Foxp3+ T Cells Regulate Immunoglobulin A Selection and Facilitate Diversification of Bacterial Species Responsible for Immune Homeostasis

Kawamoto, Shimpei; Maruya, Mikako; Kato, Lucia; Suda, Wataru; Atarashi, Koji; Doi, Yasuko; Tsutsui, Yumi; Qin, Hong‐Yan; Honda, Kenya; Okada, Takaharu; Hattori, Masahira; Fagarasan, Sidonia

doi:10.1016/j.immuni.2014.05.016

Cited by 454 publications

(444 citation statements)

References 54 publications

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“…T cells can promote the diversification of Firmicutes, including Clostridium clusters IV and XIVa, which are inducers of T reg cells [9,10,88]. These results strongly suggest that clostridia can not only induce Foxp3 expression, but Foxp3…”

Section: ? T Cells or Transfer Of Foxp3mentioning

confidence: 80%

“…T cells alone increased bacterial diversity and modified the composition of the microbiota to the degree of the wild-type mice [88]. In addition, Foxp3…”

Section: ? T Cells or Transfer Of Foxp3mentioning

confidence: 98%

“…IgA responses are involved in maintaining host-bacterium mutualism by limiting innate immune responses to a specific gut microbiota [87]. A recent study by Kawamoto et al [88] demonstrated an important role of T reg cells in promoting the diversity of the microbiota through regulation of IgA selection and in facilitating bacterial species responsible for gut homeostasis. To assess which CD4…”

Section: Regulation Of Immune System By the Intestinal Microbiotamentioning

confidence: 99%

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A breakthrough in probiotics: Clostridium butyricum regulates gut homeostasis and anti-inflammatory response in inflammatory bowel disease

2015

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Intestinal immune homeostasis is regulated by gut microbiota, including beneficial and pathogenic microorganisms. Imbalance in gut bacterial constituents provokes host proinflammatory responses causing diseases such as inflammatory bowel disease (IBD). The development of next-generation sequencing technology allows the identification of microbiota alterations in IBD. Several studies have shown reduced diversity in the gut microbiota of patients with IBD. Advances in gnotobiotic technology have made possible analysis of the role of specific bacterial strains in immune cells in the intestine. Using these techniques, we have shown that Clostridium butyricum as a probiotic induces interleukin-10-producing macrophages in inflamed mucosa via the Toll-like receptor 2/myeloid differentiation primary response gene 88 pathway to prevent acute experimental colitis. In this review, we focus on the new approaches for the role of specific bacterial strains in immunological responses, as well as the potential of bacterial therapy for IBD treatments.

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Section: ? T Cells or Transfer Of Foxp3mentioning

confidence: 80%

“…T cells alone increased bacterial diversity and modified the composition of the microbiota to the degree of the wild-type mice [88]. In addition, Foxp3…”

Section: ? T Cells or Transfer Of Foxp3mentioning

confidence: 98%

Section: Regulation Of Immune System By the Intestinal Microbiotamentioning

confidence: 99%

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A breakthrough in probiotics: Clostridium butyricum regulates gut homeostasis and anti-inflammatory response in inflammatory bowel disease

2015

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“…Links between bacterial infections and autoimmune diseases of the gut have been found [98,99]. However, the complexity of the human microbiome may make it difficult to deconvolute the many cross-reactive peptides that could be driving this link.…”

Section:  Autoimmune Disease and The Gut Microbiomementioning

confidence: 99%

T cell epitope redundancy: cross-conservation of the TCR face between pathogens and self and its implications for vaccines and autoimmunity

Moise

Beseme

Tassone

et al. 2016

Expert Review of Vaccines

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SummaryT cells are extensively trained on 'self' in the thymus and then move to the periphery, where they seek out and destroy infections and regulate immune response to self-antigens. T cell receptors (TCR) on T cells' surface recognize T cell epitopes, short linear strings of amino acids presented by antigen-presenting cells. Some of these epitopes activate T effectors, while others activate regulatory T cells. It was recently discovered that T cell epitopes that are highly conserved on their TCR face with human genome sequences are often associated with T cells that regulate immune response. These TCR-cross-conserved or 'redundant epitopes' are more common in proteins found in pathogens that have co-evolved with humans than in other noncommensal pathogens. Epitope redundancy might be the link between pathogens and autoimmune disease. This article reviews recently published data and addresses epitope redundancy, the "elephant in the room" for vaccine developers and T cell immunologists.

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“…Of note, these cytokines also stimulate B cell production of immunoglobulin A (IgA), a mucosal antibody class that controls commensal bacteria inhabiting the lumen of the gut [5].…”

mentioning

confidence: 99%

Copycat innate lymphoid cells dampen gut inflammation

Magri

Cerutti

2015

Cell Res

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Foxp3+ T Cells Regulate Immunoglobulin A Selection and Facilitate Diversification of Bacterial Species Responsible for Immune Homeostasis

Cited by 454 publications

References 54 publications

A breakthrough in probiotics: Clostridium butyricum regulates gut homeostasis and anti-inflammatory response in inflammatory bowel disease

A breakthrough in probiotics: Clostridium butyricum regulates gut homeostasis and anti-inflammatory response in inflammatory bowel disease

T cell epitope redundancy: cross-conservation of the TCR face between pathogens and self and its implications for vaccines and autoimmunity

Copycat innate lymphoid cells dampen gut inflammation

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