Metabolic plasticity of human T cells: Preserved cytokine production under glucose deprivation or mitochondrial restriction,but 2‐deoxy‐glucose affects effector functions

The strong link between T‐cell metabolism and effector functions is well characterized in the murine system but hardly investigated in human T cells. Therefore, we analyzed glycolytic and mitochondrial activity in correlation to function in activated human CD4 and CD8 T cells. Glycolysis was barely detectable upon stimulation but accelerated beyond 24 h, whereas mitochondrial activity was elevated immediately in both T‐cell populations. Glucose deprivation or mitochondrial restriction reduced proliferation, had only a transient impact on “on‐blast formation” and no impact on viability, IFN‐γ, IL‐2, IL‐4, and IL‐10 production, whereas TNF was reduced. Similar results were obtained in bulk T cells and T‐cell subsets. Elevated respiration under glucose restriction demonstrated metabolic flexibility. Administration of the glycolytic inhibitor 2‐deoxy‐glucose suppressed both glycolysis and respiration and exerted a strong impact on cytokine production that persisted for IFN‐γ after removal of 2‐deoxy‐glucose. Taken together, glycolytic or mitochondrial restriction alone compromised proliferation of human T cells, but barely affected their effector functions. In contrast, effector functions were severely affected by 2‐deoxy‐glucose treatment.