The B[a]P-increased intercellular communication via translocation of connexin-43 into gap junctions reduces apoptosis.

Gap junctions are channels in plasma membrane composed of proteins called connexins. These channels are organized in special domains between cells, and provide for direct gap junctional intercellular communication (GJIC), allowing diffusion of signalling molecules <1 kD. GJIC regulates cell homeostasis and notably the balance between proliferation, cell cycle arrest, cell survival and apoptosis. Here, we have investigated benzo[a]pyrene (B[a]P) effects on GJIC and on the subcellular localization of the major protein of gap junction: connexin-43 (Cx43). Our results showed that B[a]P increased GJIC between mouse hepatoma Hepa1c1c7 cells via translocation of Cx43 from Golgi apparatus and lipid rafts into gap junction plaques. Interestingly, inhibition of GJIC by chlordane or small interference RNA directed against Cx43 enhanced B[a]P-induced apoptosis in Hepa1c1c7 cells. The increased apoptosis caused by inhibition of GJIC appeared to be mediated by ERK/MAPK pathway. It is suggested that B[a]P could induce transfer of cell survival signal or dilute cell death signal via regulation of ERK/MAPK through GJIC.

Immunohistological analysis of glutathione transferase A4 distribution in several human tissues using a specific polyclonal antibody.

We examined the cellular distribution of glutathione transferase A4 (GSTA4) in various human tissues by indirect immunoperoxidase using a specific polyclonal antibody raised in rabbit. This enzyme was localized in hepatocytes, bile duct cells, and vascular endothelial cells in liver, upper layers of keratinocytes and sebaceous and sweat glands in skin, proximal convoluted tubules in kidney, epithelial cells of mucosa and muscle cells in colon, muscle cells in heart, and neurons in brain. Staining was increased in pathological situations such as cirrhosis, UV-irradiated skin, and myocardial infarction and was strongly decreased in hepatocellular carcinoma. These results strongly support the view of a close correlation between cellular GSTA4 localization and the formation of reactive oxygen species in the tissues investigated.

The induction of the human hepatic CYP2E1 gene by interleukin 4 is transcriptional and regulated by protein kinase C.

Cytochrome P4502E1 (CYP2E1) plays a key role in the metabolism of numerous drug substrates, mostly in mammalian liver. Both the apoprotein and mRNA levels are increased in response to interleukin 4 (IL-4) in primary human hepatocyte cultures. We developed a human hepatoma cell model that faithfully reproduces the responsiveness of the CYP2E1 gene to IL-4 at least in part through transcriptional activation, upon treatment with 150 U/ml of IL-4. As expected, IL-4 induced tyrosine phosphorylation of the STAT6 transcription factor, an effect prevented by the tyrosine kinase inhibitor tyrphostin A25. However, this inhibitor as well as genistein (another inhibitor of tyrosine kinases) had no effect on the IL-4 induction of CYP2E1. Similarly, protein kinase A activators (forskolin and dibutyryl-cAMP) and inhibitor (H89) did not influence the response to IL-4. However, PKC inhibitors (H7 and calphostin C) strongly blocked any induction of the gene, as well as the IL-4-dependent translocation of PKCS. Taken together, our results show that IL-4 coordinately induces CYP2E1 transcription, mRNA and apoprotein levels in human hepatoma cells in a PKC-dependent manner, potentially through the activity of the PKCzeta isoform.

Hepatotoxicity of tacrine: occurrence of membrane fluidity alterations without involvement of lipid peroxidation.

Tacrine (THA), used in the treatment of Alzheimer's disease, is known to induce hepatotoxicity, the mechanisms of which remain to be fully established. We have previously shown that THA reduced intracellular glutathione concentration in rat hepatocytes in primary culture, thus pointing to a possible role for oxidative stress in THA toxicity. To test this, the effects of antioxidant molecules, namely, the flavonoids silibinin, silibinin dihydrogensuccinate, and silymarin, were evaluated on the toxicity of THA in cultured rat hepatocytes. This toxicity was investigated after a 24-h treatment over a concentration range from 0 to 1 mM, in the presence or absence of antioxidant (1 and 10 microM). We found that simultaneous treatment of hepatocytes with any of the antioxidants and THA remained ineffective on the lactate dehydrogenase release induced by THA. Then, the production of lipid-derived radicals (to estimate lipid peroxidation) was measured in THA (0.05-0.50 mM)-treated cells using a spin-trapping technique coupled to electron paramagnetic resonance (EPR) spectroscopy. No increase of the EPR signal was observed over the period of 30 min to 24 h. In contrast, treatment of cells with the spin label 12-doxyl stearic acid followed by EPR spectroscopy showed that THA (0.05 and 0.25 mM) rapidly increased hepatocyte membrane fluidity. Extracellular application of GM1 ganglioside (60 microM) both reversed this increase in fluidity and partially reduced lactate dehydrogenase release on THA exposure. In conclusion, this work indicates that early alterations of membrane fluidity, not resulting from lipid peroxidation, are likely to play an important role in the development of THA toxicity.

