NRF2/Itaconate Axis Regulates Metabolism and Inflammatory Properties of T Cells in Children with JIA
Publication date
2022-12-08
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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.
Keywords
JIA, NRF2, ROS, immunometabolism, redox metabolism, Journal Article
Citation
Rajendiran, A, Subramanyam, S H, Klemm, P, Jankowski, V, van Loosdregt, J, Vastert, B, Vollbach, K, Wagner, N, Tenbrock, K & Ohl, K 2022, 'NRF2/Itaconate Axis Regulates Metabolism and Inflammatory Properties of T Cells in Children with JIA', Antioxidants (Basel, Switzerland), vol. 11, no. 12, 2426. https://doi.org/10.3390/antiox11122426