Vimentin Filaments Follow the Preexisting Cytokeratin Network during Epithelial–Mesenchymal Transition of Cultured Neonatal Rat Hepatocytes

Changes in cell cytoskeleton are known to play an important role in differentiation and embryogenesis and also in carcinogenesis. Previous studies indicated that neonatal hepatocytes undergo an epithelial–mesenchymal transition when cultured in a serum-free medium for several days. Here we show by Western blotting of neonatal rat liver cells cultured for 3 days that vimentin and cytokeratin were expressed by these cells. Epidermal growth factor treatment induced high coexpression of vimentin and cytokeratin filaments in hepatocytes from neonatal livers, as detected by double immunofluorescence microscopy. Confocal scanning laser microscopy was used to determine the spatial and cell distribution of cytokeratin and vimentin intermediate filament networks. Vimentin-expressing hepatocytes were mainly located on the periphery of epithelial clusters and presented a migratory morphology, suggesting that vimentin expression was related to the loss of cell–cell contact. Short vimentin filaments were mainly located at the cytoplasmic sites behind the extending lamella. Horizontal and vertical dual imaging of double immunofluorescence with anti-vimentin and anti-cytokeratin antibodies indicated that both filaments colocalize strongly. Three-dimensional reconstruction of serial optical sections revealed that newly synthesized vimentin distributed following the preexisting cytokeratin network and, when present, both filament scaffolds codistributed inside cultured hepatocytes. Immunoelectron microscopy performed in whole-mount-extracted cultured cells revealed that both filaments are closely interrelated but independent. However, a high degree of immunogold colocalization was found in the knots of the filament network. Further experiments with colce- mide and cytochalasin treatment indicated that vimentin filament distribution, but not cytokeratin, was dependent on an intact microtubule network. These results are consistent with a mechanism of vimentin assembly, whereby growth of vimentin intermediate filaments is dependent on microtubules in topographically restricted cytoplasmic sites, in close relation to the cytokeratin cytoskeleton and to changes in cell–cell contact and cell shape.     

Perichromatin fibrils and chromatin ultrastructural pattern

The relationship between the synthesis of acidic nuclear proteins, phosphoproteins, RNA and chromatin ultrastructural pattern was studied in regenerating rat hepatocytes after partial hepatectomy. α-Amanitin induced, as early as 30 min after injection, a reduction of RNA synthesis to about 50% of the control level; the degree of inhibition had remained the same at 2 h after poisoning. No change was detected either in acidic nuclear protein synthesis or in phosphorylation for the whole time examined. The DNA-containing structures, demonstrated by the Gautier staining procedure, were in a dispersed pattern either in untreated regenerating hepatocytes or 30 min after α-amanitin administration to rats; but they did appear in a condensed form 1 h and more especially 2 h after toxin injection. In untreated regenerating hepatocytes, the regressive EDTA staining method for RNP revealed a large quantity of perichromatin fibrils which remained unchanged 30 min after α-amanitin treatment and were diminished at 1 h and strongly reduced 2 h thereafter.Cycloheximide treatment promptly reduced the synthesis of nuclear acidic proteins while leaving unchanged the synthesis of RNA; the quantity of perichromatin fibrils and the loosened appearance of DNA-containing structures were the same as in the control rat nuclei.Our results showed that the ultrastructural pattern of chromatin was not directly related either to the synthesis of RNA or to acidic nuclear proteins or to the phosphorylation of phosphoproteins; on the contrary, a strict relationship with the quantity of perichromatin fibrils was demonstrated. The possible interaction of perichromatin fibrils with other chromatin components was discussed as a possible regulatory mechanism of chromatin pattern.     