Irniine, a pyrrolidine alkaloid, isolated from Arisarum vulgare can induce apoptosis and/or necrosis in rat hepatocyte cultures.

The effects of irniine, a pyrrolidine alkaloid extracted from the tubers of Arisarum vulgare, on rat hepatocyte primary cultures and rat liver epithelial cell line (RLEC) were studied. Cytotoxicity was first evaluated by LDH release, MTT and NR tests and MDA production, while cellular alterations were visualized by electron microscopy and DNA gel-electrophoresis. In hepatocyte and RLEC cultures, a major toxicity appeared at 40 microM of irniine and was demonstrated by an increase in LDH release and decreases in MTT reduction and NR uptake while concentrations lower than 40 microM did not induce significant changes in these parameters. However, we observed an increase in MDA production at 30 microM. Important alterations of the nuclei and mitochondria were also visualized by electron microscopy in cells treated with 50 microM. Using DNA gel-electrophoresis, we demonstrated that irniine at 40 and 50 microM induced DNA damage. All together these results demonstrate that: (1) Irniine induces a significant hepatotoxicity. (2) Irniine toxicity is not mediated by a metabolic derivative since RLEC, which do not contain a monooxygenase system, were also affected by this compound. (3) Irniine induces a significant DNA damage and oxidative stress which leads to cell death by necrosis and/or by apoptosis. Moreover, our data suggest that the alkaloid irniine contained in A. vulgare may be involved in the toxic symptoms observed after medicinal use or consumption of the plant tubers as food both by humans and animals.

Intracellular pH alterations induced by tacrine in a rat liver biliary epithelial cell line.

1. The effects of tacrine (THA) on intracellular pH (pH(i)) were examined in a rat liver biliary epithelial cell line (RLEC) in HEPES-buffered medium. pH(i) was recorded using the pH-sensitive fluoroprobe, carboxy-SNARF-1 (carboxy-seminaphtorhodafluor). 2. In the steady state, short-term exposures to THA resulted in alkalinization and re-acidification at 0.1 and 0.25 mM. Following a 24 h-treatment, no significant difference in pH(i) could be detected at 0.1 and 0.25 mM THA, whereas at 0.05 mM, pH(i) was slightly more acid (7.17+/-0. 02, n=16 versus 7.21+/-0.02, n=24 [control]). 3. In control and short-term treated cells, intracellular intrinsic buffering power (beta(i)) increased roughly linearly as pH(i) decreased. This dependence was not seen following long-term treatment. In all cases, beta(i) was increased by THA (by 1.6 to 3.5 fold). 4. Following an acid load (induced by 20 mM NH(4)Cl removal), pH(i) recovery in RLEC relied upon Na(+)/H(+) exchange. A short-term treatment (0.25 mM THA) did not affect total acid extrusion. In contrast, a 24 h-treatment with 0.05 mM THA reduced it (by approximately 36% at a pH(i) of 6.73) while at 0.25 mM, a large increase was detected (by approximately 109% at a pH(i) of 6.75). In Na(+)-free medium, THA (0. 25 mM) still induced an alkalinization in the steady state. Following an acid load, THA stimulated a Na(+)-independent acid efflux in a dose-dependent manner, inhibitable by alpha-cyano-4-hydroxy cinnamate (CHC, 4 mM) but not by quercetin (0. 125 mM). 6. In conclusion, this work demonstrates that THA affects pH(i) in RLEC, through a decrease in Na(+)/H(+) exchange and an increase in beta(i). Stimulation of a CHC-inhibitable, Na(+)-independent acid efflux is also detected.

Toxic effects of tacrine on primary hepatocytes and liver epithelial cells in culture.

