1178-P: MSDC-0602 Directly Inhibits Mitochondrial Pyruvate Transport Free

The mitochondrial pyruvate carrier (MPC) occupies a carbohydrate metabolism nexus and is a potential target of thiazolidinediones (TZDs) prescribed to treat the metabolic syndrome. MSDC-0602, a TZD-like, PPARγ sparing molecule, is currently in phase 2B clinical for NASH treatment following positive results in animal studies. Previous research demonstrates that MSDC-0602 inhibits mitochondrial pyruvate oxidation and physically interacts with the MPC. However, the extent to which MSDC-0602 directly inhibits mitochondrial pyruvate uptake has not been fully resolved. Here, we aimed to comprehensively test the action of MSDC-0206 as a specific MPC inhibitor. We examined MSDC-0602 treatment effects on pyruvate oxidation and pyruvate transport by isolated liver mitochondria from normal chow (NCD)- and high fat diet (HFD)-fed mice. MSDC-0602 inhibited pyruvate-driven State III and State IV+Uncoupled respiration in a dose dependent manner. MSDC-0602 reduced pyruvate-driven respiration to levels observed for liver mitochondria isolated from MPC liver knockout (MPC LivKO) mice. NCD and HFD mice showed similar response to MSDC-0602. These data confirm that MSDC-0602 inhibits pyruvate-driven respiration. However, pyruvate oxidation is an indirect measure of MPC activity because it depends upon pyruvate-oxidizing enzymes and electron transport. To directly test the action of MSDC-0602 on mitochondrial pyruvate transport, we performed isolated mitochondria ¹⁴C-pyruvate uptake assays. Pyruvate uptake was significantly decreased by MSDC-0602 to rates observed for MPC LivKO mouse liver mitochondria. Finally, we examined effects of MSDC-0602 metabolites and found them to also inhibit isolated liver mitochondria pyruvate oxidation. Together, these data demonstrate that MSDC-0602 directly and specifically inhibits MPC activity as a mechanism for impairing downstream pyruvate utilization. The therapeutic effects of MSDC-0602 may be conferred by MPC inhibition and resulting metabolic adaptations.