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NRF2/Itaconate Axis Regulates Metabolism and Inflammatory Properties of T Cells in Children with JIA

Anandhi Rajendiran, Sudheendra Hebbar Subramanyam, Patricia Klemm, Vera Jankowski, Jorg van Loosdregt, Sebastiaan J. Vastert, Kristina Vollbach, Norbert Wagner, Klaus Tenbrock, Kim Ohl

2022Antioxidants14 citationsDOIOpen Access PDF

Abstract

Background: CD4+ T cells critically contribute to the initiation and perturbation of inflammation. When CD4+ T cells enter inflamed tissues, they adapt to hypoxia and oxidative stress conditions, and to a reduction in nutrients. We aimed to investigate how this distinct environment regulates T cell responses within the inflamed joints of patients with childhood rheumatism (JIA) by analyzing the behavior of NRF2—the key regulator of the anti-oxidative stress response—and its signaling pathways. Methods: Flow cytometry and quantitative RT-PCR were used to perform metabolic profiling of T cells and to measure the production of inflammatory cytokines. Loss of function analyses were carried out by means of siRNA transfection experiments. NRF2 activation was induced by treatment with 4-octyl-Itaconate (4-OI). Results: Flow cytometry analyses revealed a high metabolic status in CD4+ T cells taken from synovial fluid (SF) with greater mitochondrial mass, and increased glucose and fatty acid uptake. This resulted in a heightened oxidative status of SF CD4+ T cells. Despite raised ROS levels, expression of NRF2 and its target gene NQO1 were lower in CD4+ T cells from SF than in those from blood. Indeed, NRF2 activation of CD4+ T cells downregulated oxidative stress markers, altered the metabolic phenotype and reduced secretion of IFN-γ. Conclusion: NRF2 could be a potential regulator in CD4+ T cells during chronic inflammation and could instigate a drift toward disease progression or regression, depending on the inflammatory environment.

Topics & Concepts

MetabolismEnergy metabolismChemistryCell biologyInflammationBiologyMedicineBiochemistryInternal medicineImmunologyGenomics, phytochemicals, and oxidative stressInflammasome and immune disordersRheumatoid Arthritis Research and Therapies
NRF2/Itaconate Axis Regulates Metabolism and Inflammatory Properties of T Cells in Children with JIA | Litcius