Administration of tacrine (THA) for the treatment of Alzheimer's disease results in a reversible hepatotoxicity in 30-50% of patients, as indicated by an increase in transaminase levels. However, the intracellular mechanisms underlying such a toxicity have not yet been elucidated. In this study, we performed short-term and long-term in vitro treatments on primary human and rat hepatocyte cultures as well as on nonparenchymal rat liver epithelial cells (RLEC), known as CYP1A-deficient cells. Cell ultrastructure was analyzed under different conditions and the release of lactate dehydrogenase (LDH) was used to evaluate cytotoxicity. The effects of THA on protein synthesis, intermediary metabolism and reduced glutathione (GSH) level were also determined in rat hepatocytes. THA induced dose-dependent toxic effects in liver parenchymal and nonparenchymal cells, with human hepatocytes being less sensitive. This toxicity appeared to be unrelated to metabolism of THA since similar effects were observed in rat hepatocytes and RLEC, in which THA metabolism was found negligible. Ribosome aggregation appeared only at high concentrations (> 1 mmol/L) and was not specific to hepatocytes. Therefore, the THA-induced decrease in protein synthesis observed at lower concentrations was likely not related to this alteration. ATP and glycogen levels as well as GSH content were reduced upon THA. However, while glycogen level decreased at THA doses similar to those inducing an increase in LDH release, the fall in ATP and GSH contents occurred at higher doses. Thus, glycogen level in hepatocytes appeared to be a more sensitive indicator of THA toxicity than were ATP and GSH levels. We also found that protein synthesis started to decrease at THA doses that were still ineffective on LDH release. This might suggest that the decrease in synthesis of one or several proteins upon THA treatment represents the early signal leading cells to death.

Ribavirin inhibits protein synthesis and cell proliferation induced by mitogenic factors in primary human and rat hepatocytes.

Ribavirin, a guanosine analog, used in combination with interferon alpha (IFN-alpha) in the treatment of chronic hepatitis induced by hepatitis C virus (HCV) infection, has been shown to improve liver histology and to decrease transaminases even when administered alone. We analyzed the direct effects of ribavirin on the liver by using primary cultures of human and rat hepatocytes. Between 10 to 60 micromol/L, ribavirin was found to inhibit both the synthesis and secretion of whole proteins in a time- and dose-dependent fashion. Such an effect was confirmed by the measurement of albumin and haptoglobin secretion rates. [3H]-Thymidine incorporation was suppressed both in hepatocyte growth factor-stimulated human hepatocytes and in epidermal growth factor (EGF)-stimulated rat hepatocytes in the presence of ribavirin. The inhibitory effect on DNA synthesis was associated with a delayed progression to S phase of the cell cycle, as determined by flow cytometry and detection of cyclin A and cdc2 which are two proteins expressed during the S phase. The inhibition of DNA synthesis, caused by 50 micromol/L ribavirin, was completely restored by the addition of 80 micromol/L guanosine. These observations demonstrate that ribavirin at concentrations close to those found in plasma of treated patients can directly affect hepatic functions in vitro. Its effects could, however, be reduced in vivo by guanosine salvage supply.

Patterns of intermediate filaments, VLA integrins and HLA antigens in a new human biliary epithelial cell line sensitive to interferon-gamma.

BACKGROUND/AIMS: Intra-hepatic bile ducts are the primary site of damage in several immunologically mediated liver diseases. However, immunological processes underlying biliary epithelial cell recognition by T lymphocytes are poorly understood. Therefore, a convenient in vitro model that could mimic these immunologic disorders would be of great interest. METHODS: A human cell line (HuGB) was established from a metastasis of gallbladder adenocarcinoma in the liver. Intermediate filament expression was analysed by immunostaining, and gamma-glutamyl transpeptidase and albumin secretion were measured. VLA integrin expression pattern, expression of HLA class I and II antigens and ICAM-1 protein were analysed by flow cytometry and their modulation by interferon-gamma was quantitated using a QIFIKIT commercial kit. RESULTS: Histological analysis showed high similarity between the initial gallbladder adenocarcinoma and the established cell line. Cytokeratins 8 and 19 and vimentin showed strong positive staining in the established cell line. Gamma-glutamyl transpeptidase was secreted by these cells while albumin expression was negative. HuGB cells also expressed VLA-alpha2, VLA-alpha3, VLA-alpha6, VLA-beta1, but not VLA-alpha1, VLA-alpha4 and NCAM, a pattern of adhesion molecule expression compatible with the biliary epithelium. Also, similar to the biliary epithelium found in normal liver, HuGB cells expressed abundant HLA class I but few HLA class II antigens. We found that the expression of HLA antigens and ICAM-1 protein were increased during interferon-gamma treatment of HuGB cell line. CONCLUSIONS: Both phenotypic and morphological characteristics of HuGB cells suggested their biliary origin. Sensitivity of HuGB cells to interferon-gamma suggests that this new cell line could represent a suitable model to investigate the up-regulation of membrane antigens occurring in immune diseases involving biliary epithelial cells.