Sister subchromatid exchanged segments and chromosome structure

The relationship between the synthesis of acidic nuclear proteins, phosphoproteins, RNA and chromatin ultrastructural pattern was studied in regenerating rat hepatocytes after partial hepatectomy. α-Amanitin induced, as early as 30 min after injection, a reduction of RNA synthesis to about 50% of the control level; the degree of inhibition had remained the same at 2 h after poisoning. No change was detected either in acidic nuclear protein synthesis or in phosphorylation for the whole time examined. The DNA-containing structures, demonstrated by the Gautier staining procedure, were in a dispersed pattern either in untreated regenerating hepatocytes or 30 min after α-amanitin administration to rats; but they did appear in a condensed form 1 h and more especially 2 h after toxin injection. In untreated regenerating hepatocytes, the regressive EDTA staining method for RNP revealed a large quantity of perichromatin fibrils which remained unchanged 30 min after α-amanitin treatment and were diminished at 1 h and strongly reduced 2 h thereafter.Cycloheximide treatment promptly reduced the synthesis of nuclear acidic proteins while leaving unchanged the synthesis of RNA; the quantity of perichromatin fibrils and the loosened appearance of DNA-containing structures were the same as in the control rat nuclei.Our results showed that the ultrastructural pattern of chromatin was not directly related either to the synthesis of RNA or to acidic nuclear proteins or to the phosphorylation of phosphoproteins; on the contrary, a strict relationship with the quantity of perichromatin fibrils was demonstrated. The possible interaction of perichromatin fibrils with other chromatin components was discussed as a possible regulatory mechanism of chromatin pattern.     

Effect of Collagen Gel Configuration on the Cytoskeleton in Cultured Rat Hepatocytes

The cytoskeleton is important in the maintenance of cellular morphology and differentiated function in a number of cell types, including hepatocytes. In this study, adult rat hepatocytes sandwiched between two layers of collagen gel were compared to cells cultured on a single collagen gel for differences in the organization and expression of the cytoskeletal proteins actin and tubulin. Hepatocytes cultured between two layers of hydrated rat tail tendon collagen (sandwich gel) morphologically resembled cells in intact liver for several weeks. Actin filaments (F-actin) in these hepatocytes were concentrated under the plasma membrane in regions of cell-cell contact. In contrast, hepatocytes cultured on a single collagen gel were flattened and motile and had F-actin containing stress fibers. This was accompanied by a severalfold increase in actin mRNA. Microtubules formed an interwoven network in hepatocytes cultured in a sandwich gel, but in single gel cultures they formed long parallel arrays extending out to the cell periphery. Tubulin mRNA was severalfold greater in hepatocytes cultured on a single gel. Fibronectin and laminin staining were greater in single gel cultures, and these proteins were concentrated in fibrils radiating from the cell periphery. Overlaying a second collagen gel onto hepatocytes that had been cultured on a single gel (double gel rescue) reversed cell spreading and reduced stress fibers. Double gel rescue also resulted in a decrease in actin and tubulin mRNA to levels present in sandwich gel cultures and freshly isolated hepatocytes. These results show that the configuration of the external matrix has a dynamic effect on cytoskeletal proteins in cultured rat hepatocytes.     

Phorbol esters, bombesin and insulin elicit differential responses on the 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase system in primary cultures of foetal and adult rat hepatocytes.

The effects of 4 beta-phorbol 12-myristate 13-acetate (PMA), bombesin and insulin on 6-phosphofructo-2-kinase (PFK-2) activity, on fructose 2,6-bisphosphate concentration and on the phosphorylation state of PFK-2 were investigated in primary cultures of hepatocytes from foetal and adult rats. Bombesin stimulated PFK-2 activity and increased hexose phosphate (glucose 6-phosphate and fructose 6-phosphate) and fructose 2,6-bisphosphate content in hepatocytes both in the foetal and adult state. However, PMA-treated foetal cells exhibited a marked stimulation in fructose 2,6-bisphosphate concentration and in PFK-2 activity as well as in the content of hexose phosphates, while no response was found in the case of adult hepatocytes. Moreover, the effect of PMA on foetal hepatocytes was suppressed when cells were incubated with cycloheximide, but not when this effect was elicited by bombesin or insulin. These results, and those obtained on the phosphorylation state of PFK-2, suggest that there are different pathways that modulate fructose 2,6-bisphosphate content and, therefore, the control mechanisms of glycolysis and gluconeogenesis at this regulatory step, both in adult and foetal rat liver.     

Alpha-1 adrenergic receptor number and receptor density in isolated hepatocytes from foetal, juvenile and adult rats.

