenditure.

Author

Yadav J, Liang T, Qin T, Nathan N, Schwenger KJP, Pickel L, Xie L, Lei H, Winer DA, Maughan H, Robertson SJ, Woo M, Lou W, Banks K, Jackson T, Okrainec A, Hota SS, Poutanen SM, Sung HK, Allard JP, Philpott DJ, and Gaisano HY

Subjects

Mice, Animals, Adipose Tissue, Brown, Obesity surgery, Energy Metabolism, Insulin Resistance, Gastrointestinal Microbiome, Bariatric Surgery

Abstract

Alterations in the microbiome correlate with improved metabolism in patients following bariatric surgery. While fecal microbiota transplantation (FMT) from obese patients into germ-free (GF) mice has suggested a significant role of the gut microbiome in metabolic improvements following bariatric surgery, causality remains to be confirmed. Here, we perform paired FMT from the same obese patients (BMI > 40; four patients), pre- and 1 or 6 months post-Roux-en-Y gastric bypass (RYGB) surgery, into Western diet-fed GF mice. Mice colonized by FMT from patients' post-surgery stool exhibit significant changes in microbiota composition and metabolomic profiles and, most importantly, improved insulin sensitivity compared with pre-RYGB FMT mice. Mechanistically, mice harboring the post-RYGB microbiome show increased brown fat mass and activity and exhibit increased energy expenditure. Moreover, improvements in immune homeostasis within the white adipose tissue are also observed. Altogether, these findings point to a direct role for the gut microbiome in mediating improved metabolic health post-RYGB surgery., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2023

16. Role of microbial microbes in arsenic bioaccumulation and biotransformation in mice.

Author

Huang L, Ye Z, Zhao Q, Li Y, Yu ZG, and Zhang W

Subjects

Animals, Mice, Bioaccumulation, RNA, Ribosomal, 16S genetics, Biotransformation, Arsenic toxicity, Arsenic metabolism

Abstract

Although gut microbes can affect the accumulation and metabolism of arsenic (As), the microbes contributing to these processes remain largely unknown. Therefore, this study aimed to investigate the bioaccumulation and biotransformation of arsenate [As(V)] and arsenobetaine (AsB) in mice with a disordered gut microbiome. We used cefoperazone (Cef) to construct a mouse model of gut microbiome disruption along with 16S rRNA sequencing to elucidate the effect of gut microbiome destruction on the biotransformation and bioaccumulation of As(V) and AsB. This revealed the role of specific bacteria in As metabolism. Gut microbiome destruction increased the bioaccumulation of As(V) and AsB in various organs and reduced the excretion of As(V) and AsB in the feces. Further, gut microbiome destruction was found to be important for the biotransformation of As(V). Interference with Cef can significantly decrease Blautia and Lactobacillus while increasing Enterococcus, leading to increase As accumulation in mice and enhanced methylation. We also identified Lachnoclostridium, Erysipelatoclostridium, Blautia, Lactobacillus, and Enterococcus as biomarkers involved in As bioaccumulation and biotransformation. In conclusion, specific microbes can increase As accumulation in the host, exacerbating its potential health risks., Competing Interests: Declaration of Competing Interest The authors declare no competing interests to report., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

17. Gut microbiota composition is altered in a preclinical model of type 1 diabetes mellitus: Influence on gut steroids, permeability, and cognitive abilities.

Author

Diviccaro S, Falvo E, Piazza R, Cioffi L, Herian M, Brivio P, Calabrese F, Giatti S, Caruso D, and Melcangi RC

Subjects

Cognition, Rats, Dysbiosis, Female, Brain Diseases, Gonadal Steroid Hormones metabolism, Animals, Pregnanolone, Pregnenolone, Hypoglycemia, Claudin-1, Permeability, Diabetes Mellitus, Type 1, Gastrointestinal Microbiome, Neurosteroids

Abstract

Sex steroid hormones are not only synthesized from the gonads but also by other tissues, such as the brain (i.e., neurosteroids) and colon (i.e., gut steroids). Gut microbiota can be shaped from sex steroid hormones synthesized from the gonads and locally interacts with gut steroids as in turn modulates neurosteroids. Type 1 diabetes mellitus (T1DM) is characterized by dysbiosis and also by diabetic encephalopathy. However, the interactions of players of gut-brain axis, such as gut steroids, gut permeability markers and microbiota, have been poorly explored in this pathology and, particularly in females. On this basis, we have explored, in streptozotocin (STZ)-induced adult female rats, whether one month of T1DM may alter (I) gut microbiome composition and diversity by 16S next-generation sequencing, (II) gut steroid levels by liquid chromatography-tandem mass spectrometry, (III) gut permeability markers by gene expression analysis, (IV) cognitive behavior by the novel object recognition (NOR) test and whether correlations among these aspects may occur. Results obtained reveal that T1DM alters gut β-, but not α-diversity. The pathology is also associated with a decrease and an increase in colonic pregnenolone and allopregnanolone levels, respectively. Additionally, diabetes alters gut permeability and worsens cognitive behavior. Finally, we reported a significant correlation of pregnenolone with Blautia, claudin-1 and the NOR index and of allopregnanolone with Parasutterella, Gammaproteobacteria and claudin-1. Altogether, these results suggest new putative roles of these two gut steroids related to cognitive deficit and dysbiosis in T1DM female experimental model. This article is part of the Special Issue on "Microbiome & the Brain: Mechanisms & Maladies"., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

18. Technical versus biological variability in a synthetic human gut community.

Author

van de Velde C, Joseph C, Simoens K, Raes J, Bernaerts K, and Faust K

Subjects

Humans, RNA, Ribosomal, 16S genetics, Bacteria genetics, Fermentation, Gastrointestinal Microbiome genetics

Abstract

Synthetic communities grown in well-controlled conditions are an important tool to decipher the mechanisms driving community dynamics. However, replicate time series of synthetic human gut communities in chemostats are rare, and it is thus still an open question to what extent stochasticity impacts gut community dynamics. Here, we address this question with a synthetic human gut bacterial community using an automated fermentation system that allows for a larger number of biological replicates. We collected six biological replicates for a community initially consisting of five common gut bacterial species that fill different metabolic niches. After an initial 12 hours in batch mode, we switched to chemostat mode and observed the community to stabilize after 2-3 days. Community profiling with 16S rRNA resulted in high variability across replicate vessels and high technical variability, while the variability across replicates was significantly lower for flow cytometric data. Both techniques agree on the decrease in the abundance of Bacteroides thetaiotaomicron , accompanied by an initial increase in Blautia hydrogenotrophica . These changes occurred together with reproducible metabolic shifts, namely a fast depletion of glucose and trehalose concentration in batch followed by a decrease in formic acid and pyruvic acid concentrations within the first 12 hours after the switch to chemostat mode. In conclusion, the observed variability in the synthetic bacterial human gut community, as assessed with 16S rRNA gene sequencing, is largely due to technical variability. The low variability seen in HPLC and flow cytometry data suggests a highly deterministic system.

Published

2023

19. Protective Effect of Intestinal Blautia Against Neutropenic Fever in Allogeneic Transplant Recipients.

Author

Rashidi A, Peled JU, Ebadi M, Rehman TU, Elhusseini H, Marcello LT, Halaweish H, Kaiser T, Holtan SG, Khoruts A, Weisdorf DJ, and Staley C

Subjects

Humans, Anti-Bacterial Agents therapeutic use, Anti-Bacterial Agents pharmacology, Transplantation, Homologous adverse effects, Hematopoietic Stem Cell Transplantation adverse effects, Graft vs Host Disease etiology, Gastrointestinal Microbiome, Microbiota