Use of hepatocyte cultures for the study of hepatotoxic compounds.

Human and animal hepatocytes in primary culture are widely used in pharmacotoxicological research. They represent a unique in vitro model since they retain both phase I and phase II enzyme activities as well as their inducibility by xenobiotics. Hepatocyte cultures are used for drug screening, identification of the lesions induced by toxic compounds and determination of mechanisms by which xenobiotics exert liver injury.

Liver-regulating protein (LRP) is a plasma membrane protein involved in cell contact-mediated regulation of Sertoli cell function by primary spermatocytes.

We have identified a liver-regulating protein involved in cell contact-mediated regulation of Sertoli cell function by primary spermatocytes in rat testis. Liver-regulating protein was studied using monoclonal antibody L8 prepared from rat primitive biliary epithelial cells. This molecule was located in vivo at the interface of Sertoli cells and spermatocytes, and expressed in a stage-dependent manner (expression peaked on leptotene-zygotene spermatocytes). In vitro, the liver-regulating protein was found on Sertoli cell, spermatocyte and early spermatid membranes. Immunoaffinity procedures revealed two peptides of 85 and 73 kDa for Sertoli cells, while spermatocytes and spermatids displayed a single smaller peptide of 56 kDa. The involvement of the liver-regulating protein in cell interaction-mediated regulation of Sertoli cell was assessed in vitro by tracing Sertoli cell transferrin and inhibin secretion, as well as mRNA synthesis in spermatocyte-Sertoli cell cocultures and in rat liver biliary epithelial cell-Sertoli cell cocultures, performed in the presence or absence of monoclonal antibody L8. Inhibition of the spermatocyte- and liver biliary epithelial cell-stimulated secretion of transferrin and inhibin by Sertoli cells was observed in the presence of antibody, whereas spermatocyte adhesiveness was unchanged. Using northern blot analysis, the steady state levels of transferrin mRNA decreased when the anti-liver-regulating protein antibody was added to the Sertoli cell-spermatocyte cocultures or to the Sertoli cell-liver biliary epithelial cell cocultures. The data demonstrate the role of the liver-regulating protein in cell-cell contact-mediated regulation of Sertoli function by primary spermatocytes and the important implications of this cell contact-dependent control in testicular activity.

Tissue distribution of liver regulating protein. Evidence for a cell recognition signal common to liver, pancreas, gonads, and hemopoietic tissues.

Liver regulating protein (LRP) is an integral plasma membrane protein that plays a critical role in maintaining the differentiated phenotype of adult rat hepatocytes by mediating cell-cell interactions with rat liver epithelial cells. Using a specific monoclonal antibody (MAb L8) capable of inhibiting the interactions between these two cell types, the cellular distribution of LRP was analyzed in the liver. Various cell types, including hepatocytes and several sinusoidal cells, were found to be positive, whereas vascular endothelial cells and bile duct cells were consistently negative. This observation led us to question whether cells of nonhepatic origin would also express LRP. We show that MAb L8 immunoreactive material was detected in only three groups of tissues and corresponded to molecules similar to LRP but with different molecular weights. LRP-like molecules were demonstrated on acinar cells of the exocrine pancreas and on all hemopoietic cells regardless of their localization in the organism. LRP-like molecules were also expressed by germ cells and surrounding feeder cells in the testis and ovary in a stage-dependent manner. These results demonstrate the existence of a family of LRP proteins and strongly suggest a critical role for these molecules in regulating cell-cell communication in specific tissues.

Human hepatocytes express trifluoroacetylated neoantigens after in vitro exposure to halothane.

