Evaluation of Mitochondrial Function in Isolated Rat Hepatocytes and Mitochondria during Oxidative Stress

The majority of toxic agents act either fully or partially via oxidative stress, the liver, specifically the mitochondria in hepatocytes, being the main target. Maintenance of mitochondrial function is essential for the survival and normal performance of hepatocytes, which have a high energy require...

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Veröffentlicht in:	ATLA. Alternatives to laboratory animals 2007-06, Vol.35 (3), p.353-361
Hauptverfasser:	Cervinková, Z, Lotková, H, Krivaková, P, Rousar, T, Kucera, O, Tichý, L, Cervinka, M, Drahota, Z
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Sprache:	eng
Schlagworte:	Animal Testing Alternatives Animals Biological and medical sciences Cell structures and functions Cells, Cultured Dose-Response Relationship, Drug Fundamental and applied biological sciences. Psychology hepatocytes Hepatocytes - drug effects Hepatocytes - metabolism Hepatocytes - pathology in vitro studies Male Manometry Membrane Potential, Mitochondrial - drug effects Membrane Potential, Mitochondrial - physiology mitochondria Mitochondria and cell respiration Mitochondria, Liver - drug effects Mitochondria, Liver - metabolism Mitochondrial Swelling - drug effects Mitochondrial Swelling - physiology Molecular and cellular biology Oxidants - toxicity Oxidative Stress Oxygen - analysis Oxygen - metabolism Oxygen Consumption Rats Rats, Wistar tert-Butylhydroperoxide - toxicity
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container_title	ATLA. Alternatives to laboratory animals
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creator	Cervinková, Z Lotková, H Krivaková, P Rousar, T Kucera, O Tichý, L Cervinka, M Drahota, Z
description	The majority of toxic agents act either fully or partially via oxidative stress, the liver, specifically the mitochondria in hepatocytes, being the main target. Maintenance of mitochondrial function is essential for the survival and normal performance of hepatocytes, which have a high energy requirement. Therefore, greater understanding of the role of mitochondria in hepatocytes is of fundamental importance. Mitochondrial function can be analysed in several basic models: hepatocytes cultured in vitro; mitochondria in permeabilised hepatocytes; and isolated mitochondria. The aim of our study was to use all of these approaches to evaluate changes in mitochondria exposed in vitro to a potent non-specific peroxidating agent, tert-butylhydroperoxide (tBHP), which is known to induce oxidative stress. A decrease in the mitochondrial membrane potential (MMP) was observed in cultured hepatocytes treated with tBHP, as illustrated by a significant reduction in Rhodamine 123 accumulation and by a decrease in the fluorescence of the JC-1 molecular probe. Respiratory Complex I in the mitochondria of permeabilised hepatocytes showed high sensitivity to tBHP, as documented by high-resolution respirometry. This could be caused by the oxidation of NADH and NADPH by tBHP, followed by the disruption of mitochondrial calcium homeostasis, leading to the collapse of the MMP. A substantial decrease in the MMP, as determined by tetraphenylphosphonium ion-selective electrode measurements, also confirmed the dramatic impact of tBHP-induced oxidative stress on mitochondria. Swelling was observed in isolated mitochondria exposed to tBHP, which could be prevented by cyclosporin A, which is evidence for the role of mitochondrial permeability transition. Our results demonstrate that all of the above-mentioned models can be used for toxicity assessment, and the data obtained are complementary.