Abstract

Background: Neutropenic fever (NF) occurs in >70% of hematopoietic cell transplant (HCT) recipients, without a documented cause in most cases. Antibiotics used to prevent and treat NF disrupt the gut microbiota; these disruptions predict a higher posttransplantation mortality rate. We hypothesized that specific features in the gut microbial community may mediate the risk of NF., Methods: We searched a large gut microbiota database in allogeneic HCT recipients (12 546 stool samples; 1278 patients) to find pairs with NF (cases) versus without NF (controls) on the same day relative to transplantation and with a stool sample on the previous day. A total of 179 such pairs were matched as to the underlying disease and graft source. Several other important clinical variables were similar between the groups., Results: The gut microbiota of cases on the day before NF occurrence had a lower abundance of Blautia than their matched controls on the same day after transplantation, suggesting a protective role for Blautia. Microbiota network analysis did not find any differences in community structure between the groups, suggesting a single-taxon effect. To identify putative mechanisms, we searched a gut microbiome and serum metabolome database of patients with acute leukemia receiving chemotherapy and identified 139 serum samples collected within 24 hours after a stool sample from the same patient. Greater Blautia abundances predicted higher levels of next-day citrulline, a biomarker of total enterocyte mass., Conclusions: These findings support a model in which Blautia protects against NF by improving intestinal health. Therapeutic restoration of Blautia may help prevent NF, thus reducing antibiotic exposures and transplantation-related deaths., Competing Interests: Potential conflicts of interest . J. U. P. reports research funding, intellectual property fees, and travel reimbursement from Seres Therapeutics and consulting fees from DaVolterra, CSL Behring, MaaT Pharma, Arjun Pai, and the French National Cancer Institute. He serves on an advisory board for and holds equity in Postbiotics Plus Research. He has filed intellectual property applications related to the microbiome (reference nos. 62/843,849, 62/977,908, and 15/756,845). MSKCC has financial interests relative to Seres Therapeutics. J. U. P. reports the grants or contracts from the following: Society for MSKCC (research grant), Adult BMT Service Translational Research Award (Pilot Grant), Seres Therapeutics (sponsored research), Starr Cancer Consortium, Cycle for Survival Foundation, the National Cancer Institute (2 P01 CA023766 39A1), and the Memorial Sloan Kettering/Hackensack Meridian Health Partnership Immunology Research Immunology Research Collaboration. J. U. P. also reports licensing fees from Seres Therapeutics; payment or honoraria for lectures, presentations, speakers bureaus, manuscript writing, or educational events from the University of Nebraska Medical Center, HayMatick Meetings & Events, the Japanese Society of Hematology, William Blair & Co, KongresKompagniet, the Clinical Immunology Society, the University of Pennsylvania, University Hospital Regensburg, and Hanson Wade; and support for attending meetings and/or travel from the Clinical Immunology Society, the University of Nebraska Medical Center, the University of Pennsylvania, and Parker Institute for Cancer Immunotherapy. J. U. P. asserts 2 patents planned, issued, or pending for β-lactamase compositions for treatment of graft-vs-host disease, and bacterial compositions and methods for cancer survival. Finally, J. U. P. holds stock or stock options with Postbiotics Plus Research. All other authors report no potential conflicts. All authors have submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Infectious Diseases Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

20. Metabolite profiling of human-originated Lachnospiraceae at the strain level.

Author

Abdugheni R, Wang WZ, Wang YJ, Du MX, Liu FL, Zhou N, Jiang CY, Wang CY, Wu L, Ma J, Liu C, and Liu SJ

Abstract

The human gastrointestinal (GI) tract harbors diverse microbes, and the family Lachnospiraceae is one of the most abundant and widely occurring bacterial groups in the human GI tract. Beneficial and adverse effects of the Lachnospiraceae on host health were reported, but the diversities at species/strain levels as well as their metabolites of Lachnospiraceae have been, so far, not well documented. In the present study, we report on the collection of 77 h uman-originated L a ch nospiraceae sp ecies (please refer hLchsp, https://hgmb.nmdc.cn/subject/lachnospiraceae) and the in vitro metabolite profiles of 110 Lachnospiraceae strains (https://hgmb.nmdc.cn/subject/lachnospiraceae/metabolites). The Lachnospiraceae strains in hLchsp produced 242 metabolites of 17 categories. The larger categories were alcohols (89), ketones (35), pyrazines (29), short (C2-C5), and long (C > 5) chain acids (31), phenols (14), aldehydes (14), and other 30 compounds. Among them, 22 metabolites were aromatic compounds. The well-known beneficial gut microbial metabolite, butyric acid, was generally produced by many Lachnospiraceae strains, and Agathobacter rectalis strain Lach-101 and Coprococcus comes strain NSJ-173 were the top 2 butyric acid producers, as 331.5 and 310.9 mg/L of butyric acids were produced in vitro, respectively. Further analysis of the publicly available cohort-based volatile-metabolomic data sets of human feces revealed that over 30% of the prevailing volatile metabolites were covered by Lachnospiraceae metabolites identified in this study. This study provides Lachnospiraceae strain resources together with their metabolic profiles for future studies on host-microbe interactions and developments of novel probiotics or biotherapies., Competing Interests: The authors declare no conflict of interest., (© 2022 The Authors. iMeta published by John Wiley & Sons Australia Ltd. on behalf of iMeta Science.)

Published

2022

21. Fluctuations in Intestinal Microbiota Following Ingestion of Natto Powder Containing Bacillus subtilis var. natto SONOMONO Spores: Considerations Using a Large-Scale Intestinal Microflora Database.

Author

Kono K, Murakami Y, Ebara A, Okuma K, Tokuno H, Odachi A, Ogasawara K, Hidaka E, Mori T, Satoh K, Kimoto S, Masuyama H, Takeda M, and Managi S

Subjects

Bacillus subtilis, Bifidobacterium genetics, Eating, Female, Humans, Male, Powders, RNA, Ribosomal, 16S genetics, Spores, Bacterial, Gastrointestinal Microbiome, Probiotics pharmacology

Abstract

Improving the intestinal microbiota using probiotics, prebiotics, and synbiotics has attracted attention as a method of disease prevention and treatment. This is the first study to discuss the effects of food intake on the intestinal microbiota using a large Japanese intestinal microbiota database. Here, as a case study, we determined changes in the intestinal microbiota caused by ingestion of a processed natto food containing B. subtilis var. natto SONOMONO spores, SONOMONO NATTO POWDER CAPSULES TM , by analyzing 16S rRNA sequence data generated using next-generation sequencing techniques. The results showed that the relative abundance of Bifidobacterium and Blautia as well as the relative abundance of Bifidobacterium were increased in males and females in the ingesting group, respectively. Additionally, the effects of SONOMONO NATTO POWDER CAPSULES TM intake on Bifidobacterium and Blautia abundance depended on the relative abundance of Bifidobacterium at baseline. Finally, analysis of a large Japanese intestinal microbiota database suggested that the bacterial genera that fluctuated with the ingestion of SONOMONO NATTO POWDER CAPSULES TM may be associated with lifestyle-related diseases such as diabetes.

Published

2022

22. Effect of electroacupuncture on the intestinal microflora in rats with stress urinary incontinence.

Author

Li C, Qu Z, Liu J, Ruan S, Chen B, Ran J, Shu W, Chen Y, and Hou W

Subjects

Animals, Female, RNA, Ribosomal, 16S, Rats, Rats, Sprague-Dawley, Electroacupuncture, Gastrointestinal Microbiome, Urinary Incontinence, Stress diagnosis, Urinary Incontinence, Stress therapy

Abstract

Objective: To examine the effect of electroacupuncture on the urodynamics and gut microbiota of rats with stress urinary incontinence (SUI)., Materials and Methods: Thirty 2-month-old female Sprague-Dawley (SD) rats were randomly assigned to 4 groups: normal (N), model (M), nonacupoint electric acupuncture control (NAAC), and electroacupuncture (EA). An SUI rat model was established through vaginal balloon dilatation and bilateral oophorectomy. After various treatments, urodynamic tests were performed, and feces were collected. 16S rRNA sequencing analysis was used to investigate SUI-related changes in the intestinal flora., Results: After treatment, compared with those of the M group, the leak point pressure and maximum bladder capacity of the electroacupuncture groups increased ( P <0.05). The species community compositions of the N and M groups differed at the genus level, and there were 15 differentially abundant bacterial genera ( P <0.05). The Blautia proportion was increased by electroacupuncture treatment ( P <0.05) and was significantly positively correlated with the electroacupuncture treatment of SUI (according to Spearman correlation analysis)., Conclusion: Electroacupuncture treatment can improve signs of urine leakage in rats with SUI rats by increasing the leak point pressure and maximum bladder capacity. The enrichment of Blautia by electroacupuncture treatment enrichment may be related to SUI sign improvement., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Li, Qu, Liu, Ruan, Chen, Ran, Shu, Chen and Hou.)

Published

2022

23. Integrated Microbiome and Host Transcriptome Profiles Link Parkinson's Disease to Blautia Genus: Evidence From Feces, Blood, and Brain.

Author

Guo X, Tang P, Hou C, Chong L, Zhang X, Liu P, Chen L, Liu Y, Zhang L, and Li R

Abstract

A link between the gut microbiome and Parkinson's disease (PD) has been intensively studied, and more than 100 differential genera were identified across the studies. However, the predominant genera contributing to PD remain poorly understood. Inspired by recent advances showing microbiota distribution in the blood and brain, we, here, comprehensively investigated currently available fecal microbiome data (1,914 samples) to identify significantly altered genera, which were further validated by comparison to the results from microbiome analysis of blood (85 samples) and brain (268 samples). Our data showed that the composition of fecal microbiota was different from that of blood and brain. We found that Blautia was the unique genus consistently depleted across feces, blood, and brain samples of PD patients ( P < 0.05), despite using rigorous criteria to remove contaminants. Moreover, enrichment analyses revealed that host genes correlated with Blautia genus abundance were mainly involved in mitochondrial function and energy metabolism, and mapped to neurodegenerative diseases (NDDs) and metabolic diseases. A random forest classifier constructed with fecal microbiota data demonstrated that Blautia genus was an important feature contributing to discriminating PD patients from controls [receiver operating characteristic (ROC)-area under curve (AUC) = 0.704, precision-recall curve (PRC)-AUC = 0.787]. Through the integration of microbiome and transcriptome, our study depicted microbial profiles in the feces, blood, and brain of PD patients, and identified Blautia genus as a potential genus linked to PD. Further studies are greatly encouraged to determine the role of Blautia genus in the pathogenesis of PD., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Guo, Tang, Hou, Chong, Zhang, Liu, Chen, Liu, Zhang and Li.)

