Aberrant intestinal microbiota due to IL-1 receptor antagonist deficiency promotes IL-17- and TLR4-dependent arthritis

Rogier, Rebecca; Ederveen, Thomas H. A.; Boekhorst, Jos; Wopereis, Harm; Scher, Jose U.; Manasson, Julia; Frambach, Sanne J.C.M.; Knol, Jan; Garssen, Johan; Kraan, P.M. van der; Koenders, Marije I.; Berg, Wim B. van den; Hijum, Sacha A. F. T. van; Abdollahi‐Roodsaz, Shahla

doi:10.1186/s40168-017-0278-2

Cited by 77 publications

(74 citation statements)

References 58 publications

(74 reference statements)

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“…Microbiota were then reconstituted by oral gavage of a 200‐μl aqueous suspension of SFB‐free feces from Jackson mice, at 24 hours after cessation of the antibiotics. The SFB‐free status of the mice was confirmed by quantitative polymerase chain reaction (qPCR), as reported previously .…”

Section: Methodsmentioning

confidence: 88%

“…Characterization of mucosal immune activation preceding the onset of arthritis. Modulation of the intestinal immune response by commensal microbiota affects the inflammation patterns and immunopathologic features at distal anatomic sites, including the joints . To investigate mucosal immune activation during preclinical arthritis, we assessed intestinal CD4+ T cell cytokine responses before arthritis onset in WT mice 21 days after a single immunization with CII.…”

Section: Resultsmentioning

confidence: 99%

“…Specific taxa, such as segmented filamentous bacteria (SFB), enhance differentiation of Th17 cells in the small intestine (SI) lamina propria . SFB colonization exacerbates spontaneous arthritis in interleukin‐1 (IL‐1) receptor antagonist–deficient and K/BxN mice . In addition, in SKG mice with increased thymic selection of autoreactive T cells , colonization of Prevotella copri , a commensal species associated with new‐onset RA , led to increased abundance of SI lamina propria Th17 cells and enhanced arthritis upon concomitant exposure to zymosan .…”

mentioning

confidence: 99%

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Microbiota‐Dependent Involvement of Th17 Cells in Murine Models of Inflammatory Arthritis

Evans-Marin

Rogier

Koralov

et al. 2018

Arthritis & Rheumatology

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Objective Intestinal microbiota are associated with the development of inflammatory arthritis. The aim of this study was to dissect intestinal mucosal immune responses in the preclinical phase of arthritis and determine whether the presence of Th17 cells, beyond involvement of the cytokine interleukin‐17 ( IL ‐17), is required for arthritis development, and whether the involvement of Th17 cells in arthritis depends on the composition of the host microbiota. Methods Mucosal T cell production of IL ‐17, interferon‐γ, tumor necrosis factor α ( TNF α), IL ‐22, and granulocyte–macrophage colony‐stimulating factor ( GM ‐ CSF ) was analyzed by flow cytometry and Luminex assay before arthritis onset in mice immunized to develop collagen‐induced arthritis ( CIA ). Pathogenic features of arthritis in mice with CIA and mice with antigen‐induced arthritis were compared between Th17 cell–deficient ( CD 4‐Cre + Rorc flox/flox ) and Th17 cell–sufficient ( CD 4‐Cre − Rorc flox/flox ) mice. In addition, the impact of intestinal microbiota on the Th17 cell dependence of CIA was assessed. Results Lamina propria CD 4 T cells were activated before the onset of arthritis in mice with CIA , with marked up‐regulation of several cytokines, including IL ‐17A, TNF α, and GM ‐ CSF . CD 4‐Cre + Rorc flox/flox mice showed a specific reduction in intestinal mucosal levels of Th17 cells and partially reduced levels of IL ‐17–producing CD 8 T cells. However, total levels of IL ‐17A, mostly produced by γδ T cells and neutrophils, were unaffected. The severity of arthritis was significantly reduced in Th17 cell–deficient mice, suggesting that Th17 cells have additional, IL ‐17A–independent roles in inflammatory arthritis. Accordingly, antigen‐stimulated T cells from Th17 cell–deficient mice produced less IL ‐17A, IL ‐17F, and GM ‐ CSF . Importantly, the dependence of CIA on the involvement of Th17 cells was mitigated in the presence of an alternative microbiome. Conclusion These data from murine models suggest that activati...