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Maintenance of mitochondrial function is essential for the survival and normal performance of hepatocytes, which have a high energy requirement. Therefore, greater understanding of the role of mitochondria in hepatocytes is of fundamental importance. Mitochondrial function can be analysed in several basic models: hepatocytes cultured in vitro; mitochondria in permeabilised hepatocytes; and isolated mitochondria. The aim of our study was to use all of these approaches to evaluate changes in mitochondria exposed in vitro to a potent non-specific peroxidating agent, tert-butylhydroperoxide (tBHP), which is known to induce oxidative stress. A decrease in the mitochondrial membrane potential (MMP) was observed in cultured hepatocytes treated with tBHP, as illustrated by a significant reduction in Rhodamine 123 accumulation and by a decrease in the fluorescence of the JC-1 molecular probe. Respiratory Complex I in the mitochondria of permeabilised hepatocytes showed high sensitivity to tBHP, as documented by high-resolution respirometry. This could be caused by the oxidation of NADH and NADPH by tBHP, followed by the disruption of mitochondrial calcium homeostasis, leading to the collapse of the MMP. A substantial decrease in the MMP, as determined by tetraphenylphosphonium ion-selective electrode measurements, also confirmed the dramatic impact of tBHP-induced oxidative stress on mitochondria. Swelling was observed in isolated mitochondria exposed to tBHP, which could be prevented by cyclosporin A, which is evidence for the role of mitochondrial permeability transition. 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A decrease in the mitochondrial membrane potential (MMP) was observed in cultured hepatocytes treated with tBHP, as illustrated by a significant reduction in Rhodamine 123 accumulation and by a decrease in the fluorescence of the JC-1 molecular probe. Respiratory Complex I in the mitochondria of permeabilised hepatocytes showed high sensitivity to tBHP, as documented by high-resolution respirometry. This could be caused by the oxidation of NADH and NADPH by tBHP, followed by the disruption of mitochondrial calcium homeostasis, leading to the collapse of the MMP. A substantial decrease in the MMP, as determined by tetraphenylphosphonium ion-selective electrode measurements, also confirmed the dramatic impact of tBHP-induced oxidative stress on mitochondria. Swelling was observed in isolated mitochondria exposed to tBHP, which could be prevented by cyclosporin A, which is evidence for the role of mitochondrial permeability transition. Our results demonstrate that all of the above-mentioned models can be used for toxicity assessment, and the data obtained are complementary.</description><subject>Animal Testing Alternatives</subject><subject>Animals</subject><subject>Biological and medical sciences</subject><subject>Cell structures and functions</subject><subject>Cells, Cultured</subject><subject>Dose-Response Relationship, Drug</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>hepatocytes</subject><subject>Hepatocytes - drug effects</subject><subject>Hepatocytes - metabolism</subject><subject>Hepatocytes - pathology</subject><subject>in vitro studies</subject><subject>Male</subject><subject>Manometry</subject><subject>Membrane Potential, Mitochondrial - drug effects</subject><subject>Membrane Potential, Mitochondrial - physiology</subject><subject>mitochondria</subject><subject>Mitochondria and cell respiration</subject><subject>Mitochondria, Liver - drug effects</subject><subject>Mitochondria, Liver - metabolism</subject><subject>Mitochondrial Swelling - drug effects</subject><subject>Mitochondrial Swelling - physiology</subject><subject>Molecular and cellular biology</subject><subject>Oxidants - toxicity</subject><subject>Oxidative Stress</subject><subject>Oxygen - analysis</subject><subject>Oxygen - metabolism</subject><subject>Oxygen Consumption</subject><subject>Rats</subject><subject>Rats, Wistar</subject><subject>tert-Butylhydroperoxide - toxicity</subject><issn>0261-1929</issn><issn>2632-3559</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpl0MtKAzEUBuAgitbqC7jQbFyOnkyazGQppbUFpeBlPZxcRiPTmZJMxb69qS2IuEog33_C-Qm5YHDDWFHcQi4ZU7mCArgA4MAPyCCXPM-4EOqQDLYg24oTchrjB4AccaaOyQkrpAAlxID4ySc2a-x919Kupo--78x719rgsaHTdWt-XnxL57FrsHeWPmFPZ26FCW56Fym29k-M2nXw7RtdfHmb5n46-twHF-MZOaqxie58fw7J63TyMp5lD4v7-fjuITNcqT7TxhitmHCjUa21TZspW6Q71wVKZ1XtjGRKIGpZ5MopA1qzElOgtFInNyT5bq4JXYzB1dUq-CWGTcWg2vZW_e8thS53odVaL539jeyLSuB6DzAabOqArfHx15Wq4KyE5K52rsauwreQzOtzDowDlJB-Ffwbr3mAww</recordid><startdate>20070601</startdate><enddate>20070601</enddate><creator>Cervinková, Z</creator><creator>Lotková, H</creator><creator>Krivaková, P</creator><creator>Rousar, T</creator><creator>Kucera, O</creator><creator>Tichý, L</creator><creator>Cervinka, M</creator><creator>Drahota, Z</creator><general>Fund for the Replacement of Animals in Medical Experiments</general><scope>FBQ</scope><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20070601</creationdate><title>Evaluation