Defective IgA response to atypical intestinal commensals in IL-21 receptor deficiency reshapes immune cell homeostasis and mucosal immunity

Cho, Hyeseon; Jaime, Henrique; Oliveira, Raquel Peres de; Kang, Byunghyun; Spolski, Rosanne; Vaziri, Tina; Myers, Timothy G.; Thovarai, Vishal; Shen, Zeli; Fox, James G.; Leonard, Warren J.; Kelsall, Brian L.

doi:10.1038/s41385-018-0056-x

Cited by 32 publications

(25 citation statements)

References 62 publications

(103 reference statements)

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“…As IgA-producing plasma cells of gut-associated lymphoid tissue are rich in lamina propria, the immune response by ACPA and rheumatoid factor of IgA isotype can be initiated in the intestinal mucosal tissue in RA. 61 Interestingly, IL-21, highlighted by our gene set analysis, is primarily produced in the small intestine and is important in IgA responses to gut atypical commensals 62 and T helper cell responses in intestinal inflammation in lamina propria in mice. 63 In gut microbiota-induced arthritis in a murine model, T follicular helper cells were induced in lamina propria of gut before the onset of experimental arthritis and migrated to systemic lymphoid tissues, resulting in autoantibody production and arthritis.…”

Section: Discussionmentioning

confidence: 95%

Genome-wide association study in a Korean population identifies six novel susceptibility loci for rheumatoid arthritis

et al. 2020

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ObjectiveGenome-wide association studies (GWAS) in rheumatoid arthritis (RA) have discovered over 100 RA loci, explaining patient-relevant RA pathogenesis but showing a large fraction of missing heritability. As a continuous effort, we conducted GWAS in a large Korean RA case–control population.MethodsWe newly generated genome-wide variant data in two independent Korean cohorts comprising 4068 RA cases and 36 487 controls, followed by a whole-genome imputation and a meta-analysis of the disease association results in the two cohorts. By integrating publicly available omics data with the GWAS results, a series of bioinformatic analyses were conducted to prioritise the RA-risk genes in RA loci and to dissect biological mechanisms underlying disease associations.ResultsWe identified six new RA-risk loci (SLAMF6, CXCL13, SWAP70, NFKBIA, ZFP36L1 and LINC00158) with pmeta<5×10−8 and consistent disease effect sizes in the two cohorts. A total of 122 genes were prioritised from the 6 novel and 13 replicated RA loci based on physical distance, regulatory variants and chromatin interaction. Bioinformatics analyses highlighted potentially RA-relevant tissues (including immune tissues, lung and small intestine) with tissue-specific expression of RA-associated genes and suggested the immune-related gene sets (such as CD40 pathway, IL-21-mediated pathway and citrullination) and the risk-allele sharing with other diseases.ConclusionThis study identified six new RA-associated loci that contributed to better understanding of the genetic aetiology and biology in RA.

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Section: Discussionmentioning

confidence: 95%

Genome-wide association study in a Korean population identifies six novel susceptibility loci for rheumatoid arthritis

et al. 2020

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“…274,292 ) IL-21 signaling in the small intestine plays an integral role in inducing an IgA-specific response to SFB, as deletion of IL-21 receptor diminishes the number of germinal center and IgA + B cells along with a remarkable reduction in small intestine IgA + plasmablasts (PB) and PCs. 293 Pediococcus acidilactici K15, one of the strains of lactic acid bacteria whose bacterial RNA endows DCs to secrete IL-6 and IL-10, resulting in increased B cell-derived sIgA at mucosal sites in humans. 294 Intriguingly, crosstalk between gut microbiome and IgA is not limited in the gut.…”

Section: Microbiota-mediated Modulation Of Th1 Cellsmentioning

confidence: 99%

Demystifying the manipulation of host immunity, metabolism, and extraintestinal tumors by the gut microbiome

Zhang

Tang

Chen

et al. 2019

Sig Transduct Target Ther

182

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The trillions of microorganisms in the gut microbiome have attracted much attention recently owing to their sophisticated and widespread impacts on numerous aspects of host pathophysiology. Remarkable progress in large-scale sequencing and mass spectrometry has increased our understanding of the influence of the microbiome and/or its metabolites on the onset and progression of extraintestinal cancers and the efficacy of cancer immunotherapy. Given the plasticity in microbial composition and function, microbial-based therapeutic interventions, including dietary modulation, prebiotics, and probiotics, as well as fecal microbial transplantation, potentially permit the development of novel strategies for cancer therapy to improve clinical outcomes. Herein, we summarize the latest evidence on the involvement of the gut microbiome in host immunity and metabolism, the effects of the microbiome on extraintestinal cancers and the immune response, and strategies to modulate the gut microbiome, and we discuss ongoing studies and future areas of research that deserve focused research efforts.

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“…T-follicular helper (Tfh) cells in Peyer's patches interact with IgM + naive B2 cells and promote class switching to produce IgA via IL-21, retinoic acid, and CD40/CD40L interaction, which are specifically initiated by communication with bacteria. 47,48 Commensal bacteria, including pathobionts, elicit IgA with specificity for particular bacterial epitopes. 49 IgA against specific bacterial antigens may assist in bacterial clearance and prevent translocation across the epithelium, and IgA can mark colitogenic, proinflammatory bacteria that contribute to intestinal inflammation.…”

Section: Protective Responses Of Igamentioning

confidence: 99%

B cells and the microbiota: a missing connection in food allergy

2021

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Food allergies are a major public health concern due to their widespread and rising prevalence. The increase in food allergy is partially due to Western lifestyle habits which deplete protective commensal microbiota. These microbial perturbations can result in adverse host-microbe interactions, altering the phenotype of various immune cells and instigating allergic sensitization. Although B cells are critical to allergic pathology, microbial influences on B cells have been somewhat overlooked. Here, we focus on direct and indirect interactions between bacteria and B cells and how such interactions regulate B-cell phenotype, namely antibody production (IgA, IgE, IgG1, and IgG4) and regulatory B-cell (Breg) function. Understanding how microbes modulate B-cell activity in the context of food allergies is critical to both tracing the development of disease and assessing future treatment options.

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Defective IgA response to atypical intestinal commensals in IL-21 receptor deficiency reshapes immune cell homeostasis and mucosal immunity

Cited by 32 publications

References 62 publications

Genome-wide association study in a Korean population identifies six novel susceptibility loci for rheumatoid arthritis

Genome-wide association study in a Korean population identifies six novel susceptibility loci for rheumatoid arthritis

Demystifying the manipulation of host immunity, metabolism, and extraintestinal tumors by the gut microbiome

B cells and the microbiota: a missing connection in food allergy

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