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Section: Methodsmentioning

confidence: 88%

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

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Microbiota‐Dependent Involvement of Th17 Cells in Murine Models of Inflammatory Arthritis

Evans-Marin

Rogier

Koralov

et al. 2018

Arthritis & Rheumatology

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“…Intriguingly, we also find spikes of functional maturation of OCs in the initiation and established phases of However, it is intriguing given that TLR4/MyD88 signalling is the primary target of ES-62 in promoting Bregs and suppressing Th17-mediated inflammation 2,39,41,44 , that the systemic Th17 differentiation and consequent autoimmune arthritis occurring in the IL1rn -/model is dependent on TLR4 100 . Moreover, the accompanying dysbiosis, that on faecal transfer can confer arthritis-predisposing Th17 inflammation in wild type mice, is also regulated by TLR4 60 . Furthermore, interestingly, 11/44 taxa disrupted in IL1rn -/mice were normalised in IL1rn -/-TLR4 -/animals and these included Ruminococcus species, which are also promoted by ES-62 60 .…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, the accompanying dysbiosis, that on faecal transfer can confer arthritis-predisposing Th17 inflammation in wild type mice, is also regulated by TLR4 60 . Furthermore, interestingly, 11/44 taxa disrupted in IL1rn -/mice were normalised in IL1rn -/-TLR4 -/animals and these included Ruminococcus species, which are also promoted by ES-62 60 . In mechanistic terms, the resetting of Bregs levels by ES-62 in CIA has also been reported to be regulated by the microbiome in other models of autoimmune arthritis 25 .…”

Section: Discussionmentioning

confidence: 99%

The parasitic worm product ES-62 normalises the gut microbiota/bone marrow axis in inflammatory arthritis

Doonan

Tarafdar

Pineda

et al. 2018

Preprint

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The human immune system has evolved in the context of our colonisation by bacteria, viruses, fungi and parasitic helminths. Reflecting this, the rapid eradication of pathogens appears to have resulted in reduced microbiome diversity and generation of chronically activated immune systems, presaging the recent rise of allergic, autoimmune and metabolic disorders. Certainly, gastrointestinal helminths can protect against gut and lung mucosa inflammatory conditions by modulating the microbiome and suppressing the chronic inflammation associated with dysbiosis. Here, we employ ES-62, an immunomodulator secreted by tissue-dwelling Acanthocheilonema viteae to show that modulation of the gut microbiome does not require live infection with gastrointestinal-based helminths nor is protection restricted to mucosal diseases.Specifically, subcutaneous administration of this defined parasitic worm product affords protection against joint disease in collagen-induced arthritis, a mouse model of rheumatoid arthritis, which is associated with normalisation of gut microbiota and prevention of loss of intestinal barrier integrity.

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Causal effects of gut microbiota on multiple sclerosis: A two‐sample Mendelian randomization study

Sun,

Zhang,

Wang

et al. 2024

Brain and Behavior

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BackgroundGut microbiota alterations in multiple sclerosis (MS) patients have been reported in observational studies, but whether these associations are causal is unclear.ObjectiveWe performed a Mendelian randomization study (MR) to assess the causal effects of gut microbiota on MS.MethodsIndependent genetic variants associated with 211 gut microbiota phenotypes were selected as instrumental variables from the largest genome‐wide association studies (GWAS) previously published by the MiBioGen study. GWAS data for MS were obtained from the International Multiple Sclerosis Genetics Consortium (IMSGC) for primary analysis and the FinnGen consortium for replication and collaborative analysis. Sensitivity analyses were conducted to evaluate heterogeneity and pleiotropy.ResultsAfter inverse‐variance‐weighted and sensitivity analysis filtering, seven gut microbiota with potential causal effects on MS were identified from the IMSGC. Only five metabolites remained significant associations with MS when combined with the FinnGen consortium, including genus Anaerofilum id.2053 (odds ratio [OR] = 1.141, 95% confidence interval [CI]: 1.021–1.276, p = .021), Ruminococcus2 id.11374 (OR = 1.190, 95% CI: 1.007–1.406, p = .042), Ruminococcaceae UCG003 id.11361 (OR = 0.822, 95% CI: 0.688–0.982, p = .031), Ruminiclostridium5 id.11355 (OR = 0.724, 95% CI: 0.585–0.895, p = .003), Anaerotruncus id.2054 (OR = 0.772, 95% CI: 0.634–0.940, p = .010).ConclusionOur MR analysis reveals a potential causal relationship between gut microbiota and MS, offering promising avenues for advancing mechanistic understanding and clinical investigation of microbiota‐mediated MS.

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Aberrant intestinal microbiota due to IL-1 receptor antagonist deficiency promotes IL-17- and TLR4-dependent arthritis

Cited by 77 publications

References 58 publications

Microbiota‐Dependent Involvement of Th17 Cells in Murine Models of Inflammatory Arthritis

Microbiota‐Dependent Involvement of Th17 Cells in Murine Models of Inflammatory Arthritis

The parasitic worm product ES-62 normalises the gut microbiota/bone marrow axis in inflammatory arthritis

Causal effects of gut microbiota on multiple sclerosis: A two‐sample Mendelian randomization study

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