Biotransformation of anaesthetic halothane by cytochrome P450-dependent monooxygenases resulted in the production of reactive intermediate trifluoroacetyl (TFA) halide, capable of covalently binding to hepatocyte proteins. TFA-modified liver proteins can act as antigens and are implicated in the pathogenesis of halothane hepatitis in humans. The aim of this study was to investigate the formation of TFA-neoantigens in halothane-treated primary cultures of adult human hepatocytes and to evaluate the usefulness of this in vitro model for studying immune-mediated halothane hepatotoxicity. Cultured human hepatocytes were incubated with halothane under constant temperature, atmosphere and anaesthetic concentration conditions. The results obtained show that halothane-treated hepatocytes isolated from seven different donors produced TFA-antigens as detected by immunocytochemical and western immunoblot analysis using rabbit anti-TFA antiserum. TFA-adducts were localized mainly in the endoplasmic reticulum and in small amounts on the plasma membrane of parenchymal cells. By immunoblotting, several neoantigens, with molecular masses from 42 to 100 kDa, were detected in halothane-exposed hepatocytes. These observations are consistent with the formation of TFA-adducts through metabolism of the anaesthetic and suggest that primary cultures of human hepatocytes represent a suitable in vitro model to study the pathogenesis of immune-mediated halothane hepatotoxicity.

Halothane-induced cytotoxicity to rat centrilobular hepatocytes in primary culture is not increased under low oxygen concentration.

BACKGROUND: Halothane can be metabolized by both oxidative and reductive pathways in the liver. This anesthetic can induce direct liver injury preferentially localized in centrilobular areas, probably in relation with lower oxygen tension. The reductive pathway has been related to liver damage; however, a correlation between lower oxygen concentration in centrilobular areas, the extent of reductive metabolism of halothane, and the degree of liver injury has not yet been demonstrated. This study was designed to better evaluate the toxicity of the reduced metabolites by using centrilobular and periportal rat hepatocyte subpopulations. METHODS: Adult rat hepatocytes, either as whole cell preparations or after separation in centrilobular and periportal cell subpopulations, were placed in primary culture and exposed to either 2% or 4% halothane under various oxygen concentrations. The enriched centrilobular hepatocyte subpopulations isolated by the digitonin-collagenase method were characterized by immunolocalization of glutamine synthetase. Three oxygen concentrations were tested: 5%, 20%, and 95%, and the main parameters measured were cell viability and fluoride ion formation. RESULTS: Viability of centrilobular hepatocytes was similar under 5% and 20% O2, but the unpurified hepatocyte population was more susceptible to 5% O2 (P < 0.01). Significantly higher cytochrome P-450 content was found in whole hepatocyte populations under 5% versus 20% oxygen, indicating that centrilobular hepatocytes that contained higher cytochrome P-450 monooxygenase activities were less sensitive to low oxygen concentrations. Halothane toxicity to centrilobular hepatocytes was enhanced under 95% versus 20% O2 (P < 0.05). By contrast, no significant difference was observed when the cells were maintained under 5% O2, although fluoride ions, indicative of reductive metabolism of halothane, were found in much higher amounts in the culture medium. Moreover, under 20% O2, halothane toxicity was significantly greater in centrilobular versus unpurified hepatocytes (P < 0.05). CONCLUSIONS: Isolated centrilobular hepatocytes appear to be more sensitive to halothane than their periportal counterparts in vitro. However, the authors' results support the conclusion that increased reductive metabolism of halothane induced by decreasing oxygen concentration is not a critical parameter for the occurrence of liver damage in these cells.

Oval cell proliferation in early stages of hepatocarcinogenesis in simian virus 40 large T transgenic mice.

In transgenic mice bearing the Simian Virus 40 large T antigen under the control of the human antithrombin III regulatory sequences, a stepwise progression toward hepatocellular carcinoma is observed. We have used two monoclonal antibodies (A6 and G7) developed against a surface antigen expressed in oval cells from dipin-treated mice, to analyze the emergence of such preneoplastic populations in the livers of antithrombin III Simian Virus 40 T transgenic mice. We show that a unique population of small heterogeneous epithelial cells, which probably corresponds to oval and/or transitional cells according to their morphological features, consistently appears at approximately the 10th week after birth and proliferates thereafter. This oval cell-like population stained positively for A6 and G7 monoclonal antibodies. Furthermore, different subpopulations usually recognized as possible precursors of carcinoma cells including hyperplastic foci and neoplastic nodules as well as carcinoma cells, were also positive for A6 but not G7 monoclonal antibodies. Stimulation of cell proliferation by partial hepatectomy performed at the time of emergence of the oval-like cells resulted in a rapid increase in the number of oval/transitional A6-positive cells. Our findings support the view that a common mechanism may be involved in the development of carcinomas that are induced by chemical carcinogens and in transgenic mice expressing a potent oncogene under the control of a hepatic specific promoter. In addition, our findings demonstrate a specific precursor-product relationship between the appearance of the oval/transitional cells and the development of neoplastic hepatocytes in this transgenic model.

