Sean R. Llewellyn scite author profile

SUMMARY Microbiota are thought to influence the development and progression of inflammatory bowel disease (IBD), but determining generalizable effects of microbiota on IBD etiology requires larger-scale functional analyses. We colonized germ-free mice with intestinal microbiotas from 30 healthy and IBD donors and determined the homeostatic intestinal T cell response to each microbiota. Compared to microbiotas from healthy donors, transfer of IBD microbiotas into germ-free mice increased numbers of intestinal Th17 cells and Th2 cells and decreased numbers of RORγt+ Treg cells. Colonization with IBD microbiotas exacerbated disease in a model where colitis is induced upon transfer of naive T cells into Rag1−/− mice. The proportions of Th17 and RORγt+ Treg cells induced by each microbiota were predictive of human disease status and accounted for disease severity in the Rag1−/− colitis model. Thus, an impact on intestinal Th17 and RORγt+ Treg cell compartments emerges as a unifying feature of IBD microbiotas, suggesting a general mechanism for microbial contribution to IBD pathogenesis.

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Interactions Between Diet and the Intestinal Microbiota Alter Intestinal Permeability and Colitis Severity in Mice

Llewellyn

et al. 2018

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A functional genomics predictive network model identifies regulators of inflammatory bowel disease

et al. 2017

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A major challenge in inflammatory bowel disease (IBD) is the integration of diverse IBD data sets to construct predictive models of IBD. We present a predictive model of the immune component of IBD that informs causal relationships among loci previously linked to IBD through genome-wide association studies (GWAS) using functional and regulatory annotations that relate to the cells, tissues, and pathophysiology of IBD. Our model consists of individual networks constructed using molecular data generated from intestinal samples isolated from three populations of patients with IBD at different stages of disease. We performed key driver analysis to identify genes predicted to modulate network regulatory states associated with IBD, prioritizing and prospectively validating 12 of the top key drivers experimentally. This validated key driver set not only introduces new regulators of processes central to IBD but also provides the integrated circuits of genetic, molecular, and clinical traits that can be directly queried to interrogate and refine the regulatory framework defining IBD.

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Gut microbiota density influences host physiology and is shaped by host and microbial factors

Contijoch¹,

Britton²,

Yang³

et al. 2019

143

138

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To identify factors that regulate gut microbiota density and the impact of varied microbiota density on health, we assayed this fundamental ecosystem property in fecal samples across mammals, human disease, and therapeutic interventions. Physiologic features of the host (carrying capacity) and the fitness of the gut microbiota shape microbiota density. Therapeutic manipulation of microbiota density in mice altered host metabolic and immune homeostasis. In humans, gut microbiota density was reduced in Crohn’s disease, ulcerative colitis, and ileal pouch-anal anastomosis. The gut microbiota in recurrent Clostridium difficile infection had lower density and reduced fitness that were restored by fecal microbiota transplantation. Understanding the interplay between microbiota and disease in terms of microbiota density, host carrying capacity, and microbiota fitness provide new insights into microbiome structure and microbiome targeted therapeutics.Editorial note: This article has been through an editorial process in which the authors decide how to respond to the issues raised during peer review. The Reviewing Editor's assessment is that all the issues have been addressed (see decision letter).

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Gut microbiota density influences host physiology and is shaped by host and microbial factors

Contijoch

Britton

Yang

et al. 2018

Preprint

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Summary 34To identify factors that regulate the absolute microbiota and the impact of varied microbiota density on health, we assayed 35 gut microbiota density across mammals, disease, and therapeutic interventions. Physiologic features of the host (carrying 36 capacity) and the fitness of the gut microbiota shape microbiota density. Therapeutic manipulation of microbiota density in 37 mice altered host metabolic and immune homeostasis. In humans, gut microbiota density was reduced in Crohn's disease, 38 ulcerative colitis, and ileal pouch-anal anastomosis. The gut microbiota in recurrent Clostridium difficile infection had lower 39 density and reduced fitness that were restored by fecal microbiota transplantation. Understanding the interplay between 40 microbiota and disease through the conceptual framework of microbiota density, host carrying capacity, and microbiota fitness 41 could provide biomarkers to identify candidates for microbiota therapeutics and monitor their response.

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Sean R. Llewellyn

Microbiotas from Humans with Inflammatory Bowel Disease Alter the Balance of Gut Th17 and RORγt+ Regulatory T Cells and Exacerbate Colitis in Mice

Interactions Between Diet and the Intestinal Microbiota Alter Intestinal Permeability and Colitis Severity in Mice

A functional genomics predictive network model identifies regulators of inflammatory bowel disease

Gut microbiota density influences host physiology and is shaped by host and microbial factors

Gut microbiota density influences host physiology and is shaped by host and microbial factors

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