M S Straka scite author profile

Hydrophobic bile acids may cause hepatocellular necrosis and apoptosis during cholestatic liver diseases. The mechanism for this injury may involve mitochondrial dysfunction and the generation of oxidant stress. The purpose of this study was to determine the relationship of oxidant stress and the mitochondrial membrane permeability transition (MMPT) in hepatocyte necrosis induced by bile acids. The MMPT was measured spectrophotometrically and morphologically in rat liver mitochondria exposed to glycochenodeoxycholic acid (GCDC). Freshly isolated rat hepatocytes were exposed to GCDC and hepatocellular necrosis was assessed by lactate dehydrogenase release, hydroperoxide generation by dichlorofluorescein fluorescence, and the MMPT in cells by JC1 and tetramethylrhodamine methylester fluorescence on flow cytometry. GCDC induced the MMPT in a dose-and Ca 2ϩ -dependent manner. Antioxidants significantly inhibited the GCDC-induced MMPT and the generation of hydroperoxides in isolated mitochondria. Other detergents failed to induce the MMPT and a calpain-like protease inhibitor had no effect on the GCDC-induced MMPT. In isolated rat hepatocytes, GCDC induced the MMPT, which was inhibited by antioxidants. Blocking the MMPT in hepatocytes reduced hepatocyte necrosis and oxidant stress caused by GCDC. Oxidant stress, and not detergent effects or the stimulation of calpain-like proteases, mediates the GCDC-induced MMPT in hepatocytes. We propose that reducing mitochondrial generation of reactive oxygen species or preventing increases in mitochondrial Ca 2ϩ may protect the hepatocyte against bile acid-induced necrosis. 1-3). Although hydrophobic bile acids cause injury to isolated hepatocytes (4), cultured hepatocytes (5), and the intact liver (6), the mechanisms of this toxicity are not fully understood. Both hepatocellular necrosis at higher bile acid concentrations (4) and apoptosis at lower concentrations (7) have been demonstrated and are proposed as playing a role in cholestatic liver injury. Hepatocyte necrosis is characterized by cellular swelling, loss of mitochondrial respiratory function, depleted cellular ATP levels, and formation of plasma membrane blebs that rupture and release cellular contents (8, 9). In cholestatic liver ABSTRACT519

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The effect of idebenone, a coenzyme Q analogue, on hydrophobic bile acid toxicity to isolated rat hepatocytes and hepatic mitochondria

Shivaram

Winklhofer‐Roob

Straka

et al. 1998

Free Radical Biology and Medicine

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Activation of the silent endogenous cholesterol-7-alpha-hydroxylase gene in rat hepatoma cells: a new complementation group having resistance to 25-hydroxycholesterol.

Leighton¹,

Dueland²,

Straka³

et al. 1991

Mol. Cell. Biol.

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The oxysterol 25-hydroxycholesterol acts both as a regulatory sterol determining the expression of genes governed by sterol regulatory elements and as a substrate for 7-alpha-hydroxylase, the first and rate-limiting enzyme in the bile acid synthetic pathway. Most wild-type nonhepatic cells are killed by the cytotoxic action of 25-hydroxycholesterol. In contrast, liver cells, which express 7-alpha-hydroxylase activity, are resistant to killing by 25-hydroxycholesterol. We examined the possibility that selection for resistance to 25-hydroxycholesterol might lead to the derivation of a cell line expressing 7-alpha-hydroxylase. A rat hepatoma cell line (7-alpha-hydroxylase minus) was transfected with human DNA and screened for resistance to 25-hydroxycholesterol. Although parental hepatoma cells were all killed within a week, a 25-hydroxycholesterol-resistant cell line (L35 cells) which showed stable expression of 7-alpha-hydroxylase activity and mRNA was obtained. These cells exhibited normal inhibition of cholesterol biosynthesis by 25-hydroxycholesterol. Blocking 7-alphahydroxylase activity with ketoconazole also blocked the resistance of L35 cells to 25-hydroxycholesterol. Isolation of microsomes from these cells showed levels of 7-alpha-hydroxylase activity (22.9 pmol/min/mg of protein) that were comparable to the activity (33.2 pmol/min/mg) of microsomes isolated from the livers of rats killed during the high point of the diurnal cycle. Parental cells had no detectable activity. These data show a new complementation group for 25-hydroxycholesterol resistance: expression of 7-alpha-hydroxylase. Dexamethasone increased both the activity and the cellular content of mRNA coding for 7-alpha-hydroxylase. Since dactinomycin blocked the ability of dexamethasone to induce mRNA, active transcription is required. Southern analysis of genomic DNA showed that L35 cells contain the rat (endogenous) gene but not the human gene. Furthermore, the RNA expressed by L35 cells is similar in size to rat RNA and is distinct from the human form of 7-alpha-hydroxylase. The combined data indicate that L35 cells are resistant to 25-hydroxycholesterol because they express 7-alpha-hydroxylase. The mechanism responsible involves activation of the endogenous (silent) gene of the parental rat hepatoma cell.The conversion of cholesterol to bile acids and their subsequent excretion via the biliary system is the major pathway through which cholesterol is removed from the body and cholesterol homeostasis is maintained (34). Bile acid synthesis is regulated by the activity of hepatic 7-alphahydroxylase (24) and the availability of substrate to the enzyme, which is located in the cholesterol-poor endoplasmic reticulum (36). Recent studies by Jelinek et al. (19) show that dietary cholesterol increases expression of 7-alphahydroxylase (EC 1.14.13.17) in rats. There are several substrates and products for the 7-alpha-hydroxylase reaction. In addition to cholesterol, both 25-and 26-hydroxycholesterol can be efficiently hydroxylated in the 7 position a...

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Post-transcriptional Regulation of 3-Hydroxy-3-Methylglutaryl Coenzyme-A Reductase by Mevalonate

Straka

Panini

1995

Archives of Biochemistry and Biophysics

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Substrate stimulation of 7 alpha-hydroxylase, an enzyme located in the cholesterol-poor endoplasmic reticulum.

Straka

Junker

Zacarro

et al. 1990

Journal of Biological Chemistry

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M S Straka

Role of Oxidant Stress in the Permeability Transition Induced in Rat Hepatic Mitochondria by Hydrophobic Bile Acids

The effect of idebenone, a coenzyme Q analogue, on hydrophobic bile acid toxicity to isolated rat hepatocytes and hepatic mitochondria

Activation of the silent endogenous cholesterol-7-alpha-hydroxylase gene in rat hepatoma cells: a new complementation group having resistance to 25-hydroxycholesterol.

Post-transcriptional Regulation of 3-Hydroxy-3-Methylglutaryl Coenzyme-A Reductase by Mevalonate

Substrate stimulation of 7 alpha-hydroxylase, an enzyme located in the cholesterol-poor endoplasmic reticulum.

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