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Query: UMLS:C0008370 (cholestasis)
 9,378 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The accumulation of hydrophobic bile acids plays a role in the induction of apoptosis and necrosis of hepatocytes during cholestasis. The aim of this study was to determine in freshly isolated rat hepatocytes the roles of oxidant stress and the mitochondrial permeability transition (MPT) in bile acid-induced apoptosis. Hepatocytes isolated from adult male Sprague-Dawley rats were incubated for 4 hours in buffer containing the hydrophobic bile acid, glycochenodeoxycholic acid (GCDC, 0-500 micromol/L) or the hydrophilic bile acid, glycocholic acid (GCA), and either the antioxidants, alpha tocopherol, ebselen, or idebenone (a coenzyme Q analogue); or the MPT blockers, cyclosporin A, or bongkrekic acid, or a caspase-8 inhibitor. Apoptosis was assessed hourly by nuclear morphologic changes of fixed cells by DAPI fluorescence microscopy and reactive oxygen species (ROS) generation by dichlorofluorescein fluorescence of hepatocytes. The percent of cells undergoing apoptosis increased in a time- and concentration-dependent manner in cells exposed to GCDC, and to a much lesser extent to GCA. ROS generation preceded the onset of apoptosis. MPT blockers, caspase-8 inhibition, and antioxidants prevented apoptosis and reduced ROS generation by hepatocytes. Flow cytometry analysis showed that MPT occurred within 1 hour of exposure of cells to 100 micromol/L GCDC, prior to onset of significant apoptosis. In conclusion, ROS generation, MPT induction, and cytochrome c release are critical steps in the induction of apoptosis by bile acids. Antioxidants may reduce liver injury caused by low levels of bile acids by preventing the generation of oxidant stress and subsequent stimulation of the MPT and release of cytochrome c from mitochondria.
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PMID:Bile acid-induced rat hepatocyte apoptosis is inhibited by antioxidants and blockers of the mitochondrial permeability transition. 1123 Jul 42

Elevated serum and tissue bilirubin concentrations that occur in pathological conditions such as cholestasis, jaundice, and other liver diseases are known to stimulate cytotoxic responses. In preliminary studies, we noted that bilirubin seemed to cause apoptosis in murine hepatoma Hepa 1c1c7 wild-type (WT) cells. Consequently, we investigated apoptosis caused by bilirubin in WT, mutant C12 [aryl hydrocarbon receptor (AHR)-deficient], and C4 (AHR nuclear translocator-deficient) Hepa 1c1c7 cells. Three independent measures of apoptosis were used to quantify the effects of exogenous bilirubin (0, 1, 10, 25, 50, or 100 microM). Caspase-3 activity and cytochrome c release from mitochondria increased at 3 h post-treatment, before increased caspase-8 activity at 6 h, and nuclear condensation by 24 h after treatment with bilirubin. No differences in whole-cell lipid peroxidation were observed between the cell types; however, intracellular reactive oxygen species (ROS) production was greater in WT cells than C12 or C4 cells 3 h after bilirubin exposure. Pretreatment of cells for 1 h with 1 or 10 microM alpha-naphthoflavone, an AHR antagonist, before bilirubin exposure resulted in decreased caspase-3 activity at 6 h and nuclear condensation at 24 h in WT cells. These results indicate that bilirubin, a potential AHR ligand, causes apoptosis in murine Hepa 1c1c7 WT cells by a mechanism(s) partially involving the AHR, disruption of membrane integrity, and increased intracellular ROS production.
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PMID:Apoptosis in murine hepatoma hepa 1c1c7 wild-type, C12, and C4 cells mediated by bilirubin. 1213 Jun 76

