Activated β-catenin in Foxp3+ regulatory T cells links inflammatory environments to autoimmunity
Sumida T, Lincoln MR, Ukeje CM, Rodriguez DM, Akazawa H, Noda T, Naito AT, Komuro I, Dominguez-Villar M, Hafler DA. Activated β-catenin in Foxp3+ regulatory T cells links inflammatory environments to autoimmunity. Nature Immunology 2018, 19: 1391-1402. PMID: 30374130, PMCID: PMC6240373, DOI: 10.1038/s41590-018-0236-6.Peer-Reviewed Original ResearchConceptsProstaglandin E receptor 2Regulatory T cellsTreg cellsT cellsAnti-inflammatory cytokine productionIL-10 productionPeripheral immune toleranceIL-10 expressionΒ-cateninE receptor 2Treg subpopulationsTreg phenotypeIL-10Cytokines IFNImmune toleranceTreg signatureCytokine signatureMultiple sclerosisAutoimmune diseasesCytokine productionInflammatory environmentLethal autoimmunityReceptor 2Activated β-cateninIFNThe regulation and differentiation of regulatory T cells and their dysfunction in autoimmune diseases
Sumida T, Cheru N, Hafler D. The regulation and differentiation of regulatory T cells and their dysfunction in autoimmune diseases. Nature Reviews Immunology 2024, 24: 503-517. PMID: 38374298, PMCID: PMC11216899, DOI: 10.1038/s41577-024-00994-x.Peer-Reviewed Original ResearchTreg cell dysfunctionTreg cellsAutoimmune diseasesCell dysfunctionSuppressive function of Treg cellsDifferentiation of regulatory T cellsFunction of Treg cellsDiscovery of Foxp3Foxp3-independent mechanismsTreg cell suppressionRegulatory T cellsTreg cell functionTranscription factor Foxp3Systemic lupus erythematosusRegulate immune responsesInflammatory bowel diseaseFOXP3 mutationsFoxp3-dependentSystemic autoinflammationRegulatory TIPEX syndromeCell lineage determinationT cellsTregsLupus erythematosus