Alpha-1 adrenergic receptor number was defined by [3H]-prazosin binding in crude membrane preparations of hepatocytes and in intact hepatocytes isolated from foetal (day 22 of gestation), juvenile (12 days old), adult female and adult male (90-150 days old) rats and compared with the alpha-1 adrenergic response (measured by epinephrine stimulated glucose liberation in presence of the beta-antagonist propranolol). The alpha-1 receptor number (expressed as fmol bound [3H]-prazosin/mg membrane protein or as receptor number/cell) increases in an age-dependent fashion reaching the highest values in hepatocytes of adult female and male rats. Statistically significant differences could be found between foetal, juvenile and adult rat hepatocytes. No differences in [3H]-prazosin binding were observed between hepatocytes of adult female and adult male rats. The receptor density (expressed as receptor number/microns 2 cell surface), however, was found to be equal in juvenile and adult rats. There are no differences of alpha-1 adrenergic response in juvenile, adult female and adult male rat hepatocytes, whereas the values in foetal hepatocytes were significantly lower. So the biological response is closely correlated with the receptor density and not with the receptor number per cell.     

Spermidine level and protein synthesis are coregulated in nonproliferating hepatocytes

The relationship between polyamines and the rate of protein synthesis was investigated in non-proliferating cells: primary cultures of adult rat hepatocytes maintained in serum-free media, and treated with dexamethasone or dexamethasone + insulin. During the second day of culture, polyamine biosynthesis became induced along with the rate of protein synthesis. While the activity of ornithine decarboxylase and the intracellular concentration of putrescine increased only transiently and that of spermine declined, the rise of the protein synthetic rate was paralleled by that of the intracellular spermidine concentration. The polyamine analogue diamino-propanol specifically decreased spermidine content and the protein synthetic rate. The intracellular concentration of spermidine was found subject to tight homeostatic regulation, e.g. not being altered by the addition of up to 1 mM of this polyamine to the culture medium. In contrast, addition of putrescine or spermine led to an increase in their respective intracellular concentrations. These findings indicate that spermidine specifically of the polyamines is involved in protein synthesis in the intact hepatocyte. Moreover, spermidine may mediate part of the trophic action of dexamethasone and insulin upon cultured hepatocytes.     

Synergistic stimulatory effect of glucocorticoid,EGF and insulin on the synthesis of ribosomal RNA and phosphorylation of nucleolin in primary cultured rat hepatocytes

Effects of dexamethasone, EGF and insulin on the synthesis of rRNA and phosphorylation of nucleolin in primary cultures of adult rat hepatocytes were studied. Hepatocytes were incubated for 8 h with EGF (20 ng/ml) plus insulin (0.1 μM) and/or for 20 h with dexamethasone (1 μM) before the end of incubation. The incorporation of [³H]uridine into acid-insoluble materials and the nuclear activity of RNA polymerase I were stimulated approx. 2-fold with EGF plus insulin and these were further enhanced 2–3-times by dexamethasone, although dexamethasone alone exerted no stimulation. When hepatocytes were incubated with [³²P]orthophosphate, similar enhancement by these hormones was also observed in the phosphorylation of a nucleolar protein, nucleolin, which was detected by immunoprecipitation with anti-nucleolin antibodies. The amount of nucleolin was slightly increased by EGF plus insulin in the presence of dexamethasone, but scarcely changed by treatment with EGF plus insulin or dexamethasone alone. Cycloheximide inhibited RNA synthesis to a greater or lesser degree in the case of all hepatocytes which were cultured with or without these hormonal treatments. These results indicate that the in vivo effect of glucocorticoid on rRNA synthesis and nucleolin phosphorylation in liver is primarily a direct action on parenchymal cells and requires other growth factors such as EGF and insulin.     