The goals of the current study are to examine the extent and mechanisms of apoptosis in cholestatic liver injury and to explore the role of the transcription factor nuclear factor-kappa B (NF-kappaB) in protection against bile acid-induced apoptosis. Cholestatic liver injury was induced by bile duct ligation in Wistar rats. Furthermore, primary cultures of rat hepatocytes were exposed to glycochenodeoxycholic acid (GCDCA), tauroursodeoxycholic acid, taurochenodeoxycholic acid, and to cytokines. Apoptosis was determined by TUNEL staining, active caspase-3 staining, and by activation of caspase-8, caspase-9, and caspase-3. Limited hepatocyte apoptosis and increased expression of NF-kappaB-regulated anti-apoptotic genes A1 and cIAP2 were detected in cholestatic rat liver specimens. Bcl-2 expression was restricted to bile duct epithelium. In contrast to taurochenodeoxycholic acid and tauroursodeoxycholic acid, GCDCA induced apoptosis in a Fas-associated protein with death domain-independent pathway in hepatocytes. Although bile acids do not activate NF-kappaB, NF-kappaB activation by cytokines (induced during cholestasis) protected against GCDCA-induced apoptosis in vitroby upregulating A1 and cIAP2. GCDCA induces apoptosis in a mitochondria-controlled pathway in which caspase-8 is activated in a Fas-associated protein with death domain-independent manner. However, bile acid-induced apoptosis in cholestasis is limited. This could be explained by cytokine-induced activation of NF-kappaB-regulated antiapoptosis genes like A1 and cIAP2.
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PMID:What doesn't kill you makes you stronger: how hepatocytes survive prolonged cholestasis. 1287 10

We have investigated whether maternal obstructive cholestasis during pregnancy (OCP) causes oxidative stress and apoptosis in rat placenta and whether treatment with ursodeoxycholic acid (UDCA, i.g., 60 microg/100 g b.wt./day, following complete biliary obstruction on day 14 of pregnancy) has protective effects on this organ. In rats with OCP, increased (15-fold) serum bile acid concentrations (BAs) together with signs of placental oxidative stress (lipid peroxidation and protein carbonylation) were found. The latter were partly prevented by UDCA, even though hypercholanemia was not corrected. Some elements of the antioxidant system (total glutathione content, GSH/GSSG ratio and catalase, glutathione peroxidase, and glutathione-S-transferase--but not glutathione reductase--activities) were impaired in placentas from the OCP group. UDCA treatment partly prevented changes in the antioxidant system. OCP induced an increase in Bax-alpha/Bcl-2 mRNA ratio, as determined by real-time quantitative PCR, suggesting enhanced susceptibility to apoptosis activation through the mitochondria-mediated pathway. Accordingly, the activity of caspase-3, but not caspase-8, was increased in OCP placentas, in which DNA-ladder analysis and TUNEL confirmed the existence of apoptosis. UDCA prevented changes in the Bax-alpha/Bcl-2 mRNA ratio and caspase-3 activity. In conclusion, OCP causes oxidative stress and apoptosis in rat placenta, which can be prevented by treatment with UDCA.
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PMID:Maternal cholestasis induces placental oxidative stress and apoptosis. Protective effect of ursodeoxycholic acid. 1631 35

Ethanol is able to cross the placenta, which may cause teratogenicity. Here we investigated whether ethanol consumption during pregnancy (ECDP), even at doses unable to cause malformation, might increase the susceptibility of fetal rat liver to oxidative insults. Since cholestasis is a common condition in alcoholic liver disease and pregnancy, exposure to glycochenodeoxycholic acid (GCDCA) has been used here as the oxidative insult. The mothers received drinking water without or with ethanol from 4 weeks before mating until term, when placenta, maternal liver, and fetal liver were used. Ethanol induced a decreased GSH/GSSG ratio in these organs, together with enhanced gamma-glutamylcysteine synthetase and glutathione reductase activities in both placenta and fetal liver. Lipid peroxidation in placenta and fetal liver was enhanced by ethanol, although it had no effect on caspase-3 activity. Although the basal production of reactive oxygen species (ROS) was higher by fetal (FHs) than by maternal (AHs) hepatocytes in short-term cultures, the production of ROS in response to the presence of varying GCDCA concentrations was higher in AHs and was further increased by ECDP, which was associated to a more marked impairment in mitochondrial function. Moreover, GCDCA-induced apoptosis was increased by ECDP, as revealed by enhanced Bax-alpha/Bcl-2 ratio (both in AHs and FHs) and the activity of caspase-8 (only in AHs) and caspase-3. In sum, our results indicate that although AHs are more prone than FHs to producing ROS, at doses unable to cause maternal liver damage ethanol consumption causes oxidative stress and apoptosis in fetal liver.
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PMID:Maternal ethanol consumption during pregnancy enhances bile acid-induced oxidative stress and apoptosis in fetal rat liver. 1682 60

