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Cardiovascular research

Nature of the cardiomyocyte injury induced by lipid hydroperoxides.


PMID 8595608

Abstract

As a result of oxidative stress to membrane lipid matrix, the peroxidation of polyunsaturated fatty acids induced the transient formation of lipid hydroperoxides (ROOH). The aim of this study was to evaluate the damaging effects of ROOH on the cardiac cell and the link between the alterations observed and intracellular calcium overload. Necrosis of cultured rat cardiac cells was determined by measuring the release of lactate dehydrogenase (LDH). In guinea-pig papillary muscles, action potential (AP) and isometric tension were recorded with standard microelectrodes and a transducer, respectively. The reactive oxygen species (ROS) scavenging properties of tested compounds were determined using a cell-free model of lipid photoperoxidation. 15(S)-HpETE (15(S)-hydroperoxyeicosatetraenoic acid), an arachidonic acid hydroperoxide, induced a concentration-dependent loss of cardiomyocytes membrane integrity. The release of LDH induced by 15(s)-HpETE (30 microM) was prevented by a ROS scavenger, BW755C (10 microM), but not by a sarcolemmal calcium channel blocker, Amlodipine (10 microM), or a calcium overload protective agent, R56865 (10 microM). Cardiomyocytes necrosis induced by calcium paradox was prevented by Amlodipine (10 microM) and R56865 (10 microM), but not by BW755C (10 microM). Superfusion of papillary muscles with 15(S)-HpETE (20 microM) induced a membrane depolarization and a marked reduction in the AP amplitude and duration. Concomitantly, a transient positive inotropic effect and a progressive rise in diastolic tension were observed. These alterations were maximal after 15 min and associated with delayed after-depolarizations (DADs) and after-contractions. Every alteration was inhibited by BW755C (10 microM) and R56865 (30 microM), but not by Amlodipine (1 microM). Ryanodine (1 microM), a blocker of sarcoplasmic reticulum calcium channel, only prevented the appearance of DADs and after-contractions. Only BW755C exhibited ROS scavenging properties. ROOH induced enzyme leakage and electromechanical alterations in cardiac cells. These effects of ROOH implicated oxidative mechanisms and resulted in an intracellular calcium overload.

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