Your search keyword '"Baines, John F"' showing total 6 results

1. Genome-wide association study in 8,956 German individuals identifies influence of ABO histo-blood groups on gut microbiome.

Author

Rühlemann MC, Hermes BM, Bang C, Doms S, Moitinho-Silva L, Thingholm LB, Frost F, Degenhardt F, Wittig M, Kässens J, Weiss FU, Peters A, Neuhaus K, Völker U, Völzke H, Homuth G, Weiss S, Grallert H, Laudes M, Lieb W, Haller D, Lerch MM, Baines JF, and Franke A

Subjects

Bacteroides genetics, Faecalibacterium genetics, Fucosyltransferases genetics, Genome-Wide Association Study, Germany, Humans, Lactase genetics, Linkage Disequilibrium, Mendelian Randomization Analysis, Galactoside 2-alpha-L-fucosyltransferase, ABO Blood-Group System genetics, Gastrointestinal Microbiome genetics

Abstract

The intestinal microbiome is implicated as an important modulating factor in multiple inflammatory 1,2 , neurologic 3 and neoplastic diseases 4 . Recent genome-wide association studies yielded inconsistent, underpowered and rarely replicated results such that the role of human host genetics as a contributing factor to microbiome assembly and structure remains uncertain 5-11 . Nevertheless, twin studies clearly suggest host genetics as a driver of microbiome composition 11 . In a genome-wide association analysis of 8,956 German individuals, we identified 38 genetic loci to be associated with single bacteria and overall microbiome composition. Further analyses confirm the identified associations of ABO histo-blood groups and FUT2 secretor status with Bacteroides and Faecalibacterium spp. Mendelian randomization analysis suggests causative and protective effects of gut microbes, with clade-specific effects on inflammatory bowel disease. This holistic investigative approach of the host, its genetics and its associated microbial communities as a 'metaorganism' broaden our understanding of disease etiology, and emphasize the potential for implementing microbiota in disease treatment and management.

Published

2021

2. Geographical patterns of the standing and active human gut microbiome in health and IBD.

Author

Rehman A, Rausch P, Wang J, Skieceviciene J, Kiudelis G, Bhagalia K, Amarapurkar D, Kupcinskas L, Schreiber S, Rosenstiel P, Baines JF, and Ott S

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Clostridium isolation & purification, Female, Germany, Humans, India, Lithuania, Male, Microbiota, Middle Aged, RNA, Ribosomal, RNA, Ribosomal, 16S analysis, Young Adult, Inflammatory Bowel Diseases microbiology, Intestinal Mucosa microbiology

Abstract

Objective: A global increase of IBD has been reported, especially in countries that previously had low incidence rates. Also, the knowledge of the human gut microbiome is steadily increasing, however, limited information regarding its variation on a global scale is available. In the light of the microbial involvement in IBDs, we aimed to (1) identify shared and distinct IBD-associated mucosal microbiota patterns from different geographical regions including Europe (Germany, Lithuania) and South Asia (India) and (2) determine whether profiling based on 16S rRNA transcripts provides additional resolution, both of which may hold important clinical relevance., Design: In this study, we analyse a set of 89 mucosal biopsies sampled from individuals of German, Lithuanian and Indian origins, using bacterial community profiling of a roughly equal number of healthy controls, patients with Crohn's disease and UC from each location, and analyse 16S rDNA and rRNA as proxies for standing and active microbial community structure, respectively., Results: We find pronounced population-specific as well as general disease patterns in the major phyla and patterns of diversity, which differ between the standing and active communities. The geographical origin of samples dominates the patterns of β diversity with locally restricted disease clusters and more pronounced effects in the active microbial communities. However, two genera belonging to the Clostridium leptum subgroup, Faecalibacteria and Papillibacter, display consistent patterns with respect to disease status and may thus serve as reliable 'microbiomarkers'., Conclusions: These analyses reveal important interactions of patients' geographical origin and disease in the interpretation of disease-associated changes in microbial communities and highlight the added value of analysing communities on both the 16S rRNA gene (DNA) and transcript (RNA) level., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/)

Published

2016

3. Analysis of intestinal microbiota in hybrid house mice reveals evolutionary divergence in a vertebrate hologenome.

Author

Wang J, Kalyan S, Steck N, Turner LM, Harr B, Künzel S, Vallier M, Häsler R, Franke A, Oberg HH, Ibrahim SM, Grassl GA, Kabelitz D, and Baines JF

Subjects

Animals, Base Sequence, Crosses, Genetic, DNA Primers genetics, Flow Cytometry, Genetics, Population, Germany, Mice microbiology, Molecular Sequence Data, Quantitative Trait Loci, Selection, Genetic, Sequence Analysis, DNA, Species Specificity, Biological Evolution, Gastrointestinal Microbiome genetics, Genome genetics, Hybridization, Genetic genetics, Mice genetics, Models, Genetic

Abstract

Recent evidence suggests that natural selection operating on hosts to maintain their microbiome contributes to the emergence of new species, that is, the 'hologenomic basis of speciation'. Here we analyse the gut microbiota of two house mice subspecies, Mus musculus musculus and M. m. domesticus, across their Central European hybrid zone, in addition to hybrids generated in the lab. Hybrid mice display widespread transgressive phenotypes (that is, exceed or fall short of parental values) in a variety of measures of bacterial community structure, which reveals the importance of stabilizing selection operating on the intestinal microbiome within species. Further genetic and immunological analyses reveal genetic incompatibilities, aberrant immune gene expression and increased intestinal pathology associated with altered community structure among hybrids. These results provide unique insight into the consequences of evolutionary divergence in a vertebrate 'hologenome', which may be an unrecognized contributing factor to reproductive isolation in this taxonomic group.

