Influence of Trimetazidine on the synthesis of complex lipids in the heart and other target organs

Influence of Trimetazidine on the synthesis of complex lipids in the heart and other target organs

Trimetazidine exerts antianginal properties at the cellular level, without haemodynamic effect in clinical and experimental conditions. This cytoprotection was attributed to a decreased utilization of fatty acids for energy production, balanced by an increased incorporation in structural lipids. Thi...

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Bibliographic Details
Published in:Fundamental & clinical pharmacology Vol. 15; no. 4; pp. 255 - 264
Main Authors: Sentex, E., Héliès-Toussaint, C., Rousseau, D., Lucien, A., Ferrary, E., Grynberg, A.
Format: Journal Article
Language:English
Published: Oxford UK Blackwell Science Ltd 01-08-2001
Wiley
Subjects:
angina
Animals
Animals, Newborn
Cells, Cultured
cochlea
heart
Heart - drug effects
Heart - physiology
Heart Ventricles - cytology
Heart Ventricles - drug effects
Heart Ventricles - metabolism
In Vitro Techniques
Life Sciences
Life Sciences (General)
lipid metabolism
Lipids - biosynthesis
liver
Myocardium - cytology
Myocardium - metabolism
myocyte
Perfusion
phospholipid
Rats
Rats, Long-Evans
Rats, Wistar
retina
triacylglycerol
trimetazidine
Trimetazidine - pharmacology
Vasodilator Agents - pharmacology
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Summary:Trimetazidine exerts antianginal properties at the cellular level, without haemodynamic effect in clinical and experimental conditions. This cytoprotection was attributed to a decreased utilization of fatty acids for energy production, balanced by an increased incorporation in structural lipids. This study evaluated the influence of Trimetazidine on complex lipid synthesis from [2-(3)H] glycerol, in ventricular myocytes, isolated rat hearts and in vivo in the myocardium and several other tissues. In cardiomyocytes, Trimetazidine increased the synthesis of phosphatidyl-choline (+ 80%), phosphatidyl-ethanolamine (+ 210%), phosphatidyl-inositol (+ 250%) and cardiolipid (+ 100%). The common precursor diacylglycerol was also increased (+ 40%) whereas triacylglycerol was decreased (-70%). Similar results were obtained in isolated hearts with 10 microm Trimetazidine (phosphatidyl-choline + 60%, phosphatidyl-ethanolamine + 60%, phosphatidyl-inositol + 100% and cardiolipid + 50%), the last two phospholipids containing 85% of the radioactivity. At 1 microm, Trimetazidine still stimulated the phospholipid synthesis although the difference was found significant only in phosphatidyl-inositol and cardiolipid. In vivo studies (10 mg/kg per day for 7 days and 5 mg/kg, i.p. before the experiment) revealed significant changes in the intracellular lipid biosynthesis, with increased labelling of phospholipids and reduced incorporation of glycerol in nonphosphorous lipids. Trimetazidine increased the glycerol uptake from plasma to the other tissues (liver, cochlea, retina), resulting in an altered lipid synthesis. The anti-anginal properties of Trimetazidine involve a reorganisation of the glycerol-based lipid synthesis balance in cardiomyocytes, associated with an increased uptake of plasma glycerol that may contribute to explain the pharmacological properties reported in other organs.
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ISSN:0767-3981
1472-8206
DOI:10.1046/j.1472-8206.2001.00031.x