Differences of expression of cytoskeletal proteins in cultured rat hepatocytes and hepatoma cells

Cytoskeletal elements, enriched in intermediate-sized filaments and insoluble in buffers of high salt concentrations and Triton X-100, were isolated from various cultures of rat hepatocytes and hepatoma cells, and their proteins were studied by one- and two-dimensional gel electrophoresis and immunofluorescence microscopy. The cells examined included several permanent cell lines (MH₁C₁, HTC, hepatoma 72/22, clone 12 from Gunn rat hepatocytes, and cell clones from normal rat hepatocytes), as well as freshly dissociated hepatocytes that were cultured and allowed to attach to substratum for increasing periods of time, beginning at 24 h after removal of the liver from the animal. Filaments containing vimentin, which were not found in hepatocytes grown in liver tissue, were detected in most of the cultured hepatocytes and hepatoma cells, except in MH₁C₁ cells, and were shown to be newly synthesized during the first days of primary culture. Maintenance of expression of filaments containing proteins immunologically related to epidermal prekeratin (‘cytokeratins’) was observed in all cells examined but HTC cells. Detailed comparison of the cytokeratin polypeptides present in various hepatocyte and hepatoma cell cultures showed that, in some of the cultured epithelial liver cells, cytokeratins are expressed which are identical with, or similar to, those of normal hepatocytes grown in the liver. On the other hand, differences in cytokeratin polypeptides were also found among different hepatocyte-derived cell cultures. Changes of expression of cytoskeletal proteins were found to occur even in cloned cell populations, and cells positive for certain cytokeratins could be seen next to other cells that were negative.The results demonstrate that profound changes of cytoskeletal composition, especially concerning intermediate filament protein patterns, can occur during culturing in vitro. Moreover, we show that different intermediate filament proteins can be expressed in different hepatocyte-derived cell cultures and that changes of cytoskeletal composition can occur in a given cell population, without obvious effects on cell growth rate and cell morphology. During culturing of hepatocytes and hepatoma cells, there seems to be a general tendency to induce the production of vimentin filaments as well as to maintain the production of cytokeratins similar to the hepatocyte-specific cytokeratins in liver tissue. However, the demonstrated exceptions speak against a role of these filament proteins as prerequisites for the growth of an epithelial cell in vitro. Rather, the presence of filaments containing certain cytokeratins and of desmosomes in epithelial cells growing in vitro seems to reflect the synthesis of specific differentiation markers which may be lost, independently, in some cells during culturing.     

Induction of DNA synthesis in adult rat hepatocytes cultured in a serum-free medium

Isolated hepatocytes from adult rats were cultured for 3 days in a serum-free synthetic medium. Supplementation with fibrinogen digests, glucagon and insulin remarkably increased DNA synthesis in hepatocytes. DNA synthesis began to increase at 35 h and reached a maximum at 41 to 54 h after plating. At this time, cells were morphologically identifiable as hepatocytes. Glucagon could be replaced by dibutyryl cyclic AMP or isobutyl-methyl-xanthine. Addition of amiloride (a Na⁺ influx inhibitor) during the initial 22 h completely inhibited DNA synthesis. These results suggest that influx of Na⁺ during early prereplicative period and increase in cellular cyclic AMP levels during late prereplicative period are necessary for the induction of DNA synthesis in hepatocytes.     

Differences in the accessibility of the beta-adrenergic receptor in isolated hepatocytes from foetal and adult rats.

Beta-receptor number (measured by [3H]-CGP 12 177 binding) and beta-adrenergic response (measured by isoproterenol stimulated glucose liberation and isoproterenol stimulated adenylate cyclase activity) were compared in hepatocytes isolated from foetal (on day 22 of gestation), adult female and adult male rats. Beta-receptor numbers in crude membrane preparations of hepatocytes from adult female and adult male rats were found to be nearly equal (15.5 and 15.1 fmol/mg), but in crude membrane preparations of foetal rats beta-adrenergic receptor number was significantly higher (34.3 fmol/mg). Determination of number of beta-adrenergic surface receptors of intact hepatocytes showed relative high values in foetal rats (about 22,000/cell) and adult female rats (about 20,000/cell), but in male rats the number was less (about 6500/cell). Glucose liberation was stimulated by isoproterenol to the same extent in hepatocytes isolated from adult female and foetal rats (about 150% over basal), whereas no effect was found in hepatocytes isolated from adult male rats. Dose-response curves showed that in foetal rat hepatocytes glucose release was already increased by 10(-8) M isoproterenol, whereas in female rat hepatocytes at least 10(-6) M isoproterenol was required. Adenylate cyclase was stimulated by isoproterenol in lysates of hepatocytes from adult female rats by about 180% and from foetal rats by about 250%. No effects were observed using lysates of hepatocytes from adult male rats. We interpret the observed differences of beta-adrenergic responses between adult female and male rats as being primarily caused by different accessibility of the beta-receptor to the beta-agonist isoproterenol in intact hepatocytes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential proliferative response of cultured fetal and regenerating hepatocytes to growth factors and hormones