Published

2015

4. Dietary history contributes to enterotype-like clustering and functional metagenomic content in the intestinal microbiome of wild mice.

Author

Wang J, Linnenbrink M, Künzel S, Fernandes R, Nadeau MJ, Rosenstiel P, and Baines JF

Subjects

Analysis of Variance, Animals, Base Sequence, Carbon Isotopes analysis, Cluster Analysis, DNA Primers genetics, Feces microbiology, France, Germany, Liver chemistry, Metagenomics methods, Molecular Sequence Data, Muscle, Skeletal chemistry, Nitrogen Isotopes analysis, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Species Specificity, Animal Feed analysis, Bacteria genetics, Diet, Intestines microbiology, Mice microbiology, Microbiota genetics

Abstract

Understanding the origins of gut microbial community structure is critical for the identification and interpretation of potential fitness-related traits for the host. The presence of community clusters characterized by differences in the abundance of signature taxa, referred to as enterotypes, is a debated concept first reported in humans and later extended to other mammalian hosts. In this study, we provide a thorough assessment of their existence in wild house mice using a panel of evaluation criteria. We identify support for two clusters that are compositionally similar to clusters identified in humans, chimpanzees, and laboratory mice, characterized by differences in Bacteroides, Robinsoniella, and unclassified genera belonging to the family Lachnospiraceae. To further evaluate these clusters, we (i) monitored community changes associated with moving mice from the natural to a laboratory environment, (ii) performed functional metagenomic sequencing, and (iii) subjected wild-caught samples to stable isotope analysis to reconstruct dietary patterns. This process reveals differences in the proportions of genes involved in carbohydrate versus protein metabolism in the functional metagenome, as well as differences in plant- versus meat-derived food sources between clusters. In conjunction with wild-caught mice quickly changing their enterotype classification upon transfer to a standard laboratory chow diet, these results provide strong evidence that dietary history contributes to the presence of enterotype-like clustering in wild mice.

Published

2014

5. The role of biogeography in shaping diversity of the intestinal microbiota in house mice.

Author

Linnenbrink M, Wang J, Hardouin EA, Künzel S, Metzler D, and Baines JF

Subjects

Animals, DNA, Bacterial genetics, DNA, Mitochondrial genetics, Europe, France, Gene-Environment Interaction, Genetic Loci, Genetic Variation, Germany, Microsatellite Repeats, Molecular Sequence Data, Phylogeography, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Intestines microbiology, Metagenome genetics, Mice microbiology

Abstract

The microbial communities inhabiting the mammalian intestinal tract play an important role in diverse aspects of host biology. However, little is known regarding the forces shaping variation in these communities and their influence on host fitness. To shed light on the contributions of host genetics, transmission and geography to diversity in microbial communities between individuals, we performed a survey of intestinal microbial communities in a panel of 121 house mice derived from eight locations across Western Europe using pyrosequencing of the bacterial 16S rRNA gene. The host factors studied included population structure estimated by microsatellite loci and mitochondrial DNA, genetic distance and geography. To determine whether host tissue (mucosa)-associated communities display properties distinct from those of the lumen, both the caecal mucosa and contents were examined. We identified Bacteroides, Robinsoniella and Helicobacter as the most abundant genera in both the caecal content and mucosa-associated communities of wild house mice. Overall, we found geography to be the most significant factor explaining patterns of diversity in the intestinal microbiota, with a comparatively weaker influence of host population structure and genetic distance. Furthermore, the influence of host genetic distance was limited to the mucosa communities, consistent with this environment being more intimately coupled to the host., (© 2013 Blackwell Publishing Ltd.)

Published

2013

6. Colonic mucosa-associated microbiota is influenced by an interaction of Crohn disease and FUT2 (Secretor) genotype.

Author

Rausch P, Rehman A, Künzel S, Häsler R, Ott SJ, Schreiber S, Rosenstiel P, Franke A, and Baines JF

Subjects

Analysis of Variance, Base Sequence, Genotype, Germany, Humans, Models, Genetic, Molecular Sequence Data, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Alignment, Sequence Analysis, DNA, White People genetics, Galactoside 2-alpha-L-fucosyltransferase, Colon microbiology, Crohn Disease genetics, Crohn Disease microbiology, Fucosyltransferases genetics, Intestinal Mucosa microbiology, Metagenome genetics

Abstract

The FUT2 (Secretor) gene is responsible for the presence of ABO histo-blood group antigens on the gastrointestinal mucosa and in bodily secretions. Individuals lacking a functional copy of FUT2 are known as "nonsecretors" and display an array of differences in susceptibility to infection and disease, including Crohn disease. To determine whether variation in resident microbial communities with respect to FUT2 genotype is a potential factor contributing to susceptibility, we performed 454-based community profiling of the intestinal microbiota in a panel of healthy subjects and Crohn disease patients and determined their genotype for the primary nonsecretor allele in Caucasian populations, W143X (G428A). Consistent with previous studies, we observe significant deviations in the microbial communities of individuals with Crohn disease. Furthermore, the FUT2 genotype explains substantial differences in community composition, diversity, and structure, and we identified several bacterial species displaying disease-by-genotype associations. These findings indicate that alterations in resident microbial communities may in part explain the variety of host susceptibilities surrounding nonsecretor status and that FUT2 is an important genetic factor influencing host-microbial diversity.

Published

2011