Published

2022

24. Dried chicory root improves bowel function, benefits intestinal microbial trophic chains and increases faecal and circulating short chain fatty acids in subjects at risk for type 2 diabetes.

Author

Puhlmann ML, Jokela R, van Dongen KCW, Bui TPN, van Hangelbroek RWJ, Smidt H, de Vos WM, and Feskens EJM

Abstract

We investigated the impact of dried chicory root in a randomised, placebo-controlled trial with 55 subjects at risk for type 2 diabetes on bowel function, gut microbiota and its products, and glucose homeostasis. The treatment increased stool softness (+1.1 ± 0.3 units; p =  0.034) and frequency (+0.6 ± 0.2 defecations/day; p  < 0.001), strongly modulated gut microbiota composition (7 % variation; p =  0.001), and dramatically increased relative levels (3-4-fold) of Anaerostipes and Bifidobacterium spp., in a dose-dependent, reversible manner. A synthetic community, including selected members of these genera and a Bacteroides strain, generated a butyrogenic trophic chain from the product. Faecal acetate, propionate and butyrate increased by 25.8 % (+13.0 ± 6.3 mmol/kg; p  = 0.023) as did their fasting circulating levels by 15.7 % (+7.7 ± 3.9 μM; p =  0.057). In the treatment group the glycaemic coefficient of variation decreased from 21.3 ± 0.94 to 18.3 ± 0.84 % ( p =  0.004), whereas fasting glucose and HOMA-ir decreased in subjects with low baseline Blautia levels (-0.3 ± 0.1 mmol/L fasting glucose; p =  0.0187; -0.14 ± 0.1 HOMA-ir; p =  0.045). Dried chicory root intake rapidly and reversibly affects bowel function, benefits butyrogenic trophic chains, and promotes glycaemic control., Competing Interests: W.M.d.V. provided scientific advice to WholeFiber BV., (© The Author(s) 2022.)

Published

2022

25. Composition of the Gut Microbiota in Attention Deficit Hyperactivity Disorder: A Systematic Review and Meta-Analysis.

Author

Wang N, Gao X, Zhang Z, and Yang L

Subjects

Humans, Attention Deficit Disorder with Hyperactivity, Gastrointestinal Microbiome

Abstract

Background: The latest research accumulates information to explore the correlation between gut microbiota and neurodevelopmental disorders, which may lead to new approaches to treat diseases such as attention deficit/hyperactivity disorder (ADHD). However, the conclusions of previous studies are not completely consistent. The objective of the systematic review and meta-analysis was to identify evidence on the dysbiosis of gut microbiota in ADHD and find potential distinctive traits compared to healthy controls., Methods: Electronic databases, including PubMed, Embase, Web of Science, Cochrane Library, and PsycINFO, were searched up to August 24, 2021, using predetermined terms. Meta-analysis was performed to estimate the comparison of microbiota profiles (alpha and beta diversity) and the relative abundance of gut microbiota in ADHD patients and healthy controls., Results: A total of eight studies were included in the meta-analysis, containing 316 ADHD patients and 359 healthy controls. There was a higher Shannon index in ADHD patients than in healthy controls (SMD = 0.97; 95% CI, 0.13 to 1.82; P  = 0.02; I 2  = 96%), but the significance vanished after sensitivity analysis because of high heterogeneity. No significant differences in other alpha diversity indexes were found. Regarding the relative abundance of gut microbiota, the genus Blautia was significantly elevated in ADHD patients compared with controls (SMD = 0.34; 95% CI, 0.06 to 0.63; P  = 0.02; I 2  = 0%)., Conclusions: Patients with ADHD had gut microbiome alterations compared to healthy controls. Though more studies with strict methodology are warranted due to the high heterogeneity, further studies to translate the findings of gut microbiota dysbiosis to clinical application in ADHD patients are needed and may guide targeted therapies., Systematic Review Registration: [https://www.crd.york.ac.uk/PROSPERO/display&#95;record.php?RecordID=273993], identifier PROSPERO (CRD42021273993)., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Wang, Gao, Zhang and Yang.)

Published

2022

26. The Relationship Between Mucosal Microbiota, Colitis, and Systemic Inflammation in Chronic Granulomatous Disorder.

Author

Davrandi M, Harris S, Smith PJ, Murray CD, and Lowe DM

Subjects

Humans, Inflammation complications, Mucous Membrane metabolism, Mucous Membrane pathology, Colitis etiology, Colitis metabolism, Granulomatous Disease, Chronic complications, Granulomatous Disease, Chronic diagnosis, Microbiota

Abstract

Purpose: Chronic granulomatous disorder (CGD) is a primary immunodeficiency which is frequently complicated by inflammatory colitis and is associated with systemic inflammation. Herein, we aimed to investigate the role of the microbiome in the pathogenesis of colitis and systemic inflammation., Methods: We performed 16S rDNA sequencing on mucosal biopsy samples from each segment of 10 CGD patients' colons and conducted compositional and functional pathway prediction analyses., Results: The microbiota in samples from colitis patients demonstrated reduced taxonomic alpha-diversity compared to unaffected patients, even in apparently normal bowel segments. Functional pathway richness was similar between the colitic and non-colitic mucosa, although metabolic pathways involved in butyrate biosynthesis or utilization were enriched in patients with colitis and correlated positively with fecal calprotectin levels. One patient with very severe colitis was dominated by Enterococcus spp., while among other patients Bacteroides spp. abundance correlated with colitis severity measured by fecal calprotectin and an endoscopic severity score. In contrast, Blautia abundance is associated with low severity scores and mucosal health. Several taxa and functional pathways correlated with concentrations of inflammatory cytokines in blood but not with colitis severity. Notably, dividing patients into "high" and "low" systemic inflammation groups demonstrated clearer separation than on the basis of colitis status in beta-diversity analyses., Conclusion: The microbiome is abnormal in CGD-associated colitis and altered functional characteristics probably contribute to pathogenesis. Furthermore, the relationship between the mucosal microbiome and systemic inflammation, independent of colitis status, implies that the microbiome in CGD can influence the inflammatory phenotype of the condition., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

27. Altered Plasma Fatty Acids Associate with Gut Microbial Composition in Common Variable Immunodeficiency.

Author

Skarpengland T, Macpherson ME, Hov JR, Kong XY, Bohov P, Halvorsen B, Fevang B, Berge RK, Aukrust P, and Jørgensen SF

Subjects

Fatty Acids pharmacology, Fatty Acids, Omega-6 pharmacology, Humans, Common Variable Immunodeficiency drug therapy, Fatty Acids, Omega-3 pharmacology, Gastrointestinal Microbiome

Abstract

Purpose: Fatty acid (FA) abnormalities are found in various inflammatory disorders and have been related to disturbed gut microbiota. Patients with common variable immunodeficiency (CVID) have inflammatory complications associated with altered gut microbial composition. We hypothesized that there is an altered FA profile in CVID patients, related to gut microbial dysbiosis., Methods: Plasma FAs were measured in 39 CVID patients and 30 healthy controls. Gut microbial profile, a food frequency questionnaire, and the effect of the oral antibiotic rifaximin were investigated in CVID patients., Results: The n-3 polyunsaturated fatty acids (PUFAs), eicosapentaenoic acid (EPA) (1.4 [1.0-1.8] vs. 1.9 [1.2-2.5], median (IQR), P < 0.05), and docosahexaenoic acid (DHA) (3.2 [2.4-3.9] vs. 3.5 [2.9-4.3], P < 0.05), all values expressed as weight percent of total plasma FAs, were reduced in CVID compared to controls. Also, n-6 PUFAs (34.3 ± 3.4 vs. 37.1 ± 2.8, mean ± SD, P < 0.001) and linoleic acid (LA) (24.5 ± 3.3 vs. 28.1 ± 2.7, P < 0.0001) and the FA anti-inflammatory index (98.9 [82.1-119.4] vs. 117.0 [88.7-153.1], median (IQR), P < 0.05) were reduced in CVID. The microbial alpha diversity was positively associated with plasma n-6 PUFAs (r = 0.41, P < 0.001) and LA (r = 0.51, P < 0.001), but not n-3 PUFAs (P = 0.78). Moreover, a 2-week course of rifaximin significantly reduced the proportion of n-6 PUFAs (P = 0.04, UNIANOVA). Serum immunoglobulin G (IgG) levels correlated with plasma n-3 PUFAs (rho = 0.36, P = 0.03) and DHA (rho = 0.41, P = 0.009)., Conclusion: We found a potentially unfavorable FA profile in CVID, related to low IgG levels. High plasma n-6 PUFAs were related to increased gut microbial diversity and altered by rifaximin therapy., (© 2021. The Author(s).)