Upon epidermal growth factor (EGF) stimulation, fetal (20 days of gestation) and regenerating (44-48 h after partial hepatectomy) rat hepatocytes, isolated and cultured under identical conditions, increased DNA synthesis and entered into S-phase and mitosis, measured as [3H]thymidine incorporation and DNA content per nucleus in a flow cytometer, respectively. Fetal hepatocytes consisted of a homogeneous population of diploid (2C) cells. Two different populations of cells were present in regenerating liver, diploid (2C) and tetraploid (4C) cells, that responded to EGF. Glucagon or norepinephrine did not affect EGF stimulation of DNA synthesis in fetal liver cells, but they potentiated EGF response in regenerating hepatocyte cultures. Glucocorticoid hormones (dexamethasone) inhibited DNA synthesis in fetal hepatocyte cultures, an effect potentiated by the presence of glucagon or norepinephrine. In contrast, in regenerating hepatocytes, dexamethasone increased EGF-induced proliferation. EGF-dependent DNA synthesis was inhibited by TGF-beta in both fetal and regenerating cultured hepatocytes. TGF-beta action was partially suppressed by norepinephrine in regenerating hepatocytes, but was without effect in fetal hepatocyte cultures, whereas a synergistic action between TGF-beta and dexamethasone inhibiting growth in fetal but not in regenerating hepatocytes was found. Taken together, these results may suggest that there are significant differences between fetal and regenerating hepatocyte growth in their response to various hormones.     

Retroviral infection and expression of cationic amino acid transporters in rodent hepatocytes.

The susceptibility of rodent hepatocytes to infection by mouse type C retroviruses was examined in vivo and in vitro and compared with the expression of two membrane proteins that function as transporters for the cationic amino acids CAT-1 and CAT-2. CAT-1 expression in rodents determines susceptibility to ecotropic retrovirus infection by serving as the virus receptor. Recently, it has been suggested that CAT-2 may be a receptor for amphotropic murine leukemia virus. In the present study, CAT-1 expression was observed in Hepa1, a cell line derived from a murine hepatoma, and in rat hepatocytes propagated on collagen monolayers in vitro but not in intact or regenerating rat liver in vivo. The expression of CAT-1 correlated with susceptibility to infection by an ecotropic retrovirus encoding beta-galactosidase. CAT-2 expression was observed in hepatocytes in vitro and in vivo, consistent with reports of infection of regenerating and cultured hepatocytes by amphotropic retroviruses. However, introduction of murine CAT-2 into nonpermissive Chinese hamster cells was not sufficient to confer susceptibility to amphotropic retrovirus infection, using a protocol that could easily demonstrate CAT-1-dependent infection by an ecotropic virus. Our data establish CAT-1 as a major determinant of ecotropic retrovirus infection in rodent hepatocytes and suggest that CAT-2 is not a receptor for viruses in the amphotropic subgroup.     