of Mitochondrial Function in Isolated Rat Hepatocytes and Mitochondria during Oxidative Stress</title><author>Cervinková, Z ; Lotková, H ; Krivaková, P ; Rousar, T ; Kucera, O ; Tichý, L ; Cervinka, M ; Drahota, Z</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c399t-bcccb915e44fbbd0359d744f3b7a6ed9fec6195aab6729e9c0bb18a15e8d6b4f3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2007</creationdate><topic>Animal Testing Alternatives</topic><topic>Animals</topic><topic>Biological and medical sciences</topic><topic>Cell structures and functions</topic><topic>Cells, Cultured</topic><topic>Dose-Response Relationship, Drug</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>hepatocytes</topic><topic>Hepatocytes - drug effects</topic><topic>Hepatocytes - metabolism</topic><topic>Hepatocytes - pathology</topic><topic>in vitro studies</topic><topic>Male</topic><topic>Manometry</topic><topic>Membrane Potential, Mitochondrial - drug effects</topic><topic>Membrane Potential, Mitochondrial - physiology</topic><topic>mitochondria</topic><topic>Mitochondria and cell respiration</topic><topic>Mitochondria, Liver - drug effects</topic><topic>Mitochondria, Liver - metabolism</topic><topic>Mitochondrial Swelling - drug effects</topic><topic>Mitochondrial Swelling - physiology</topic><topic>Molecular and cellular biology</topic><topic>Oxidants - toxicity</topic><topic>Oxidative Stress</topic><topic>Oxygen - analysis</topic><topic>Oxygen - metabolism</topic><topic>Oxygen Consumption</topic><topic>Rats</topic><topic>Rats, Wistar</topic><topic>tert-Butylhydroperoxide - toxicity</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Cervinková, Z</creatorcontrib><creatorcontrib>Lotková, H</creatorcontrib><creatorcontrib>Krivaková, P</creatorcontrib><creatorcontrib>Rousar, T</creatorcontrib><creatorcontrib>Kucera, O</creatorcontrib><creatorcontrib>Tichý, L</creatorcontrib><creatorcontrib>Cervinka, M</creatorcontrib><creatorcontrib>Drahota, Z</creatorcontrib><collection>AGRIS</collection><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><jtitle>ATLA. 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Maintenance of mitochondrial function is essential for the survival and normal performance of hepatocytes, which have a high energy requirement. Therefore, greater understanding of the role of mitochondria in hepatocytes is of fundamental importance. Mitochondrial function can be analysed in several basic models: hepatocytes cultured in vitro; mitochondria in permeabilised hepatocytes; and isolated mitochondria. The aim of our study was to use all of these approaches to evaluate changes in mitochondria exposed in vitro to a potent non-specific peroxidating agent, tert-butylhydroperoxide (tBHP), which is known to induce oxidative stress. A decrease in the mitochondrial membrane potential (MMP) was observed in cultured hepatocytes treated with tBHP, as illustrated by a significant reduction in Rhodamine 123 accumulation and by a decrease in the fluorescence of the JC-1 molecular probe. Respiratory Complex I in the mitochondria of permeabilised hepatocytes showed high sensitivity to tBHP, as documented by high-resolution respirometry. This could be caused by the oxidation of NADH and NADPH by tBHP, followed by the disruption of mitochondrial calcium homeostasis, leading to the collapse of the MMP. A substantial decrease in the MMP, as determined by tetraphenylphosphonium ion-selective electrode measurements, also confirmed the dramatic impact of tBHP-induced oxidative stress on mitochondria. Swelling was observed in isolated mitochondria exposed to tBHP, which could be prevented by cyclosporin A, which is evidence for the role of mitochondrial permeability transition. Our results demonstrate that all of the above-mentioned models can be used for toxicity assessment, and the data obtained are complementary.</abstract><cop>Nottingham</cop><pub>Fund for the Replacement of Animals in Medical Experiments</pub><pmid>17650955</pmid><doi>10.1177/026119290703500303</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animal Testing Alternatives Animals Biological and medical sciences Cell structures and functions Cells, Cultured Dose-Response Relationship, Drug Fundamental and applied biological sciences. Psychology hepatocytes Hepatocytes - drug effects Hepatocytes - metabolism Hepatocytes - pathology in vitro studies Male Manometry Membrane Potential, Mitochondrial - drug effects Membrane Potential, Mitochondrial - physiology mitochondria Mitochondria and cell respiration Mitochondria, Liver - drug effects Mitochondria, Liver - metabolism Mitochondrial Swelling - drug effects Mitochondrial Swelling - physiology Molecular and cellular biology Oxidants - toxicity Oxidative Stress Oxygen - analysis Oxygen - metabolism Oxygen Consumption Rats Rats, Wistar tert-Butylhydroperoxide - toxicity
title	Evaluation of Mitochondrial Function in Isolated Rat Hepatocytes and Mitochondria during Oxidative Stress
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