Identification of gut microbial species linked with disease variability in a widely used mouse model of colitis

Experimental mouse models are central to basic biomedical research; however, variability exists across genetically identical mice and mouse facilities making comparisons difficult. Whether specific indigenous gut bacteria drive immunophenotypic variability in mouse models of human disease remains po...

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Veröffentlicht in:	Nature microbiology 2022-04, Vol.7 (4), p.590-599
Hauptverfasser:	Forster, Samuel C., Clare, Simon, Beresford-Jones, Benjamin S., Harcourt, Katherine, Notley, George, Stares, Mark D., Kumar, Nitin, Soderholm, Amelia T., Adoum, Anne, Wong, Hannah, Morón, Bélen, Brandt, Cordelia, Dougan, Gordon, Adams, David J., Maloy, Kevin J., Pedicord, Virginia A., Lawley, Trevor D.
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Schlagworte:	13/31 45/23 631/250/256 631/326/2565 64/60 692/4020/2199 Analysis Animal models Animals Bacteroidetes Biomedical and Life Sciences Colitis Colitis - chemically induced Colitis - microbiology Dextran Digestive system Disease Models, Animal Gastrointestinal Microbiome Gastrointestinal tract Infectious Diseases Inflammatory bowel disease Inflammatory bowel diseases Inflammatory Bowel Diseases - microbiology Intestinal microflora Intestine Laboratory animals Life Sciences Medical Microbiology Medical research Mice Microbiology Microbiomes Parasitology Rodents Species Virology
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creator	Forster, Samuel C. Clare, Simon Beresford-Jones, Benjamin S. Harcourt, Katherine Notley, George Stares, Mark D. Kumar, Nitin Soderholm, Amelia T. Adoum, Anne Wong, Hannah Morón, Bélen Brandt, Cordelia Dougan, Gordon Adams, David J. Maloy, Kevin J. Pedicord, Virginia A. Lawley, Trevor D.
description	Experimental mouse models are central to basic biomedical research; however, variability exists across genetically identical mice and mouse facilities making comparisons difficult. Whether specific indigenous gut bacteria drive immunophenotypic variability in mouse models of human disease remains poorly understood. We performed a large-scale experiment using 579 genetically identical laboratory mice from a single animal facility, designed to identify the causes of disease variability in the widely used dextran sulphate sodium mouse model of inflammatory bowel disease. Commonly used treatment endpoint measures—weight loss and intestinal pathology—showed limited correlation and varied across mouse lineages. Analysis of the gut microbiome, coupled with machine learning and targeted anaerobic culturing, identified and isolated two previously undescribed species, Duncaniella muricolitica and Alistipes okayasuensis , and demonstrated that they exert dominant effects in the dextran sulphate sodium model leading to variable treatment endpoint measures. We show that the identified gut microbial species are common, but not ubiquitous, in mouse facilities around the world, and suggest that researchers monitor for these species to provide experimental design opportunities for improved mouse models of human intestinal diseases. Large-scale gut microbiome analysis of a widely use mouse model of inflammatory bowel disease reveals that the gut microbiome is a driver of variability across genetically identical mice, in particular two species that are associated with variable treatment endpoints.
doi_str_mv	10.1038/s41564-022-01094-z
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Whether specific indigenous gut bacteria drive immunophenotypic variability in mouse models of human disease remains poorly understood. We performed a large-scale experiment using 579 genetically identical laboratory mice from a single animal facility, designed to identify the causes of disease variability in the widely used dextran sulphate sodium mouse model of inflammatory bowel disease. Commonly used treatment endpoint measures—weight loss and intestinal pathology—showed limited correlation and varied across mouse lineages. Analysis of the gut microbiome, coupled with machine learning and targeted anaerobic culturing, identified and isolated two previously undescribed species, Duncaniella muricolitica and Alistipes okayasuensis , and demonstrated that they exert dominant effects in the dextran sulphate sodium model leading to variable treatment endpoint measures. We show that the identified gut microbial species are common, but not ubiquitous, in mouse facilities around the world, and suggest that researchers monitor for these species to provide experimental design opportunities for improved mouse models of human intestinal diseases. Large-scale gut microbiome analysis of a widely use mouse model of inflammatory bowel disease reveals that the gut microbiome is a driver of variability across genetically identical mice, in particular two species that are associated with variable treatment endpoints.</description><identifier>ISSN: 2058-5276</identifier><identifier>EISSN: 2058-5276</identifier><identifier>DOI: 10.1038/s41564-022-01094-z</identifier><identifier>PMID: 35365791</identifier><language>eng</language><publisher>London: Nature Publishing Group UK</publisher><subject>13/31 ; 45/23 ; 631/250/256 ; 631/326/2565 ; 64/60 ; 692/4020/2199 ; Analysis ; Animal models ; Animals ; Bacteroidetes ; Biomedical and Life Sciences ; Colitis ; Colitis - chemically induced ; Colitis - microbiology ; Dextran ; Digestive system ; Disease Models, Animal ; Gastrointestinal Microbiome ; Gastrointestinal tract ; Infectious Diseases ; Inflammatory bowel disease ; Inflammatory bowel diseases ; Inflammatory Bowel Diseases - microbiology ; Intestinal microflora ; Intestine ; Laboratory animals ; Life Sciences ; Medical Microbiology ; Medical research ; Mice ; Microbiology ; Microbiomes ; Parasitology ; Rodents ; Species ; Virology</subject><ispartof>Nature microbiology, 2022-04, Vol.7 (4), p.590-599</ispartof><rights>The Author(s) 2022</rights><rights>2022. 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Whether specific indigenous gut bacteria drive immunophenotypic variability in mouse models of human disease remains poorly understood. We performed a large-scale experiment using 579 genetically identical laboratory mice from a single animal facility, designed to identify the causes of disease variability in the widely used dextran sulphate sodium mouse model of inflammatory bowel disease. Commonly used treatment endpoint measures—weight loss and intestinal pathology—showed limited correlation and varied across mouse lineages. Analysis of the gut microbiome, coupled with machine learning and targeted anaerobic culturing, identified and isolated two previously undescribed species, Duncaniella muricolitica and Alistipes okayasuensis , and demonstrated that they exert dominant effects in the dextran sulphate sodium model leading to variable treatment endpoint measures. We show that the identified gut microbial species are common, but not ubiquitous, in mouse facilities around the world, and suggest that researchers monitor for these species to provide experimental design opportunities for improved mouse models of human intestinal diseases. 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however, variability exists across genetically identical mice and mouse facilities making comparisons difficult. 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title	Identification of gut microbial species linked with disease variability in a widely used mouse model of colitis
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