Published

2022

28. The Impact of Pre-Slaughter Fasting on the Ruminal Microbial Population of Commercial Angus Steers.

Author

Welch CB, Lourenco JM, Seidel DS, Krause TR, Rothrock MJ, Pringle TD, and Callaway TR

Abstract

Diet impacts the composition of the ruminal microbiota; however, prior to slaughter, cattle are fasted, which may change the ruminal microbial ecosystem structure and lead to dysbiosis. The objective of this study was to determine changes occurring in the rumen after pre-slaughter fasting, which can allow harmful pathogens an opportunity to establish in the rumen. Ruminal samples were collected before and after pre-slaughter fasting from seventeen commercial Angus steers. DNA extraction and 16S rRNA gene sequencing were performed to determine the ruminal microbiota, as well as volatile fatty acid (VFA) concentrations. Microbial richness (Chao 1 index), evenness, and Shannon diversity index all increased after fasting ( p ≤ 0.040). During fasting, the two predominant families Prevotellaceae and Ruminococcaceae decreased ( p ≤ 0.029), whereas the remaining minor families increased ( p < 0.001). Fasting increased Blautia and Methanosphaera ( p ≤ 0.003), while Campylobacter and Treponema tended to increase ( p ≤ 0.086). Butyrate concentration tended to decrease ( p = 0.068) after fasting. The present findings support that fasting causes ruminal nutrient depletion resulting in dysbiosis, allowing opportunistic pathogens to exploit the void in the ruminal ecological niche.

Published

2021

29. Firmicutes and Blautia in gut microbiota lessened in chronic liver diseases and hepatocellular carcinoma patients: a pilot study.

Author

Chen T, Ding R, Chen X, Lu Y, Shi J, Lü Y, Tang B, Zhang W, Ye C, Yuan M, and Yang Z

Subjects

Adult, Aged, Case-Control Studies, Clostridiales genetics, Clostridiales isolation & purification, Feces microbiology, Female, Firmicutes genetics, Firmicutes isolation & purification, Gastrointestinal Microbiome, High-Throughput Nucleotide Sequencing, Humans, Male, Middle Aged, Pilot Projects, RNA, Ribosomal, 16S genetics, Sequence Analysis, RNA, Sex Characteristics, Young Adult, Carcinoma, Hepatocellular microbiology, Clostridiales classification, Firmicutes classification, Liver Diseases microbiology, Liver Neoplasms microbiology

Abstract

The gut microbiota system plays a vital role in liver diseases. This study aimed to address the diversity of gut microbiota and its correlations with clinical parameters in healthy individuals, chronic liver disease (CLD), and hepatocellular carcinoma (HCC) patients. Fecal specimens of nine healthy individuals, 11 CLD, and 21 HCC were collected. The diversity of gut microbiota was examined by PCR and Illumina MiSeq sequencing and analyzed using 16S rRNA gene sequencing database. The correlations between gut microbiota and the clinical parameters of participants were also addressed. Compared to healthy individuals, Firmicutes at a phylum level decreased in CLD and HCC patients and Proteobacteria increased (p < 0.05). The composition of Blautia on a genus level in CLD and HCC patients significantly decreased compared to healthy controls (p < 0.05). Firmicutes composition was negatively associated with age and number of males (p < 0.05) and was positively associated with monocytes, high-density lipoprotein cholesterol (HDL-C), and estimated glomerular filtration rate (eGFR) levels (p < 0.05). At a genus level, Blautia composition was negatively associated with cirrhosis, age, and number of males (p < 0.01), while it was positively associated with red blood cells (RBCs), triglycerides, HDL-C, and lymphocyte levels (p < 0.05). Conclusively, there was a significant compositional difference in gut microbiota in CLD and HCC patients compared with healthy subjects. Firmicutes and Blautia in gut microbiota system lessened in CLD and HCC patients. Clinical biochemical parameters have an impact on the diversity of gut microbiota in liver diseases.

Published

2021

30. Lactulose significantly increased the relative abundance of Bifidobacterium and Blautia in mice feces as revealed by 16S rRNA amplicon sequencing.

Author

Cui S, Gu J, Liu X, Li D, Mao B, Zhang H, Zhao J, and Chen W

Subjects

Animals, Bacteria classification, Bacteria genetics, Bacteria growth & development, Bifidobacterium metabolism, Clostridiales metabolism, DNA, Bacterial genetics, Intestines microbiology, Male, Mice, Mice, Inbred C57BL, Prebiotics analysis, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bacteria isolation & purification, Bifidobacterium growth & development, Clostridiales growth & development, Feces microbiology, Gastrointestinal Microbiome, Lactulose metabolism

Abstract

Background: Lactulose was one of the earliest prebiotics to be identified. To assess the potential risk of large intakes of lactulose to the intestinal microbiota, mice were fed a diet containing lactulose (0%, 5% and 15%, w/w) for 2 weeks and the changes in the fecal microbiota were evaluated by 16S rRNA high-throughput sequencing., Results: Lactulose intervention decreased the α-diversity of the fecal microbiota in both low-dose and high-dose groups. The relative abundance of Actinobacteria was significantly increased, while that of Bacteroidetes was significantly decreased after lactulose intervention. At the genus level, the relative abundance of Bifidobacterium belonging to Actinobacteria was significantly increased, and that of Alistipes belonging to Bacteroidetes was decreased in both low-dose and high-dose groups. The relative abundance of Blautia was significantly increased from 0.2% to 7.9% in the high-dose group and one strain of Blautia producta was isolated from the mice feces. However, the strain could not utilize lactulose., Conclusion: Overall, the microbial diversity was decreased after lactulose treatment, with significant increases in the relative abundance of Bifidobacterium. We also provide a strategy to increase the relative abundance of Blautia in the intestine by lactulose feeding at high doses, although the mechanism is not revealed. This will help us understand the prebiotic effect of lactulose on the host health. © 2021 Society of Chemical Industry., (© 2021 Society of Chemical Industry.)

Published

2021

31. Commensal microbe-derived acetate suppresses NAFLD/NASH development via hepatic FFAR2 signalling in mice.

Author

Aoki R, Onuki M, Hattori K, Ito M, Yamada T, Kamikado K, Kim YG, Nakamoto N, Kimura I, Clarke JM, Kanai T, and Hase K

Subjects

Acetates, Animals, Bacteroides, Clostridiales, Mice, Receptors, G-Protein-Coupled genetics, Non-alcoholic Fatty Liver Disease

Abstract

Background: Non-alcoholic liver disease (NAFLD) is the hepatic manifestation of metabolic syndrome, and it can progress to non-alcoholic steatohepatitis (NASH). Alterations in the gut microbiome have been implicated in the development of NAFLD/NASH, although the underlying mechanisms remain unclear., Results: We found that the consumption of the prebiotic inulin markedly ameliorated the phenotype of NAFLD/NASH, including hepatic steatosis and fibrosis, in mice. Inulin consumption resulted in global changes in the gut microbiome, including concomitant enrichment of the genera Bacteroides and Blautia, and increased concentrations of short-chain fatty acids, particularly acetate, in the gut lumen and portal blood. The consumption of acetate-releasing resistant starch protected against NAFLD development. Colonisation by Bacteroides acidifaciens and Blautia producta in germ-free mice resulted in synergetic effects on acetate production from inulin. Furthermore, the absence of free fatty acid receptor 2 (FFAR2), an acetate receptor, abolished the protective effect of inulin, as indicated by the more severe liver hypertrophy, hypercholesterolaemia and inflammation. These effects can be attributed to an exacerbation of insulin resistance in the liver, but not in muscle or adipose tissue., Conclusion: These findings demonstrated that the commensal microbiome-acetate-FFAR2 molecular circuit improves insulin sensitivity in the liver and prevents the development of NAFLD/NASH. Video abstract., (© 2021. The Author(s).)

Published

2021

32. Gut microbiota specifically mediates the anti-hypercholesterolemic effect of berberine (BBR) and facilitates to predict BBR's cholesterol-decreasing efficacy in patients.

