Accurate identification and quantification of commensal microbiota bound by host immunoglobulins

Jackson, Matthew A.; Pearson, Claire; Ilott, Nicholas E.; Huus, Kelsey E.; Hegazy, Ahmed N.; Webber, Jonathan; Powrie, Fiona; Lam, Lilian H.

doi:10.1186/s40168-020-00992-w

Cited by 39 publications

(33 citation statements)

References 59 publications

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“…In comparison, previous studies used the ratio of the relative abundance of IgA+ and IgAbacteria (Palm et al, 2014) or an IgA binding index (Kau et al, 2015) to define which microbes are targeted by IgA, each of which has drawbacks. The Bayesian approach provides several important advantages compared to other methods including avoiding artifactual associations based on different relative abundances of ASVs, increased power to detect differences in antibody binding to specific ASVs between experimental groups and lower coefficients of variation (Jackson et al, 2021). This study reveals clear connections at the level of common microbial targets across the mucosal (IgA and IgM) and systemic (IgG) antibody networks.…”

Section: Discussionmentioning

confidence: 92%

“…In this study, we developed an integrated approach (mFLOW-Seq) to simultaneously define the specific microbial targets of local secretory IgA and IgM and systemic IgG in children with IgA deficiency and their unaffected siblings, in addition to the host immunophenotype, investigating the impact of IgA deficiency on both cytokine milieu and lymphocyte subset presence and activation state. In our analysis of antibody targets, we adapted a Bayesian analytic approach (Jackson et al, 2021) to determine the probability of binding by each antibody isotype (i.e., IgA, IgM and IgG) to provide an intuitive and specific measure of antibody targeting across multiple isotypes. In comparison, previous studies used the ratio of the relative abundance of IgA+ and IgAbacteria (Palm et al, 2014) or an IgA binding index (Kau et al, 2015) to define which microbes are targeted by IgA, each of which has drawbacks.…”

Section: Discussionmentioning

confidence: 99%

“…To explore the different models ("discrete" vs. "continuous") of antibody binding to commensals in the gut, we employed Bayesian analysis to define the absolute probability on a scale of 0-100% that a microbe from a given ASV is bound by sIgA, sIgM or both (Jackson et al, 2021). The Bayesian approach provides several important advantages compared to other methods including avoiding artifactual associations based on different relative abundances of ASVs, increased power to detect differences in antibody binding to specific ASVs between experimental groups and lower coefficients of variation (Jackson et al, 2021). Linear mixed effect (LME) modeling was then applied to binding probabilities to define which ASVs are preferentially coated by sIgM or sIgA.…”

Section: Secretory Iga and Igm Coat An Overlapping Subset Of Commensal Microbes Enriched In Firmicutesmentioning

confidence: 99%

“…Difference in centroids between groups were calculated using PERMANOVA test. The binding probability ratios of each ASV was calculated for the IgA, IgM and IgG populations using the method described before (Jackson et al, 2021) with the following modifications. Differences between binding probability ratios were estimated using linear mixed effects models.…”

Section: VIImentioning

confidence: 99%

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IgA deficiency destabilizes immunological homeostasis towards intestinal microbiota and increases the risk of systemic immune dysregulation

Conrey

Denu

O’Boyle

et al. 2021

Preprint

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Mammals produce large quantities of mucosal and systemic antibodies that maintain the intestinal barrier, shape the intestinal microbiome and promote lifelong mutualism with commensal microbes. Here, we developed an integrated host-commensal approach combining microbial flow cytometry and 16s rRNA gene sequencing to define the core microbes that induce mucosal and systemic antibodies in pediatric selective Immunoglobulin A (IgA) deficient and household control siblings with CyTOF analysis to determine the impacts of IgA deficiency on host cellular immune phenotype. In healthy controls, mucosal secretory IgA and IgM antibodies coat an overlapping subset of microbes, predominantly Firmicutes and Proteobacteria. Serum IgG antibodies target a similar consortium of fecal microbes, revealing connections between mucosal and systemic antibody networks. Unexpectedly, IgM provides limited compensation for IgA in children lacking intestinal IgA. Furthermore, we find broad systemic immune dysregulation in a subset of children and mice lacking IgA, including enhanced IgG targeting of fecal microbiota, elevated levels of inflammatory and allergic cytokines and alterations in T cell activation state. Thus, IgA tunes systemic interactions between the host and commensal microbiota. Understanding how IgA tunes baseline immune tone has implications for predicting and preventing autoimmune, inflammatory and allergic diseases broadly, as well as providing improved prognostic guidance to patients with IgA deficiency.

