Abstract
Activated T cells increase transferrin-bound iron uptake via the transferrin receptor, also called CD71. We previously demonstrated that targeting CD71 with an antibody to reduce iron update can modify CD4 T cell function, with different effects on T H 1, T H 17, and regulatory T (Treg) cells. CD71 blocking antibody-treated Tregs had no loss of viability or differentiation, and Foxp3 expression was increased. However, a genetic deletion of Tfrc (the gene for CD71) driven by Foxp3 -Cre was reported to cause a lethal autoimmunity. Whether altered immune homeostasis or insufficient early developmental tolerance drive the phenotype of CD71 knockout (KO) Treg mice were unclear. Here, we examined the Foxp3 - YFP -Cre KO mouse model and a tamoxifen-inducible KO model in adults to determine the role of CD71 expression in Treg cells. We hypothesized that due to a lack of iron for mitochondrial metabolism, KO Treg adapt to rely heavily on glycolysis and become unstable, promoting pro-inflammatory exTreg cells. This effect was not universal, however, and necropsy analyses revealed tissue-specific inflammation. While the colons of mice with KO Treg cells appeared healthy, skin and lung tissue were severely inflamed. Metabolically, KO Treg cells had a significant decrease in their glycolytic capacity and instead increased oxidation of amino acids and fatty acids. In inflamed skin, which that promotes increased oxidative stress, CD71 expression in Treg cells suppressed tissue inflammation in a model of atopic dermatitis-like disease. These results indicate the CD71-iron axis as a new immunometabolic regulator of Treg cell functions in immune and non-immune organs.
Capsule Summary
A loss of the transferrin receptor in Tregs causes severe autoimmunity and here we clarify how Tregs rely on this receptor for iron in specific tissues and disease settings including atopic dermatitis.
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