Trimetazidine does not alter metabolic substrate oxidation in cardiac mitochondria of target patient population Article

Full Text via DOI: 10.1111/bph.13454 PMID: 26844527 Web of Science: 000374008500010
International Collaboration

Cited authors

  • Cavar, M.; Ljubkovic, M.; Bulat, C.; Bakovic, D.; Fabijanic, D.; Kraljevic, J.; Karanovic, N.; Dujic, Z.; Lavie, C. J.; Wisloff, U.; Marinovic, J.

Abstract

  • Background and PurposeTrimetazidine, known as a metabolic modulator, is an anti-anginal drug used for treatment of stable coronary artery disease (CAD). It is proposed to act via modulation of cardiac metabolism, shifting the mitochondrial substrate utilization towards carbohydrates, thus increasing the efficiency of ATP production. This mechanism was recently challenged; however, these studies used indirect approaches and animal models, which made their conclusions questionable. The goal of the current study was to assess the effect of trimetazidine on mitochondrial substrate oxidation directly in left ventricular myocardium from CAD patients.; Experimental ApproachMitochondrial fatty acid (palmitoylcarnitine) and carbohydrate (pyruvate) oxidation were measured in permeabilized left ventricular fibres obtained during coronary artery bypass grafting surgery from CAD patients, which either had trimetazidine included in their therapy (TMZ group) or not (Control).; Key ResultsThere was no difference between the two groups in the oxidation of either palmitoylcarnitine or pyruvate, and in the ratio of carbohydrate to fatty acid oxidation. Activity and expression of pyruvate dehydrogenase, the key regulator of carbohydrate metabolism, were also not different. Lastly, acute in vitro exposure of myocardial tissue to different concentrations of trimetazidine did not affect myocardial oxidation of fatty acid.; Conclusion and ImplicationsUsing myocardial tissue from CAD patients, we found that trimetazidine (applied chronically in vivo or acutely in vitro) had no effect on cardiac fatty acid and carbohydrate oxidation, suggesting that the clinical effects of trimetazidine are unlikely to be due to its metabolic effects, but rather to an as yet unidentified intracardiac mechanism.

Publication date

  • 2016

Published in

Category

International Standard Serial Number (ISSN)

  • 0007-1188

Start page

  • 1529

End page

  • 1540

Volume

  • 173

Issue

  • 9