Lipid synthesis in permeabilized cultured rat hepatocytes

Hepatic lipid synthesis was verified and studied in lysolecithin-permeabilized cultured rat hepatocytes and compared to that of intact liver cells. Triacylglycerol synthesis in permeabilized cells incubated in the presence of glycerol 3-phosphate and long chain fatty acids approached that of intact hepatocytes. Similarly, phosphatidylcholine synthesis in permeable cells incubated in the presence of exogenous CDP-choline was similar to that of intact hepatocytes and at the expense of microsomal neutral lipid synthesis. Phosphatidic acid accumulation in lysolecithin-permeabilized liver cells was remarkably increased as compared to that of intact cells, and its synthesis was mostly accounted for by the activity of mitochondrial glycerol-3-phosphate acyltransferase. Mitochondrial-generated phosphatidate was found to migrate to the endoplasmic reticulum, thus establishing a novel lipid esterification pathway which begins in mitochondrial glycerol 3-phosphate acylation and results in microsomal triacylglycerol and phospholipid synthesis. The free access of permeabilized liver cells to substrates and modulators of lipid synthesis, while maintaining an overall synthetic pattern similar to that of intact hepatocytes, makes them a system of choice for studying hepatic lipid synthesis in general and the microsomal/mitochondrial distribution of fluxes in particular.     

Comparative analysis of proteins labelled with [35S]methionine in the liver in vivo and in freshly isolated and short-term-cultured hepatocytes in vitro

[³⁵S]Methionine-labelled liver proteins, analysed by one- or two-dimensional gel electrophoresis showed a strikingly similar pattern whether synthesized in vivo or by freshly isolated hepatocytes. In contrast, major qualitative and quantitative differences were observed with the patterns of labelled proteins found in cultured hepatocytes. The changes detectable very early (within 1 h) in culture affected preferentially the synthesis of cytoskeleton proteins (cytokeratins, actin, myosin), which was dramatically increased. Physical factors like cell attachment appear to be responsible for these changes which, however, occurred more rapidly in the presence of serum. Freshly isolated hepatocytes and short-term-cultured cells responded similarly to insulin and glucagon, which respectively increased and decreased the labelling of the whole set of cellular and exported proteins. Glucocorticoids caused either an increase or a decrease in the labelling of several proteins, but the effects were detectable only under chronic exposure of cultured hepatocytes. Based on these results, freshly isolated hepatocytes appear more representative of the liver in vivo than cultured hepatocytes, and therefore seem more suitable for short-term studies. However, cultured hepatocytes can be used for long-term studies since they maintain many specific liver functions and remain hormonally sensitive.     

The Ag-NOR proteins and transcription and duplication of ribosomal genes in mammalian cell nucleoli

The relationship between the Ag-NOR (silver-stained Nucleolar Organizer Region) proteins and the functional-structural organization of the nucleolar ribosomal chromatin was studied in regenerating and cortisol-stimulated rat hepatocytes. Statistical analysis of Ag-NOR proteins, carried out with an automated image analyzer, indicated that in regenerating rat hepatocytes the quantity of Ag-NOR proteins mainly increased between the 4th and 12th h of regeneration, reaching a level twice that of resting hepatocytes. Also the synthesis of pre-ribosomal RNA (pre-rRNA) was stimulated after the 4th h of regeneration. Cycloheximide administered to rats at a dose of 0.025 mg/100 g body weight (bw) prevented any increase in Ag-NOR proteins but did not hinder the stimulation of pre-rRNA synthesis. In 8 h cortisol-stimulated hepatocytes no significant change in amount of Ag-NOR protein was observed whereas pre-rRNA synthesis was highly increased as in 12 h regenerating hepatocytes. These results indicated that in rat hepatocytes Ag-NOR proteins and stimulation of pre-rRNA synthesis are not related. The relationship between the Ag-NOR proteins and the distribution of the completely extended intranucleolar ribosomal chromatin was also studied in regenerating rat hepatocytes. At 12 h after partial hepatectomy an increased amount of completely extended ribosomal chromatin was observed, contemporaneously with an increased quantity of Ag-NOR proteins. These ribosomal chromatin changes preceded the beginning of DNA synthesis and were prevented by cycloheximide-induced inhibition of protein synthesis.     

