Enhancing mitochondrial pyruvate metabolism ameliorates ischemic reperfusion injury in the heart
Joseph R. Visker, Ahmad A. Cluntun, Jesse N. Velasco-Silva, David R. Eberhardt, Luis Cedeño-Rosario, Thirupura S. Shankar, Rana Hamouche, Jing Ling, Hyoin Kwak, J. Yanni Hillas, Ian Aist, Eleni Tseliou, Sutip Navankasattusas, Dipayan Chaudhuri, Gregory S. Ducker, Stavros G. Drakos, Jared Rutter
Joseph R. Visker, Ahmad A. Cluntun, Jesse N. Velasco-Silva, David R. Eberhardt, Luis Cedeño-Rosario, Thirupura S. Shankar, Rana Hamouche, Jing Ling, Hyoin Kwak, J. Yanni Hillas, Ian Aist, Eleni Tseliou, Sutip Navankasattusas, Dipayan Chaudhuri, Gregory S. Ducker, Stavros G. Drakos, Jared Rutter
View: Text | PDF | Corrigendum
Research Article Cardiology Metabolism

Enhancing mitochondrial pyruvate metabolism ameliorates ischemic reperfusion injury in the heart

Abstract

The clinical therapy for treating acute myocardial infarction is primary percutaneous coronary intervention (PPCI). PPCI is effective at reperfusing the heart; however, the rapid reintroduction of blood can cause ischemia-reperfusion (I/R). Reperfusion injury is responsible for up to half of the total myocardial damage, but there are no pharmacological interventions to reduce I/R. We previously demonstrated that inhibiting monocarboxylate transporter 4 (MCT4) and redirecting pyruvate toward oxidation can blunt hypertrophy. We hypothesized that this pathway might be important during I/R. Here, we establish that the pyruvate-lactate axis plays a role in determining myocardial salvage following injury. After I/R, the mitochondrial pyruvate carrier (MPC), required for pyruvate oxidation, is upregulated in the surviving myocardium. In cardiomyocytes lacking the MPC, there was increased cell death and less salvage after I/R, which was associated with an upregulation of MCT4. To determine the importance of pyruvate oxidation, we inhibited MCT4 with a small-molecule drug (VB124) at reperfusion. This strategy normalized reactive oxygen species (ROS), mitochondrial membrane potential (ΔΨ), and Ca2+, increased pyruvate entry to the TCA cycle, increased oxygen consumption, and improved myocardial salvage and functional outcomes following I/R. Our data suggest normalizing pyruvate-lactate metabolism by inhibiting MCT4 is a promising therapy to mitigate I/R injury.

Authors

Joseph R. Visker, Ahmad A. Cluntun, Jesse N. Velasco-Silva, David R. Eberhardt, Luis Cedeño-Rosario, Thirupura S. Shankar, Rana Hamouche, Jing Ling, Hyoin Kwak, J. Yanni Hillas, Ian Aist, Eleni Tseliou, Sutip Navankasattusas, Dipayan Chaudhuri, Gregory S. Ducker, Stavros G. Drakos, Jared Rutter

×

Figure 4

MCT4 inhibition alleviates I/R injury.

Options: View larger image (or click on image) Download as PowerPoint
MCT4 inhibition alleviates I/R injury. (A) Mitochondrial ROS (B), membra...
(A) Mitochondrial ROS (B), membrane potential; ΔΨ (C), Ca2+ following hypoxia + reoxygenation with VB124 showing increases from baseline to I/R, and improvement with VB124 (normoxia: n = 5, –VB124: n = 6, +VB124: n = 3). (D) VB124 mitigates cell death following I/R injury. (E) M + 2 citrate labeling from [U-13C]glucose tracing in ACMs following hypoxia + reoxygenation with MCT4-inhibition (VB124) or Vehicle (DMSO) controls (n = 4, each). (F) Seahorse assay showing hypoxia + reoxygenation impairs Mpc1CKO mitochondrial respiration (normoxia: n = 6, vehicle: n = 7, VB124: n = 6) and VB124 (n = 9) improves maximal oxygen consumption rates in WT ACMs compared with Vehicle-treated WT ACMs (vehicle: n = 10, normoxia: n = 9). (G) Following I/R, the area at risk (AAR %) is nonsignificant, indicating similar injury between placebo, +VB124, and Mpc1CKO + VB124 groups (Sham: n = 4, Placebo: n = 6, VB124: n = 6, Mpc1CKO + VB124: n = 5). (H) Within the area at risk, myocardial salvage is significantly increased in C57BL/6J mice (n = 6), but not the Mpc1CKO (n = 5) gavaged with VB124, after I/R injury when compared with placebo (n = 6). (I) Representative images of myocardial salvage and necrosis following I/R injury in sham (n = 4), placebo (n = 6), +VB124 (n = 6), and Mpc1CKO+VB124 (n = 5) groups. Magnification, × 40(J) Schematic representation of in vivo chronic myocardial I/R injury with the placebo (methylcellulose) or VB124 oral gavage. (KN) Following I/R injury, serial echocardiography was performed to assess cardiac function (left ventricular ejection fraction; LVEF) and structure (left ventricular end-diastolic diameter; LVEDD and left ventricular mass; LV mass). Unpaired t tests (E and F), and 1-way (AD, GH, and KM) ANOVAs with a Tukey’s HSD post hoc test were used for statistical analysis. (AG) **P < 0.01, ***P < 0.001, ****P < 0.0001. (J) ****P < 0.0001, placebo compared with VB124. (L) ##P < 0.01, VB124 compared with sham. ^^P < 0.01, placebo compared with sham. ^^^P < 0.001, placebo compared with sham. Values are represented as mean±SD. BioRender was used to make panels E and J.