Effect of ethanol and cyclosporine A on respiration of isolated rat hepatocytes-Reference-Cited by-同舟云学术

Effect of ethanol and cyclosporine A on respiration of isolated rat hepatocytes

Published:2024-06-07 Issue:91 Volume: Page:86-91
ISSN:0206-5657
Container-title:Visnyk of Lviv University. Biological series
language:
Short-container-title:VLUBS

Author:

,Mazur H.,Manko B.O., ,Manko V.V.,

Abstract

It is known that ethanol affects the oxidative processes in liver mitochondria, which can be one of the mechanisms of the development of the alcoholic liver disease. A well-known immunosuppressant cyclosporine A is also an inhibitor of mitochondrial permeability transition pore. However, the pharmacological interaction of ethanol and cyclosporin A is not sufficiently studied. The aim of the study was to investigate the effect of ethanol and cyclosporine A on the respiration rate of isolated rat hepatocytes. Five male Wistar rats were used in the study. Hepatocytes were isolated by perfusion with collagenase. Cell plasma membrane integrity was assessed with trypan blue staining (0.1 %). Intact cell number was 85.7±0.92 %. The rate of oxygen consumption was measured using a polarographic device based on a Clark electrode. Protonophore FCCP was used to study the uncoupled respiration. Cell respiration was studied in the presence of glucose, pyruvate or monomethylsuccinate in solution. Statistical analysis was performed with Origin Pro 2018 software. Significance of difference between groups was evaluated with analysis of variance test. After one hour incubation with ethanol (50 mM), the rate of basal respiration of hepatocytes oxidizing glucose increased by a meager 8 %. Similar result was obtained upon the presence of pyruvate in solution. Monomethylsuccinate, however, abolished the effect of ethanol on basal respiration. he but not uncoupled respiration of hepatocytes upon glucose or pyruvate oxidation. Ethanol did not affect the uncoupled respiration of hepatocytes in presence of glucose, pyruvate of monomethylsuccinate. Incubation with cyclocporin A did not cause any changes in cell oxygen consumption in all experiments. Cyclosporin A also did not modify the effects of ethanol on basal respiration of hepatocytes. Therefore, no pharmacological no interaction between ethanol and cyclosporin A was detected, which could be evidenced by the change of mitochondrial respiration of isolated hepatocytes.

Publisher

Ivan Franko National University of Lviv

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