Effect of statins on mitochondrial function and contractile force in human skeletal and cardiac muscle

Tim Somers*, Sailay Siddiqi, Margit C.M. Janssen, Wim J. Morshuis, Renee G.C. Maas, Jan W. Buikema, Petra H.H. van den Broek, Tom J.J. Schirris, Frans G.M. Russel

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Objectives and Background: The success of statin therapy in reducing cardiovascular morbidity and mortality is contrasted by the skeletal muscle complaints, which often leads to nonadherence. Previous studies have shown that inhibition of mitochondrial function plays a key role in statin intolerance. Recently, it was found that statins may also influence energy metabolism in cardiomyocytes. This study assessed the effects of statin use on cardiac muscle ex vivo from patients using atorvastatin, rosuvastatin, simvastatin or pravastatin and controls. Methods: Cardiac tissue and skeletal muscle tissue were harvested during open heart surgery after patients provided written informed consent. Patients included were undergoing cardiac surgery and either taking statins (atorvastatin, rosuvastatin, simvastatin or pravastatin) or without statin therapy (controls). Contractile behaviour of cardiac auricles was tested in an ex vivo set-up and cellular respiration of both cardiac and skeletal muscle tissue samples was measured using an Oxygraph-2k. Finally, statin acid and lactone concentrations were quantified in cardiac and skeletal homogenates by LC-MS/MS. Results: Fatty acid oxidation and mitochondrial complex I and II activity were reduced in cardiac muscle, while contractile function remained unaffected. Inhibition of mitochondrial complex III by statins, as previously described, was confirmed in skeletal muscle when compared to control samples, but not observed in cardiac tissue. Statin concentrations determined in skeletal muscle tissue and cardiac muscle tissue were comparable. Conclusions: Statins reduce skeletal and cardiac muscle cell respiration without significantly affecting cardiac contractility.

Original languageEnglish
Article number117492
JournalBiomedicine and Pharmacotherapy
Volume180
DOIs
Publication statusPublished - Nov 2024

Keywords

  • Cardiac muscle
  • Cellular respiration
  • Contractile force
  • Heart auricle
  • Skeletal muscle

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