Distribution and cellular origin of collagen VI during development and in cirrhosis.

Collagen VI is a ubiquitous microfibrillar collagen that forms a network in most interstitial connective tissues, including soft organs and cartilage. The extracellular and intracellular distribution of collagen VI in human liver was studied by light and electron microscopy using the indirect immunoperoxidase method. In normal adult liver, collagen VI was seen mainly in portal spaces and formed a continuous layer in the sinusoids. Fetal liver contained more of collagen VI in the sinusoid than newborn and adult livers. In alcoholic fibrotic and cirrhotic livers, collagen VI antibodies intensely stained fibrous septa that invaded the lobule. Immunoelectron microscopy on normal liver showed that collagen VI antibodies labeled microfibrillar material and occasionally the surface of cells including hepatocytes. In both perinatal and fibrotic livers, electron-dense deposits were abundant in the space of Disse, intensely staining fibrils located around bundles of banded collagen. In both normal and fibrotic adult livers, collagen VI was abundant in the rough endoplasmic reticulum of Ito cells, while hepatocytes were constantly negative. In fetal livers, hepatocytes also contained collagen VI. These results suggest that collagen VI is a major constituent of the hepatic extracellular matrix. Furthermore, the cellular sources of collagen VI appear to be different in adult and developing livers.

Replication of hepatitis B virus in differentiated adult rat hepatocytes transfected with cloned viral DNA.

The possibility of obtaining expression of human hepatitis B virus (HBV) genes and production of virus particles in normal liver cells from heterologous species like normal adult rat hepatocytes, by transfecting the complete HBV genome, was investigated. Various techniques for hepatocyte transfection were assayed including the usual calcium-phosphate coprecipitation technique, the Pasco and Fagan modified calcium-phosphate procedure, and the lipofection technique. Transfection efficiency was determined by measuring the production of HBV surface antigen under various culture conditions. Transfection was the most efficient when assayed 1 or 2 days after hepatocyte plating at low density. Few variations in the efficiency were observed between the different transfection procedures. We show that under these culture conditions, replication of HBV can be achieved in differentiated adult rat hepatocytes. Synthesis of relaxed circular and single-stranded DNA forms and of viral transcripts including pregenome RNA occurred in the cells whereas viral antigens and mature and immature viral particles were released into the culture medium. The production of viral proteins was always higher in hepatocytes cocultivated with rat liver epithelial cells and maintained at a low density. In contrast, viral replication was not obtained by transfecting undifferentiated rat liver epithelial cells. These results demonstrate that replication of HBV can occur in hepatocytes from mammalian species non-closely related to primates and strongly support the idea that attachment of the virus and its penetration into the cells are critical steps in the host-specificity of the infection process and that hepatic-specific regulating factors could be essential for viral replication.(ABSTRACT TRUNCATED AT 250 WORDS)

Cellular sources of matrix proteins in experimentally induced cholestatic rat liver.

Collagens (I, III, and IV), fibronectin, and laminin were localized using the indirect immunoperoxidase technique 14 days after bile duct ligation, i.e., when extensive fibrosis and numerous neoformed bile ducts were observed. Extensive fibrous septa in enlarged portal spaces were stained for collagens I, III and IV, fibronectin, and laminin. Collagen IV and laminin were abundant around proliferative bile ducts. In addition, collagen IV was nearly continuous in the sinusoids. At the ultrastructural level, antigens were localized in the endoplasmic reticulum of several liver cell types. In portal spaces, bile duct cells and cells that form the transitional canal of Hering were strongly labelled for basement membrane components, particularly laminin, but not for collagens I and III and fibronectin, which were abundant in fibroblast-like cells. Inside the lobule, only Ito cells and, to a lesser extent, endothelial cells contained collagens, fibronectin, and laminin. Ito cells were found to be heavily stained for collagens III and IV, and laminin. Except for fibronectin, which was always abundant, precursors of extracellular matrix proteins were only slightly detectable in the endoplasmic reticulum of some hepatocytes, particularly those located close to altered areas. This study demonstrates that experimental extrahepatic cholestasis in the rat induces periportal fibrosis and continuous deposition of collagen IV in the sinusoids. Several cell types participate in the formation of extracellular matrix components, particularly bile duct cells and Ito cells, with a possible involvement of hepatocytes, thus suggesting that cholestasis provokes changes in the pattern of matrix protein production in liver cells.

