Mitochondrial pyruvate carrier-mediated metabolism is dispensable for the classical activation of macrophages

Glycolysis is essential for the classical activation of macrophages (M1), but how glycolytic pathway metabolites engage in this process remains to be elucidated. Glycolysis culminates in the production of pyruvate, which can be transported into the mitochondria by the mitochondrial pyruvate carrier (MPC) followed by conversion to citrate and utilization in the TCA cycle. Alternatively, pyruvate can be metabolized to lactate under aerobic conditions, which had been considered to be the dominant route in the setting of classical macrophage activation. However, based on studies that used UK5099 as a MPC inhibitor and showed reduction in key inflammatory cytokines, the mitochondrial route has been considered to be of significance for M1 activation as well. Herein, using a genetic depletion model, we found that MPC is dispensable for metabolic reprogramming and the activation of M1. In addition, MPC depletion in myeloid cells has no impact on inflammatory responses and macrophage polarization toward M1 phenotype in the endotoxemia mice model. While UK5099 reaches maximal MPC inhibitory capacity at approximately 2–5µM, higher concentrations are required to inhibit inflammatory cytokine production in M1 and this is independent of MPC expression. Taken together, this study found MPC-mediated metabolism is dispensable for the classical activation of macrophages, and UK5099 inhibits inflammatory responses in M1 macrophages due to effects other than MPC inhibition.