Interleukin-6 (IL-6) is a major regulator of the acute phase reaction in the liver and is thought to mediate protective effects in response to hepatotoxins. In this study, the influence of bile acids on IL-6 signal transduction was analyzed. It was shown that hydrophobic bile acids such as glycochenodeoxycholate (GCDC) inhibited IL-6-induced tyrosine phosphorylation of signal transducer and activator of transcription (STAT) 3 in hepatocytes and in perfused rat liver. This inhibition was accompanied by GCDC-mediated downregulation of glycoprotein (gp) 130 expression, whereas gp130 and suppressor of cytokine signaling 3 messenger RNA and gp80 protein levels remained unaffected. The GCDC-induced downregulation of gp130 protein expression was insensitive to inhibition of proteasomal or lysosomal protein degradation but turned out to be sensitive to inhibition of caspase-3 or caspase-8 activity. Accordingly, treatment of cell extracts with active recombinant caspase-3 led to a decay of immunoreactive gp130. Moreover, activation of caspases by CD95 ligand or hyperosmotic stress also resulted in a downregulation of gp130 levels. This indicates that caspase activation antagonizes IL-6 signaling by decay of gp130 levels. However, caspase inhibition did not prevent GCDC-dependent inhibition of IL-6-induced STAT3 activation, which turned out to be at least partially sensitive to suppression of p38(MAPK) activation. In conclusion, hydrophobic bile acids compromise IL-6 signaling through both a caspase-mediated downregulation of gp130 and a p38(MAPK)-dependent inhibition of STAT3 phosphorylation. This may contribute to bile acid-induced hepatotoxicity in cholestasis through counteracting the known hepatoprotective effects of IL-6.
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PMID:Bile acids inhibit interleukin-6 signaling via gp130 receptor-dependent and -independent pathways in rat liver. 1705 37

TGR5 is a novel G protein-coupled cell-surface bile acid receptor. In cholestasis, bile acids induce hepatocyte apoptosis by primarily activating death receptor-mediated signaling. We examined if bile acid-induced TGR5 activation is participating in bile acid-induced hepatocyte apoptosis. TGR5 expression and its responsiveness to bile acid were confirmed in human hepatocytes. TGR5 inhibition attenuated bile acid-induced caspase 8 activation, which resulted from reduced bile acid-induced caspase 8 recruited to a death-inducing signaling complex (DISC). Bile acid-induced c-Jun-N terminal kinase (JNK) activation was dependent on bile acid activation of TGR5. JNK formed complexes with caspase 8, which were reduced following bile acid treatment, but this reduction was prevented when TGR5 or JNK was inhibited. In conclusion, bile acids activate TGR5, which leads to JNK activation and reduced complex formation of JNK with caspase 8, thus facilitating caspase 8 recruitment to DISC. These observations suggest therapeutic applications for TGR5 signaling blockage in cholestasis.
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PMID:Bile acid-induced TGR5-dependent c-Jun-N terminal kinase activation leads to enhanced caspase 8 activation in hepatocytes. 1765 58