Author

Wu C, Zhao Y, Zhang Y, Yang Y, Su W, Yang Y, Sun L, Zhang F, Yu J, Wang Y, Guo P, Zhu B, and Wu S

Subjects

Animals, Bacteria, Cholesterol pharmacology, Humans, Mice, Berberine pharmacology, Berberine therapeutic use, Gastrointestinal Microbiome, Hyperlipidemias drug therapy

Abstract

Introduction: Gut microbiota has been implicated in the pharmacological activities of many natural products. As an effective hypolipidemic agent, berberine (BBR)'s clinical application is greatly impeded by the obvious inter-individual response variation. To date, little evidence exists on the causality between gut microbes and its therapeutic effects, and the linkage of bacteria alterations to the inter-individual response variation., Objectives: This study aims to confirm the causal role of the gut microbiota in BBR's anti-hyperlipidemic effect and identify key bacteria that can predict its effectiveness., Methods: The correlation between gut microbiota and BBR's inter-individual response variation was studied in hyperlipidemic patients. The causal role of gut microbes in BBR's anti-hyperlipidemic effects was subsequently assessed by altered administration routes, co-treatment with antibiotics, fecal microbiota transplantation, and metagenomic analysis., Results: Three-month clinical study showed that BBR was effectively to decrease serum lipids but displayed an obvious response variation. The cholesterol-lowering but not triglyceride-decreasing effect of BBR was closely related to its modulation on gut microbiota. Interestingly, the baseline levels of Alistipes and Blautia could accurately predict its anti-hypercholesterolemic efficiency in the following treatment. Causality experiments in mice further confirmed that the gut microbiome is both necessary and sufficient to mediate the lipid-lowering effect of BBR. The absence of Blautia substantially abolished BBR's cholesterol-decreasing efficacy., Conclusion: The gut microbiota is necessary and sufficient for BBR's hyperlipidemia-ameliorating effect. The baseline composition of gut microbes can be an effective predictor for its pharmacotherapeutic efficacy, providing a novel way to achieve personalized therapy., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors. Published by Elsevier B.V. on behalf of Cairo University.)

Published

2021

33. Decrease in abundance of bacteria of the genus Bifidobacterium in gut microbiota may be related to pre-eclampsia progression in women from East China.

Author

Miao T, Yu Y, Sun J, Ma A, Yu J, Cui M, Yang L, and Wang H

Abstract

Background: Pre-eclampsia (PE) can result in severe damage to maternal and fetal health. It has been reported that gut microbiota (GM) had important roles in regulating the metabolic and inflammatory responses of the mother. However, investigations on GM in PE are rare., Objective: The objective of the present study was to investigate the changes of GM in PE and how to alter the GM composition in PE by dietary or dietary supplements., Design: We analyzed the composition changes in GM as well as the relationship between bacteria of different genera and clinical indices by amplifying the V4 region of the 16S ribosomal RNA gene in 12 PE patients and eight healthy pregnant women in East China., Results: In the PE group, the Observed Species Index was lower than that in the control group, indicating that the α-diversity of the microbiome in the PE group decreased. At phylum, family, and genus levels, the relative abundance of different bacteria in PE patients displayed substantial differences to those from healthy women. We noted a decreased abundance of bacteria of the phylum Actinobacteria ( P = 0.042), decreased abundance of bacteria of the family Bifidobacteriaceae ( P = 0.039), increased abundance of bacteria of the genus Blautia ( P = 0.026) and Ruminococcus ( P = 0.048), and decreased abundance of bacteria of the genus Bifidobacterium ( P = 0.038) . Among three enriched genera, bacteria of the genus Bifidobacterium showed a negative correlation with the systolic blood pressure (SBP), diastolic blood pressure (DBP), and dyslipidemia, which involved glucose metabolism, lipid metabolism, and the oxidative-phosphorylation pathway. The increased abundance of bacteria of the genera Blautia and Ruminococcus was positively correlated with obesity and dyslipidemia, which involved lipid metabolism, glycosyltransferases, biotin metabolism, and the oxidative-phosphorylation pathways. Moreover, women in the PE group ate more than women in the control group, so fetuses were more prone to overnutrition in the PE group., Conclusion: There is a potential for GM dysbiosis in PE patients, and they could be prone to suffer from metabolic syndrome. We speculate that alterations in the abundance of bacteria of certain genera (e.g. increased abundance of Blautia and Ruminococcus , and decreased abundance of Bifidobacterium ) were associated with PE development to some degree. Our data could help to monitor the health of pregnant women and may be helpful for preventing and assisting treatment of PE by increasing dietary fiber or probiotics supplement., Competing Interests: The authors declare no conflicts of interest. The authors have not received any funding or benefits from industry or elsewhere to conduct this study., (© 2021 Tingting Miao et al.)

Published

2021

34. Insights on the Evolutionary Genomics of the Blautia Genus: Potential New Species and Genetic Content Among Lineages.

Author

Maturana JL and Cárdenas JP

Abstract

Blautia , a genus established in 2008, is a relevantly abundant taxonomic group present in the microbiome of human and other mammalian gastrointestinal (GI) tracts. Several described (or proposed) Blautia species are available at this date. However, despite the increasing level of knowledge about Blautia , its diversity is still poorly understood. The increasing availability of Blautia genomic sequences in the public databases opens the possibility to study this genus from a genomic perspective. Here we report the pangenome analysis and the phylogenomic study of 225 Blautia genomes available in RefSeq. We found 33 different potential species at the genomic level, 17 of them previously undescribed; we also confirmed by genomic standards the status of 4 previously proposed new Blautia species. Comparative genomic analyses suggest that the Blautia pangenome is open, with a relatively small core genome (∼ 700-800 gene families). Utilizing a set of representative genomes, we performed a gene family gain/loss model for the genus, showing that despite terminal nodes suffered more massive gene gain events than internal nodes (i.e., predicted ancestors), some ancestors were predicted to have gained an important number of gene families, some of them associated with the possible acquisition of metabolic abilities. Gene loss events remained lower than gain events in most cases. General aspects regarding pangenome composition and gene gain/loss events are discussed, as well as the proposition of changes in the taxonomic assignment of B. coccoides TY and the proposition of a new species, " B. pseudococcoides. "., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Maturana and Cárdenas.)

Published

2021

35. Adults with Prader-Willi syndrome exhibit a unique microbiota profile.

Author

Dahl WJ, Auger J, Alyousif Z, Miller JL, and Tompkins TA

Subjects

Adult, Body Mass Index, Body Weight, Humans, RNA, Ribosomal, 16S genetics, Microbiota, Prader-Willi Syndrome genetics

Abstract

Objective: Adults with Prader-Willi syndrome (PWS) require less energy intake to maintain body weight than the general adult population. This, combined with their altered gastrointestinal transit time, may impact microbiota composition. The aim of the study was to determine if the fecal microbiota composition of adults with PWS differed from non-affected adults. Using usual diet/non-interventional samples, fecal microbiota composition was analyzed using 16S rRNA gene amplicon sequencing and data from adults with PWS were merged with four other adult cohorts that differed by geographical location and age. QIIME 2™ sample-classifier, machine learning algorithms were used to cross-train the samples and predict from which dataset the taxonomic profiles belong. Taxa that most distinguished between all datasets were extracted and a visual inspection of the R library PiratePlots was performed to select the taxa that differed in abundance specific to PWS., Results: Fecal microbiota composition of adults with PWS showed low Blautia and enhanced RF39 (phyla Tenericutes), Ruminococcaceae, Alistipes, Erysipelotrichacaea, Parabacteriodes and Odoribacter. Higher abundance of Tenericutes, in particular, may be a signature characteristic of the PWS microbiota although its relationship, if any, to metabolic health is not yet known.

Published

2021

36. Anemarrhena asphodeloides modulates gut microbiota and restores pancreatic function in diabetic rats.

Author

Yan D, Fan P, Sun W, Ding Q, Zheng W, Xiao W, Zhang B, Zhang T, Zhang T, Shi J, Chen X, Chen P, Zhang J, Hao Y, Sun X, Pang X, Dong Y, Xu P, Yu L, and Ma B

Subjects

Animals, Bacteria growth & development, Biomarkers blood, Blood Glucose metabolism, Cell Proliferation drug effects, Diabetes Mellitus, Experimental blood, Diabetes Mellitus, Experimental microbiology, Diabetes Mellitus, Experimental pathology, Diabetes Mellitus, Type 2 blood, Diabetes Mellitus, Type 2 microbiology, Diabetes Mellitus, Type 2 pathology, Diet, High-Fat, Dysbiosis, Hypoglycemic Agents isolation & purification, Inflammation Mediators blood, Islets of Langerhans metabolism, Islets of Langerhans pathology, Lipids blood, Male, Peroxiredoxins metabolism, Plant Extracts isolation & purification, Rats, Wistar, Streptozocin, Rats, Anemarrhena chemistry, Bacteria drug effects, Blood Glucose drug effects, Diabetes Mellitus, Experimental drug therapy, Diabetes Mellitus, Type 2 drug therapy, Gastrointestinal Microbiome drug effects, Hypoglycemic Agents pharmacology, Intestines microbiology, Islets of Langerhans drug effects, Plant Extracts pharmacology

Abstract

Anemarrhena asphodeloides is an herb widely used to treat symptoms associated with diabetes in traditional Chinese medicine. However, its key components and metabolites have low bioavailability and poor host absorption. To clarify the anti-diabetic mechanism of A. asphodeloides extract (AAE), we examined the anti-diabetic effects of AAE in rats with diabetes induced by a high-fat diet and streptozotocin. Faeces levels of the main components and metabolites of AAE were significantly higher than levels in plasma, which indicated that gut microbiota might play important roles in its anti-diabetic effect. Microbiological studies showed that unabsorbed components increased the diversity of the gut microbiota, enriched potentially beneficial bacteria, and suppressed potentially harmful bacteria. In vitro studies showed that AAE promoted the proliferation of Blautia coccoides, a bacterium with positive implication for diabetes, in a dose-dependent manner. AAE also promoted pancreatic cell regeneration and restored the function of pancreatic islet cells via peroxiredoxin 4 overexpression. Overall, these results suggest that AAE alleviates diabetes via modulating gut microbiota and protein expression., (Copyright © 2020 The Author(s). Published by Elsevier Masson SAS.. All rights reserved.)

