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Targeting aryl hydrocarbon receptor functionally restores tolerogenic dendritic cells derived from patients with multiple sclerosis

Federico Fondelli, Jana Willemyns, Roger Domenech-Garcia, María José Mansilla, Gerard Godoy‐Tena, Anna G. Ferreté-Bonastre, Alex Agúndez-Moreno, Silvia Presas‐Rodríguez, Cristina Ramo‐Tello, Esteban Ballestar, Eva Martínez‐Cáceres

2024Journal of Clinical Investigation12 citationsDOIOpen Access PDF

Abstract

Multiple sclerosis (MS) is a chronic disease characterized by dysregulated self-reactive immune responses that damage the neurons' myelin sheath, leading to progressive disability. The primary therapeutic option, immunosuppressants, inhibits pathogenic anti-myelin responses but depresses the immune system. Antigen-specific monocyte-derived autologous tolerogenic dendritic cells (tolDCs) offer alternative therapeutic approaches to restore tolerance to autoantigens without causing generalized immunosuppression. However, immune dysregulation in MS could impact the properties of the monocytes used as starting material for this cell therapy. Here, we characterized CD14+ monocytes, mature dendritic cells, and vitamin D3-tolDCs (VitD3-tolDCs) from active, treatment-naive MS patients and healthy donors (HDs). Using multiomics, we identified a switch in these cell types toward proinflammatory features characterized by alterations in the aryl hydrocarbon receptor (AhR) and NF-κB pathways. MS patient-derived VitD3-tolDCs showed reduced tolerogenic properties compared with those from HDs, which were fully restored through direct AhR agonism and by use of in vivo or in vitro dimethyl fumarate (DMF) supplementation. Additionally, in the experimental autoimmune encephalomyelitis mouse model, combined therapy of DMF and VitD3-tolDCs was more efficient than monotherapies in reducing the clinical score of mice. We propose that a combined therapy with DMF and VitD3-tolDCs offers enhanced therapeutic potential in treating MS.

Topics & Concepts

Experimental autoimmune encephalomyelitisMultiple sclerosisImmune systemDendritic cellImmunologyCD14Immune toleranceImmunosuppressionMyelin oligodendrocyte glycoproteinIn vivoT cellFOXP3MyelinAryl hydrocarbon receptorAntigenMedicineCancer researchChemistryBiologyCentral nervous systemBiochemistryInternal medicineGeneTranscription factorBiotechnologyImmunotherapy and Immune ResponsesRNA Interference and Gene DeliveryImmune Cell Function and Interaction
Targeting aryl hydrocarbon receptor functionally restores tolerogenic dendritic cells derived from patients with multiple sclerosis | Litcius