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Literature DB >> 30249647

MAVS deficiency induces gut dysbiotic microbiota conferring a proallergic phenotype.

Emilie Plantamura¹, Amiran Dzutsev^2,3, Mathias Chamaillard^4,5,6,7, Sophia Djebali¹, Lyvia Moudombi¹, Lilia Boucinha¹, Morgan Grau¹, Claire Macari¹, David Bauché^8,9,10, Oana Dumitrescu^1,11, Jean-Philippe Rasigade^1,11, Saskia Lippens¹², Michelina Plateroti^8,9, Elsa Kress^8,9, Annabelle Cesaro⁴, Clovis Bondu⁴, Ulrike Rothermel¹³, Mathias Heikenwälder¹³, Gerard Lina^1,11, Azzak Bentaher-Belaaouaj¹, Julien C Marie^8,9,10, Christophe Caux^8,9, Giorgio Trinchieri², Jacqueline Marvel¹, Marie-Cecile Michallet¹⁴.

Abstract

Prominent changes in the gut microbiota (referred to as "dysbiosis") play a key role in the development of allergic disorders, but the underlying mechanisms remain unknown. Study of the delayed-type hypersensitivity (DTH) response in mice contributed to our knowledge of the pathophysiology of human allergic contact dermatitis. Here we report a negative regulatory role of the RIG-I-like receptor adaptor mitochondrial antiviral signaling (MAVS) on DTH by modulating gut bacterial ecology. Cohousing and fecal transplantation experiments revealed that the dysbiotic microbiota of Mavs -/- mice conferred a proallergic phenotype that is communicable to wild-type mice. DTH sensitization coincided with increased intestinal permeability and bacterial translocation within lymphoid organs that enhanced DTH severity. Collectively, we unveiled an unexpected impact of RIG-I-like signaling on the gut microbiota with consequences on allergic skin disease outcome. Primarily, these data indicate that manipulating the gut microbiota may help in the development of therapeutic strategies for the treatment of human allergic skin pathologies.

Entities: Disease Gene Species

Keywords: MAVS; RIG-like receptors; allergic skin pathologies; dysbiosis

Mesh：

Substances：

Year: 2018 PMID： 30249647 PMCID： PMC6187193 DOI： 10.1073/pnas.1722372115

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

28 in total

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7 in total

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2. Intestinal Bacterial Translocation Contributes to Diabetic Kidney Disease.

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7. Calcipotriol and iBRD9 reduce obesity in Nur77 knockout mice by regulating the gut microbiota, improving intestinal mucosal barrier function.

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