Zinc Levels Affect the Metabolic Switch of T Cells by Modulating Glucose Uptake and Insulin Receptor Signaling

Scope T cell activation requires a metabolic reprogramming from oxidative phosphorylation to aerobic glycolysis to rapidly provide substrates for biosynthesis. An individual's zinc status plays an important role in balancing the activation of T cells and is required for a proper function of immune cells. Furthermore, zinc plays an important role during effector T cell polarization to T helper cell subsets or regulatory T cells, with effector T cells relying on glycolysis and regulatory T cells on oxidative phosphorylation. Therefore, the study aims to analyze if zinc also impacts on T cell activation on the level of intracellular metabolism. Methods and results Mixed lymphocyte culture and anti-CD3/CD28 stimulation is used as in vitro models for T cell activation to investigate the effect of zinc supplementation and deprivation on metabolic switching. Promoted glucose uptake, insulin receptor expression, and signaling in both zinc conditions are observed, whereas key metabolic enzymes are stimulated mainly by zinc deprivation. Alterations in cytokine production suggest an immune-activating effect of zinc deprivation and a balancing effect of zinc supplementation. Conclusion The results suggest a supportive effect of both zinc supplementation and deprivation on the metabolic switch during T cell activation, adding another level of immune regulation by zinc.

Automated summary

Zinc plays an important role in T cell activation and metabolic switching, with zinc deprivation promoting metabolic enzyme stimulation and cytokine production, while zinc supplementation has a balancing effect.