Published

2021

37. Blautia -a new functional genus with potential probiotic properties?

Author

Liu X, Mao B, Gu J, Wu J, Cui S, Wang G, Zhao J, Zhang H, and Chen W

Subjects

Animals, Biotransformation, Gastrointestinal Microbiome, Genomics, Humans, Inflammation microbiology, Metabolic Syndrome microbiology, Phylogeny, Clostridiales classification, Clostridiales physiology, Probiotics

Abstract

Blautia is a genus of anaerobic bacteria with probiotic characteristics that occur widely in the feces and intestines of mammals. Based on phenotypic and phylogenetic analyses, some species in the genera Clostridium and Ruminococcus have been reclassified as Blautia , so to date, there are 20 new species with valid published names in this genus. An extensive body of research has recently focused on the probiotic effects of this genus, such as biological transformation and its ability to regulate host health and alleviate metabolic syndrome. This article reviews the origin and biological characteristics of Blautia and the factors that affect its abundance and discusses its role in host health, thus laying a theoretical foundation for the development of new functional microorganisms with probiotic properties.

Published

2021

38. Roles of gut microbiota and metabolites in a homogalacturonan-type pectic polysaccharide from Ficus pumila Linn. fruits mediated amelioration of obesity.

Author

Wu J, Xu Y, Su J, Zhu B, Wang S, Liu K, Wang H, Shi S, Zhang Q, Qin L, and Wang S

Subjects

Akkermansia drug effects, Animals, Bacteroidetes drug effects, Body Weight drug effects, Diet, High-Fat adverse effects, Dysbiosis etiology, Dysbiosis prevention & control, Ficus chemistry, Firmicutes drug effects, Fruit chemistry, Gastrointestinal Tract metabolism, Gastrointestinal Tract microbiology, Male, Mice, Inbred C57BL, Obesity etiology, Pectins administration & dosage, Polysaccharides administration & dosage, Population Dynamics, Gastrointestinal Microbiome drug effects, Gastrointestinal Tract drug effects, Obesity prevention & control, Pectins pharmacology, Polysaccharides pharmacology

Abstract

In this study, the beneficial effects of a homogalacturonan(HG)-type pectic polysaccharide from Ficus pumila L. fruits (FPLP) in obese mice were investigated. The 17-week FPLP treatment effectively attenuated obesity, as mainly demonstrated by the reductions of body weight, serum total cholesterol (TC) and low-density lipoprotein cholesterol (LDL-C) levels in high-fat diet (HFD)-induced obese mice. The decreased Firmicutes to Bacteroidetes abundance ratio, enriched Akkermansia, and reduced Blautia abundance suggested that FPLP ameliorated the HFD-induced gut dysbiosis. FPLP also influenced the levels of metabolites altered upon HFD feeding, including increases in myristoleic acid and pentadecanoic acid levels. The correlation studies indicated that FPLP ameliorated HFD-induced rise in TC and LDL-C levels through regulating gut microbial community and their associated metabolites. In conclusion, this study extends our understanding of the relationships among gut microbiota (Akkermansia and Blautia), metabolites (myristoleic acid and pentadecanoic acid), HG-type pectin and its TC- and LDL-C- lowering functions., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

39. Association between Altered Blood Parameters and Gut Microbiota after Synbiotic Intake in Healthy, Elderly Korean Women.

Author

Lee SH, You HS, Kang HG, Kang SS, and Hyun SH

Subjects

Aged, Bacteria classification, Bacteria genetics, Feces microbiology, Female, Gastrointestinal Microbiome genetics, Humans, Intestines microbiology, Longitudinal Studies, Middle Aged, RNA, Ribosomal, 16S genetics, Republic of Korea, Women, Biomarkers blood, Gastrointestinal Microbiome physiology, Synbiotics

Abstract

Synbiotics intake can alter the composition of intestinal microbes beneficially. We aimed to detect the changes in the intestinal microbiomes of 37 healthy elderly Korean women after the intake of a synbiotic drink. This was a longitudinal study controlled with a temporal series, including a control period of 3 weeks before intake, synbiotic intake for 3 weeks, and a washout period of 3 weeks. Fecal microbiota composition was analyzed by sequencing the V3-V4 hypervariable regions of 16S rRNA. Physical fecal activity increased with improvement in fecal shape. Thirty intestinal bacterial taxa were observed to change only after the intake period. In particular, Ellagibacter appeared only after ingestion. In addition, the abundance of Terrisporobacter showed a positive correlation with C-reactive protein, triglyceride. Lachnospiraceae&#95;uc, Eubacterium&#95;g5, and Blautia had a positive correlation with creatinine, whereas PAC001100&#95;g had a negative correlation with creatinine. Short-term (3 weeks) intake of symbiotic organisms changes the composition of the gut microbiota in healthy elderly Korean women.

Published

2020

40. Dietary Alaska pollock protein alters insulin sensitivity and gut microbiota composition in rats.

Author

Hosomi R, Nishimoto A, Kobayashi T, Ikeda Y, Mitsui M, Shimono T, Kanda S, Nishiyama T, Yoshida M, and Fukunaga K

Subjects

Animals, Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Blood Glucose metabolism, Dietary Proteins metabolism, Feces microbiology, Glucose Tolerance Test, Humans, Insulin Resistance, Male, Rats, Rats, Wistar, Fish Proteins metabolism, Gadiformes metabolism, Gastrointestinal Microbiome, Insulin metabolism

Abstract

Fish protein is not only nutritional but also promotes health by improving insulin sensitivity and hypercholesterolemia. Few studies have examined the relationship between gut microbiota and the enhanced insulin sensitivity due to the intake of Alaska pollock protein (APP). Hence, we assessed the glycolytic enzyme inhibitory activity of APP in in vitro study and the alteration of blood glucose level in insulin tolerance test (ITT) and glucose tolerance test (GTT) and gut microbiota following APP intake in the in vivo study. In initial experiments, the glycolytic enzyme (α-amylase, α-glucosidase, and sucrase) inhibitory activities of APP and its digest were not drastically altered compared with that of casein and its digests. In further experiments, rats fed an AIN-93G diet containing 20% (w/w) casein or APP for 8 weeks, and the composition of fecal microbiota analyzed by 16S rRNA amplicon sequence analysis. In addition, at 6 and 7 weeks of administration of experimental diet, insulin and glucose tolerance tests were evaluated, respectively. Compared with dietary casein, dietary APP has blood glucose-lowering activity as evident in the ITT and GTT. Moreover, APP group altered the structure of fecal microbiota, and area under the curves of the ITT and GTT and the relative abundance of Blautia, which is associated with glucose metabolism, tended to be positively correlated (P = 0.08 and 0.10, respectively). This study illustrates a novel finding that APP intake could alter the composition of gut microbiota and improve insulin sensitivity. PRACTICAL APPLICATION: Studies in animals and humans have shown that Alaska pollock protein (APP) intake improves insulin sensitivity, allowing the body to utilize blood glucose more effectively, thereby keeping blood sugar levels under control. Microorganisms residing in the human gut are associated with glucose metabolism. This study shows that the relative APP intake alters the composition of these gut microorganisms, more than casein intake and therefore might prevent hyperglycemia and type 2 diabetes., (© 2020 Institute of Food Technologists®.)

Published

2020

41. Self-reported sleep quality is associated with gut microbiome composition in young, healthy individuals: a pilot study.