Apoptosis induced by hydrophobic bile acids is thought to contribute to liver injury during cholestasis. Caspase-6 is an executioner caspase that also appears to have regulatory functions in hematopoetic cell lines. We aimed to elucidate the role of caspase-6 in bile acid-induced apoptosis. The major human hydrophobic bile acid, glycochenodeoxycholic acid (GCDCA, 75 micromol/liter), rapidly induced caspase-6 cleavage in HepG2-Ntcp human hepatoma cells. GCDCA-induced, but not tumor necrosis factor alpha- or etoposide-induced activation of effector caspases-3 and -7 was significantly reduced by 50% in caspase-6-deficient HepG2-Ntcp cells as well as in primary rat hepatocytes pretreated with a caspase-6 inhibitor. Inhibition of caspase-9 reduced GCDCA-induced activation of caspase-6, whereas inhibition of caspase-6 reduced activation of caspase-8 placing caspase-6 between caspase-9 and caspase-8. GCDCA also induced apoptosis in Fas-deficient Hep3B-Ntcp and HuH7-Ntcp hepatoma cells. In addition, GCDCA-induced apoptosis was reduced by 50% in FADD-deficient HepG2-Ntcp cells, whereas apoptosis induced by tumor necrosis factor alpha was reduced by 90%. Collectively, these observations suggest that GCDCA can induce hepatocyte apoptosis in the absence of death receptor signaling, presumably by a compensatory mitochondrial pathway. In conclusion, caspase-6 appears to play an important regulatory role in the promotion of bile acid-induced apoptosis as part of a feedback loop.
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PMID:Bile acid-induced apoptosis in hepatocytes is caspase-6-dependent. 1901 54

Mitochondria are known to be involved in cholestatic liver injury, but the damage and biogenesis of mitochondria in response to the early stage of cholestasis is unknown. A rat model of cholestasis was established by bile duct ligation (BDL), with simultaneous creation of the sham group receiving laparotomy without BDL. A significant decrease of liver peroxisome proliferators-activated receptor gamma coactivator-1alpha, mitochondrial transcriptional factor A (Tfam) and glutathione peroxidase (GPx) mRNA and Tfam protein from 6 to 72 h after BDL was found, which was associated with significant decrease of the glutathione, GPx and catalase activity at 72 h. At 72 h after BDL, mitochondrial DNA copy number reached the lowest level, while caspase 9 and 3 activity, but not caspase 8, Bax, Bcl(2), Fas L and Fas-Fas L complex, were upregulated significantly in the liver homogenates of BDL rats. The apoptotic liver cells appeared in large amounts in the rat liver by 72 h after BDL. Our results indicate that transcriptional regulation of the mitochondrial biogenesis is impaired within a few hours after complete bile duct obstruction, resulting in later mitochondrial dysfunction and consequent cholestatic liver injury via the intrinsic apoptosis pathway.
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PMID:Early transcriptional deregulation of hepatic mitochondrial biogenesis and its consequent effects on murine cholestatic liver injury. 1946 40

Alagille syndrome (AGS) is an autosomal dominant disorder characterized by cholestasis, cardiac, skeletal and ocular abnormalities. Increasing importance is being given to vascular and central nervous system impairment. AGS is in most cases caused by heterozygous mutations in the Jagged-1 (JAG1) gene encoding a cell-surface ligand of the Notch receptors. The interaction between Notch1 and JAG1 induces proliferation and inhibits apoptosis. We evaluated the role of apoptosis in AGS patients carrying a truncating mutation in exon 7 of JAG1. Peripheral blood lymphocytes (PBLs) from two patients were exposed to 2-deoxy-d-ribose (dRib). Apoptosis was analyzed by flow cytometry, fluorescence microscopy and Western blotting. PBLs from patients showed a significantly higher percentage of apoptosis than controls both in standard culture conditions and after dRib treatment, however we demonstrated a lack of caspase-8 activation in those cells. Our results confirm that JAG1 may play a role in apoptosis regulation. In particular, truncating mutations in JAG1 could lead to Notch signaling inhibition and determine a deregulation of survival and proliferation, favoring apoptosis. Moreover, the lack of caspase-8 activation in AGS patients indicates a possible selective impairment of caspase-8 cleavage suggesting that JAG1 plays a specific role in the regulation of caspase-8 activation.
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PMID:Oxidative stress-induced apoptosis in two patients with Alagille syndrome. 2171 72


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