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Section: Discussionmentioning

confidence: 92%

Section: Discussionmentioning

confidence: 99%

Section: Secretory Iga and Igm Coat An Overlapping Subset Of Commensal Microbes Enriched In Firmicutesmentioning

confidence: 99%

Section: VIImentioning

confidence: 99%

See 2 more Smart Citations

IgA deficiency destabilizes immunological homeostasis towards intestinal microbiota and increases the risk of systemic immune dysregulation

Conrey

Denu

O’Boyle

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…A major challenge to accurately characterise low biomass communities is contamination from external sources. A recent study using flow cytometry has also reported the enrichment of low abundance contaminant reads in their sorted samples [ 68 ]. Contamination could potentially occur during sorting and/or library preparation [ 69 ].…”

Section: Discussionmentioning

confidence: 99%

Hierarchical modelling of immunoglobulin coated bacteria in dogs with chronic enteropathy shows reduction in coating with disease remission but marked inter-individual and treatment-response variability

et al. 2021

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Chronic enteropathies are a common problem in dogs, but many aspects of the pathogenesis remain unknown, making the therapeutic approach challenging in some cases. Environmental factors are intimately related to the development and perpetuation of gastrointestinal disease and the gut microbiome has been identified as a contributing factor. Previous studies have identified dysbiosis and reduced bacterial diversity in the gastrointestinal microbiota of dogs with chronic enteropathies. In this case-controlled study, we use flow cytometry and 16S rRNA sequencing to characterise bacteria highly coated with IgA or IgG in faecal samples from dogs with chronic enteropathy and evaluated their correlation with disease and resolution of the clinical signs. IgA and IgG-coated faecal bacterial counts were significantly higher during active disease compared to healthy dogs and decreased with the resolution of the clinical signs. Characterisation of taxa-specific coating of the intestinal microbiota with IgA and IgG showed marked variation between dogs and disease states, and different patterns of immunoglobulin enrichment were observed in dogs with chronic enteropathy, particularly for Erysipelotrichaceae, Clostridicaceae, Enterobacteriaceae, Prevotellaceae and Bacteroidaceae, families. Although, members of these bacterial groups have been associated with strong immunogenic properties and could potentially constitute important biomarkers of disease, their significance and role need to be further investigated.

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Single‐cell phenotyping of bacteria combined with deep sequencing for improved contextualization of microbiome analyses

Budzinski,

von Goetze,

Chang

2023

Eur J Immunol

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Great effort was made to characterize the bacterial communities inhabiting the human body as a factor in disease, resulting in the realization that a wide spectrum of diseases is associated with an altered composition of the microbiome. However, the identification of disease‐relevant bacteria has been hindered by the high cross‐sectional diversity of individual microbiomes, and in most cases, it remains unclear whether the observed alterations are cause or consequence of disease. Hence, innovative analysis approaches are required that enable inquiries of the microbiome beyond mere taxonomic cataloguing. This review highlights the utility of microbiota flow cytometry, a single‐cell analysis platform to directly interrogate cellular interactions, cell conditions and crosstalk with the host's immune system within the microbiome to take into consideration the role of microbes as critical interaction partners of the host and the spectrum of microbiome alterations, beyond compositional changes. In conjunction with advanced sequencing approaches it could reveal the genetic potential of target bacteria and advance our understanding of taxonomic diversity and gene usage in the context of the microenvironment. Single‐cell bacterial phenotyping has the potential to change our perspective on the human microbiome and empower microbiome research for the development of microbiome‐based therapy approaches and personalised medicine.This article is protected by copyright. All rights reserved

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Accurate identification and quantification of commensal microbiota bound by host immunoglobulins

Cited by 39 publications

References 59 publications

IgA deficiency destabilizes immunological homeostasis towards intestinal microbiota and increases the risk of systemic immune dysregulation

IgA deficiency destabilizes immunological homeostasis towards intestinal microbiota and increases the risk of systemic immune dysregulation

Hierarchical modelling of immunoglobulin coated bacteria in dogs with chronic enteropathy shows reduction in coating with disease remission but marked inter-individual and treatment-response variability

Single‐cell phenotyping of bacteria combined with deep sequencing for improved contextualization of microbiome analyses

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