Author

Grosicki GJ, Riemann BL, Flatt AA, Valentino T, and Lustgarten MS

Subjects

Female, Firmicutes, Humans, Male, Pilot Projects, Self Report, Sleep, Gastrointestinal Microbiome

Abstract

Objectives: The microbiota-gut-brain axis is an intricate communication network that is emerging as a key modulator of psychological and physiological wellbeing. Recent pioneering work in the field has suggested a possible link between gut microbiome composition with sleep, an evolutionarily conserved behavior demonstrated to play a critical role in health. This study is the first to address relationships between self-reported sleep habits and gut microbiome composition in young, healthy individuals., Methods: A total of 28 young, healthy subjects (17 males/11 females; 29.8 ± 10.4 years) that were free of metabolic or cardiovascular disease, and that did not take sleep medication or antibiotics within the past six months were included in the study. Relationships between self-reported sleep quality, obtained using the Pittsburgh Sleep Quality Index (PSQI), with microbial diversity (Shannon Index), the Firmicutes/Bacteroidetes (F/B) ratio, and select bacterial taxa were assessed., Results: Alpha diversity (r = -0.50) and F/B ratio (r = -0.47) were inversely associated (P < 0.05) with the PSQI score. Ten bacterial taxa were associated (P < 0.05) with the PSQI score, including genus-level Blautia (r = -0.57), Ruminococcus (r = -0.39), and Prevotella (r = 0.39)., Conclusions: In young healthy individuals, self-reported sleep quality was positively associated with microbial diversity. We also observed a positive association between sleep quality with F/B ratio, seemingly due to a greater relative abundance of Blautia and Ruminococcus (Firmicutes) and lower proportions of Prevotella (Bacteroidetes) in individuals reporting superior sleep quality. Future studies are encouraged to evaluate mechanistic links between the gut microbiome with sleep, as well as the health implications of this relationship., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

42. Functional and Genomic Variation between Human-Derived Isolates of Lachnospiraceae Reveals Inter- and Intra-Species Diversity.

Author

Sorbara MT, Littmann ER, Fontana E, Moody TU, Kohout CE, Gjonbalaj M, Eaton V, Seok R, Leiner IM, and Pamer EG

Subjects

Feces microbiology, Genome, Bacterial, Humans, Metagenomics, Phylogeny, RNA, Ribosomal, 16S genetics, Whole Genome Sequencing, Clostridiales classification, Clostridiales genetics, Gastrointestinal Microbiome genetics, Genetic Variation, Metabolic Networks and Pathways genetics

Abstract

Bacteria belonging to the Lachnospiraceae family are abundant, obligate anaerobic members of the microbiota in healthy humans. Lachnospiraceae impact their hosts by producing short-chain fatty acids, converting primary to secondary bile acids, and facilitating colonization resistance against intestinal pathogens. To increase our understanding of genomic and functional diversity between members of this family, we cultured 273 Lachnospiraceae isolates representing 11 genera and 27 species from human donors and performed whole-genome sequencing assembly and annotation. This analysis revealed substantial inter- and intra-species diversity in pathways that likely influence an isolate's ability to impact host health. These differences are likely to impact colonization resistance through lantibiotic expression or intestinal acidification, influence host mucosal immune cells and enterocytes via butyrate production, or contribute to synergism within a consortium by heterogenous polysaccharide metabolism. Identification of these specific functions could facilitate development of probiotic bacterial consortia that drive and/or restore in vivo microbiome functions., Competing Interests: Declaration of Interests E.G.P. has received speaker honoraria from Bristol-Myer Squibb, Celgene, Seres Therapeutics, MedImmune, Novartis, and Ferring Pharmaceuticals; is an inventor on patent application no. WPO2015179437A1, entitled “Methods and compositions for reducing Clostridium difficile infection” and no. WPO2017091753A1, entitled “Methods and compositions for reducing vancomycin-resistant Enterococci infection or colonization”; and holds patents that receive royalties from Seres Therapeutics. The remaining authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

43. Gut bacteria characteristic of the infant microbiota down-regulate inflammatory transcriptional responses in HT-29 cells.

Author

Pathmanathan SG, Lawley B, McConnell M, Baird MA, and Tannock GW

Subjects

HT29 Cells, Humans, Infant, Inflammation genetics, Inflammation metabolism, Intestinal Mucosa metabolism, Intestinal Mucosa microbiology, Intestinal Mucosa pathology, Bacteria, Gastrointestinal Microbiome, Gene Expression Regulation, Transcription, Genetic

Abstract

Immuno-modulatory effects of infant gut bacteria were tested on poly(I:C) stimulated HT-29 intestinal epithelial cells. Blautia producta, Bacteroides vulgatus, Bacteroides fragilis and Bacteroides thetaiotaomicron decreased transcription of poly(I:C)-induced inflammatory genes. Modulation of basal level and poly(I:C)-induced IL-8 secretion varied between bacterial species, and between heat treated and non-heat treated bacterial cells., Competing Interests: Declaration of competing interest Authors declare no conflict of interest., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

44. Gut microbiota determines the prevention effects of Luffa cylindrica (L.) Roem supplementation against obesity and associated metabolic disorders induced by high-fat diet.

Author

Zhang L, Shi M, Ji J, Hu X, and Chen F

Subjects

Animals, Inflammation etiology, Inflammation pathology, Male, Metabolic Diseases etiology, Metabolic Diseases pathology, Mice, Mice, Inbred C57BL, Diet, High-Fat adverse effects, Dietary Supplements, Gastrointestinal Microbiome drug effects, Inflammation prevention & control, Luffa chemistry, Metabolic Diseases prevention & control, Obesity complications

Abstract

The gut microbiota, identified as the target for vegetables, can affect the development of obesity and associated metabolic syndromes. As a medicinal and edible plant, Luffa cylindrica (L.) Roem (LC) has abundant nutrients that can effectively reduce obesity risk. However, the interaction between the prevention effects of LC against obesity and the modulating gut microbiota of LC remain obscure. This study demonstrated LC supplementation improved high-fat diet (HFD)-induced gut microbiota dysbiosis and significantly enhanced short-chain fatty acid (SCFA)-producing bacteria ( e.g. , Blautia ) along with SCFA content accumulation in the gut. Meanwhile, LC supplementation substantially restored gut barrier damage in long-term HFD treatment. Moreover, LC supplementation improved HFD-induced overweight, hyperlipidemia, insulin resistance, and chronic inflammation. Gene expression profiles showed that LC displayed an important impact on hepatic lipid transport and lipid synthesis (sterol regulatory element binding transcriptional factor 1c - peroxisome proliferator-activated receptor γ signaling pathway). More importantly, an antibiotic treatment experiment demonstrated that the beneficial effects of LC in reducing obesity risk largely depended on the gut microbiota, especially SCFA-producing bacteria ( e.g. , Blautia ). Therefore, LC supplementation improved gut microbiota dysbiosis via enhancing SCFA-producing bacteria ( e.g. , Blautia ), maintained gut barrier integrity, and alleviated the development of obesity. Overall, LC would provide a potential dietary intervention strategy against obesity and enteral homeostasis dysbiosis through modulating the gut microbiota.-Zhang, L., Shi, M., Ji, J., Hu, X., Chen, F. Gut microbiota determines the prevention effects of Luffa cylindrica (L.) Roem supplementation against obesity and associated metabolic disorders induced by high-fat diet.

Published

2019

45. Randomised clinical trial: effect of low-FODMAP rye bread versus regular rye bread on the intestinal microbiota of irritable bowel syndrome patients: association with individual symptom variation.

Author

Laatikainen R, Jalanka J, Loponen J, Hongisto SM, Hillilä M, Koskenpato J, Korpela R, and Salonen A

Abstract

Background: A low intake of Fermentable, Oligo-, Di-, Mono-saccharides and Polyols (FODMAPs) is effective in the symptom control of irritable bowel syndrome (IBS) patients but may exert negative effects on the intestinal microbiota. The microbial effects of increasing regular or non-FODMAP fibre sources are largely unknown. Furthermore, it is not known if the baseline microbiota composition is associated with individual symptom control during the consumption of different rye products in IBS patients. Our objective was to evaluate whether increased consumption of low-FODMAP rye bread or regular rye bread for 4 weeks would alter the intestinal microbiota composition of IBS patients following their habitual diet, and whether these changes associate to symptoms and/or the baseline microbiota., Methods: The study was conducted as a randomized double blind controlled cross-over study ( n  = 50). Microbiota was analysed by 16S rRNA gene sequencing and associated with gastrointestinal symptoms. Both microbial changes and their associations to symptoms were secondary outcomes., Results: The consumption of the test breads did not alter microbiota diversity. Compared to baseline, consumption of the low FODMAP rye bread decreased the abundance of Bacteroides , Flavonifractor , Holdemania, Parasutterella and Klebsiella and showed a trend towards increased bifidobacteria, whereas the regular rye bread decreased the abundance of Flavonifractor. When comparing between the two test breads, Klebsiella was decreased after low-FODMAP rye bread intake . Patients whose symptoms decreased during the low-FODMAP rye bread displayed more Blautia and less Barnesiella at baseline., Conclusions: Consumption of low-FODMAP rye bread had modest, potentially beneficial effects on patients' microbiota while increasing their intake of fibre substantially. The baseline microbiota composition was associated with the variable degrees of symptom relief experienced by the patients. Consumption of a low-FODMAP rye bread might be one way to increase dietary fibre intake and improve the mild dysbiosis often observed among patients with IBS., Trial Registration: ClinicalTrials.gov: NCT02161120. Retrospectively registered 11 June 2014., Competing Interests: Competing interestsRL has written a Finnish book on irritable bowel syndrome and diet. He is also the founder and owner of Booston Ltd., which provides IBS-related dietetic services to IBS patients, healthcare professionals and various organisations. S-MH and JL are employees of Fazer Group. Other authors do not report any competing interests., (© The Author(s). 2019.)