Reversibility of hepatic fibrosis in experimentally induced cholestasis in rat.

The reversibility of hepatic fibrosis was investigated in an experimental model of extrahepatic cholestasis in the rat after common bile duct ligation for 2 weeks, followed by bilioduodenal anastomosis for 3 weeks. Bile duct ligation resulted in a transitory marked elevation in the serum concentration of 5'-nucleotidase, alkaline phosphatase, and bilirubin during the first 3 days. Then these levels decreased to threefold, twofold, and 100-fold the normal values, respectively, during the following 4 weeks. Histologic examination of the liver disclosed extensive bile duct proliferation and the formation of periportal fibrosis, with only slight inflammation and necrosis. The distribution of the major components of the hepatic extracellular matrix was analyzed 2 weeks after bile duct ligation, using the indirect immunoperoxidase method. Fibrous septa were found to be strongly stained for collagens I, pro-III, III and IV, fibronectin, and laminin. The most intense staining was found in enlarged periportal areas, collagen IV and laminin being particularly abundant around newly formed bile ducts. These changes paralleled high steady-state levels of alpha 1(I) and alpha 1(IV) collagen and B2 chain laminin mRNAs. Relief of the obstruction for 2 weeks resulted in a shift in the serum concentration of 5'-nucleotidase, alkaline phosphatase, and bilirubin toward normal values. A dramatic resorption of bile duct proliferations and periportal fibrosis were observed. Three weeks after bile duct repermeabilization, immunohistochemical study showed that the pattern of distribution of extracellular matrix components was almost normal, except for collagen IV, which remained abundant in the sinusoids when compared with the normal liver. In parallel, the steady-state B2-chain laminin mRNA level became lower than in cholestatic livers, whereas alpha 1(I) and alpha 1(IV) mRNAs were almost undetectable. These results show that hepatic fibrosis induced by experimental extrahepatic cholestasis in rat disappears in less than 3 weeks after relief of bile duct obstruction, suggesting that an active degradation of matrix protein occurs, except for collagen IV in the sinusoid.

Primary culture of adult rat hepatocytes after 48-hour preservation of the liver with cold UW solution.

Rat livers were perfused and stored for 48 hr in cold University of Wisconsin solution before dissociation by the two-step collagenase method. At that time, glycogen content was significantly reduced, but no obvious changes in albumin, beta-actin and aldolase B mRNAs and in glutathione levels were observed. Enzymatic perfusion yielded 280 +/- 30 x 10(6) viable hepatocytes vs. 520 +/- 40 x 10(6) viable hepatocytes from unstored organs. Cell viability determined by trypan blue exclusion was 74% and 90%, respectively. Hepatocytes from University of Wisconsin-preserved livers had a 29% reduced adenosine triphosphate content, but glutathione levels did not significantly differ from those found in unstored cells. When put into culture, hepatocytes formed typical monolayers of granular epithelial cells and did not exhibit alteration of their fine structure when compared with cells from unstored organs. After 24 and 48 hr, they showed variations in cytochrome P-450 content and ethoxyresorufin O-deethylase activity similar to those observed with unstored cells. By contrast, overall protein synthesis and albumin secretion rate were 40% and 30% lower, respectively. Hepatocytes from University of Wisconsin-preserved organs could be cryopreserved and further cultured as unstored cells. The University of Wisconsin solution was also used to preserve isolated hepatocytes. Viability of freshly isolated hepatocytes was decreased by only 10% after 48 hr of hypothermic liver storage when assayed by intracellular lactate dehydrogenase content. However, after 4 hr of storage, in contrast with hepatocytes preserved in L15 Leibovitz medium, the cells attached poorly to plastic and exhibited morphological alterations.(ABSTRACT TRUNCATED AT 250 WORDS)