Published

2019

46. Blautia hominis sp. nov., isolated from human faeces.

Author

Shin NR, Kang W, Tak EJ, Hyun DW, Kim PS, Kim HS, Lee JY, Sung H, Whon TW, and Bae JW

Subjects

Bacterial Typing Techniques, Base Composition, Clostridiales genetics, Clostridiales isolation & purification, DNA, Bacterial genetics, Fatty Acids analysis, Fermentation, Humans, RNA, Ribosomal, 16S genetics, Republic of Korea, Sequence Analysis, DNA, Clostridiales classification, Feces microbiology, Phylogeny

Abstract

A strictly anaerobic, Gram-stain-positive, non-motile and coccoid- or oval-shaped bacterium, designated strain KB1 T , was isolated from a faecal sample of a patient with diverticulitis in South Korea. Degeneracies in the 16S rRNA gene sequence of strain KB1 T were resolved by cloning, which yielded five different sequences with heterogeneity. Phylogenetic analysis based on the 16S rRNA gene sequences showed that strain KB1 T formed a monophyletic branch with species in the genus Blautia, with highest sequence similarity to the type strain of Blautia producta (97.7-98.9 %), followed by Blautia coccoides (97.5-98.1 %). Strain KB1 T was able to grow at temperatures of between 15 and 42 °C, with optimal growth at 37 °C, and in the presence of 20 % dehydrated bile. Acetic acid, succinic acid, lactic acid and fumaric acid were produced by strain KB1 T from Gifu anaerobic medium broth as metabolic fermentation end-products. The major cellular fatty acids of strain KB1 T were C14 : 0, C16 : 0 and C16 : 0 dimethyl aldehyde. The DNA G+C content was 46.3 mol%. The average nucleotide identity value between strain KB1 T and the type strain of B. producta was 84.1 %. On the basis of polyphasic analysis, strain KB1 T represents a novel species in the genus Blautia, for which the name Blautia hominis sp. nov. is proposed. The type strain is KB1 T (=KCTC 15618 T =JCM 32276 T ).

Published

2018

47. Abundance and Diversity of Hydrogenotrophic Microorganisms in the Infant Gut before the Weaning Period Assessed by Denaturing Gradient Gel Electrophoresis and Quantitative PCR.

Author

Sagheddu V, Patrone V, Miragoli F, and Morelli L

Abstract

Delivery mode (natural vs. cesarean) and feeding type (breast vs. formula feeding) are relevant factors for neonatal gut colonization. Biomolecular methods have shown that the ecological structure of infant microbiota is more complex than previously proposed, suggesting a relevant presence of unculturable bacteria. It has also been postulated that among unculturable bacteria, hydrogenotrophic populations might play a key role in infant health. Sulfate-reducing bacteria (SRB), acetogens, and methanogenic archaea use hydrogenotrophic pathways within the human colon. However, to date, few studies have reported detection of hydrogenotrophic microorganisms in newborns, possibly because of limitations on available group-specific, culture-independent quantification procedures. In the present work, we analyzed 16 fecal samples of healthy babies aged 1-6 months by means of quantitative PCR (qPCR) targeting the 16S rRNA or metabolic functional genes and by denaturing gradient gel electrophoresis (DGGE). qPCR data showed quantifiable levels of methanogens, SRB, and acetogens in all samples, indicating that the relative abundances of these microbial groups were not affected by delivery mode (natural vs. caesarian). DGGE revealed a high prevalence of the Blautia genus within the acetogenic bacteria despite strong interindividual variability. Our preliminary results suggest that hydrogenotrophic microorganisms, which have been a neglected group to date, should be included in future ecological and metabolic studies evaluating the infant intestinal microbiota.

Published

2017

48. Demethylation of Polymethoxyflavones by Human Gut Bacterium, Blautia sp. MRG-PMF1.

Author

Burapan S, Kim M, and Han J

Subjects

Biotransformation, Firmicutes isolation & purification, Flavonoids chemistry, Humans, Methylation, Firmicutes metabolism, Flavonoids metabolism, Gastrointestinal Microbiome, Intestines microbiology

Abstract

Polymethoxyflavones (PMFs) were biotransformed to various demethylated metabolites in the human intestine by the PMF-metabolizing bacterium, Blautia sp. MRG-PMF1. Because the newly formed metabolites can have different biological activities, the pathways and regioselectivity of PMF bioconversion were investigated. Using an anaerobic in vitro study, 12 PMFs, 5,7-dimethoxyflavone (5,7-DMF), 5-hydroxy-7-methoxyflavone (5-OH-7-MF), 3,5,7-trimethoxyflavone (3,5,7-TMF), 5-hydroxy-3,7-dimethoxyflavone (5-OH-3,7-DMF), 5,7,4'-trimethoxyflavone (5,7,4'-TMF), 5-hydroxy-7,4'-dimethoxyflavone (5-OH-7,4'-DMF), 3,5,7,4'-tetramethoxyflavone (3,5,7,4'-TMF), 5-hydroxy-3,7,4'-trimethoxyflavone (5-OH-3,7,4'-TMF), 5,7,3',4'-tetramethoxyflavone (5,7,3',4'-TMF), 3,5,7,3',4'-pentamethoxyflavone (3,5,7,3',4'-PMF), 5-hydroxy-3,7,3',4'-tetramethoxyflavone (5-OH-3,7,3',4'-TMF), and 5,3'-dihydroxy-3,7,4'-trimethoxyflavone (5,3'-diOH-3,7,4'-TMF), were converted to chrysin, apigenin, galangin, kaempferol, luteolin, and quercetin after complete demethylation. The time-course monitoring of PMF biotransformations elucidated bioconversion pathways, including the identification of metabolic intermediates. As a robust flavonoid demethylase, regioselectivity of PMF demethylation generally followed the order C-7 > C-4' ≈ C-3' > C-5 > C-3. PMF demethylase in the MRG-PMF1 strain was suggested as a Co-corrinoid methyltransferase system, and this was supported by the experiments utilizing other methyl aryl ether substrates and inhibitors.

Published

2017

49. Japanese traditional dietary fungus koji Aspergillus oryzae functions as a prebiotic for Blautia coccoides through glycosylceramide: Japanese dietary fungus koji is a new prebiotic.

Author

Hamajima H, Matsunaga H, Fujikawa A, Sato T, Mitsutake S, Yanagita T, Nagao K, Nakayama J, and Kitagaki H

Abstract

Background: The Japanese traditional cuisine, Washoku, considered to be responsible for increased longevity among the Japanese, comprises various foods fermented with the non-pathogenic fungus Aspergillus oryzae (koji). We have recently revealed that koji contains an abundant amount of glycosylceramide. Intestinal microbes have significant effect on health. However, the effects of koji glycosylceramide on intestinal microbes have not been studied., Materials and Methods: Glycosylceramide was extracted and purified from koji. C57BL/6N mice were fed a diet containing 1 % purified koji glycosylceramide for 1 week. Nutritional parameters and faecal lipid constituents were analyzed. The intestinal microbial flora of mice on this diet was investigated., Results: Ingested koji glycosylceramide was neither digested by intestinal enzymes nor was it detected in the faeces, suggesting that koji glycosylceramide was digested by the intestinal microbial flora. Intestinal microbial flora that digested koji glycosylceramide had an increased ratio of Blautia coccoides. Stimulation of B. coccoides growth by pure koji glycosylceramide was confirmed in vitro., Conclusions: Koji functions as a prebiotic for B. coccoides through glycosylceramide. Since there are many reports of the effects of B. coccoides on health, an increase in intestinal B. coccoides by koji glycosylceramide might be the connection between Japanese cuisine, intestinal microbial flora, and longevity.

Published

2016

50. Infant Early Gut Colonization by Lachnospiraceae: High Frequency of Ruminococcus gnavus.

Author

Sagheddu V, Patrone V, Miragoli F, Puglisi E, and Morelli L

Abstract

Lachnospiraceae is a bacterial family usually isolated from human and mammalian intestinal microbiota. However, its presence and role in the infant microbiota is not fully elucidated. This may be due to the strictly anaerobic behavior of its members that hampers the possibility of culture-dependent enumeration. Here, we report on the presence of this bacterial group, using biomolecular techniques, in stool samples from 25 babies aged between 1 and 24 months. Denaturing gradient gel electrophoresis (DGGE) was used as a first detection step, and data were confirmed by quantitative PCR (qPCR). The DGGE showed the presence of Lachnospiraceae in infant fecal specimens and indicated the prevalence of Ruminococcus gnavus (R. gnavus). The qPCR confirmed the presence of the Clostridium XVIa group, Blautia genus, and R. gnavus, which are the main members of this family. We detected R. gnavus in 22 of 25 (88%) samples with a qPCR probe assay. Despite the difficulties associated with their detection and enumeration, Lachnospiraceae, and in particular R. gnavus, should be included in future studies on the infant microbiota composition.

Published

2016