Stimulation of hepatocyte DNA synthesis by neurotensin

Epidermal growth factor and transforming growth factor alpha stimulated DNA synthesis in primary cultures of adult rat hepatocytes. Neurotensin amplified epidermal growth factor-stimulated or transforming growth factor alpha-stimulated DNA synthesis by three- to eightfold. Neurotensin by itself did not stimulate DNA synthesis. Amplification of DNA synthesis by neurotensin was observed as low as 10^?10 M, and it was increased in a dose-dependent manner with maximal effects at 10^–8 M. These results were obtained when hepatocytes were cultured in Williams' medium E, but not in Leibovitz L-15 medium, suggesting that a minor component(s) in the medium is required for hepatocytes to fully respond to neurotensin. Neurotensin effect on DNA synthesis was observed not only in normal rat hepatocytes but also in partially hepatectomized rat hepatocytes, although its effect was stronger in normal hepatocytes. Amplified DNA synthesis was inhibited by transforming growth factor β. Secondary mitogens (co-mitogens) such as insulin, vasopressin, or angiotensin II interacted additively with low concentrations of epidermal growth factor as well as with neurotensin. Neurotensin-related peptides such as kinetensin or neuromedin-N, which was released from blood plasma by pepsin digestion, did not have this amplifying effect on DNA synthesis at any concentrations tested. Neurotensin mRNA was found in several organs including brain and intestine, but not liver. These results suggest that neurotensin can be regarded as a new secondary mitogen and that it may be involved in cell proliferation, including regenerating liver as a gastrointestinal hormone and/or a neurotransmitter. © 1994 Wiley-Liss, Inc.     

Immunohistochemical demonstration of tubulin and actin in rat hepatocytes in situ using a perfusion extraction-fixation procedure

There have been many studies on the localization by immunocytochemistry of cytoskeletal proteins in cells cultured in vitro. However, the distribution of cytoskeleton in cells in situ has yet to be elucidated. In the present study we developed an immunohistochemical method for visualizing tubulin and actin in rat hepatocytes in situ, using a perfusion extraction-fixation procedure, in which the liver was perfused through the portal vein with a nonionic detergent to make the plasma membranes permeable to soluble substances, followed by a fixative to preserve cytoskeletal structure. Using the immunogold and peroxidase-antiperoxidase (PAP) staining procedures, we found that in hepatocytes in situ, tubulin was localized in cytoplasmic filamentous networks and in spindle fibers, as in hepatocytes and other cells in vitro. On the other hand, the distribution of actin in hepatocytes in situ was considerably different from that in well-spread hepatocytes and other cells cultured in vitro. In hepatocytes in situ, actin did not form any stress fibers, but was distributed preferentially under the plasma membrane, especially around the bile canaliculi. The perfusion extraction-fixation procedure could be adapted to visualize cytoskeleton in other tissues.     

Triacylglycerol synthesis in cultured rat hepatocytes. The rate-limiting role of diacylglycerol acyltransferase

The limiting role of diacylglycerol acyltransferase with respect to triacylglycerol synthesis in cultured rat hepatocytes was evaluated by following the inhibition of the overall synthetic flux by 2-bromooctanoate acting as an inhibitor of the diacylglycerol acyltransferase step. The flux-control coefficient of diacylglycerol acyltransferase in intact cultured hepatocytes amounted to 0.76 in the presence of saturating glycerol and either palmitate or oleate as the fatty acyl substrates. The flux-control coefficient of diacylglycerol acyltransferase in lysolecithin-permeabilized cultured hepatocytes amounted to 0.80 and 0.99 in the presence of saturating glycerol 3-phosphate and either palmitate or oleate as the fatty acyl substrate, respectively. Hence, triacylglycerol synthesis in liver cells under the experimental conditions employed is rate-limited by the diacylglycerol acyltransferase.     

Changes in some chromatin and cytoplasmic enzymes of perinatal rat hepatocytes during culture

Summary Hepatocytes prepared from rats at various perinatal stages were cultured in selective medium that does not allow fibroblastic cell growth. Cell population remained homogeneous during the culture. Hepatocytes undergo divisions for a period, which varies according to the stage of development of the rat. Light and electron microscope observations showed the presence of numerous cytoplasmic organelles; moreover, hydrocortisone-induced structures similar to bile canaliculi. Chromatin protein kinase decreased rapidly during culture except in samples prepared from 17-day fetuses in which it remained unchanged for 2 days and decreased to a lesser extent afterwards. Chromatin nonhistone proteins were incubated with (γ-³²P) ATP and the phosphorylation pattern analyzed on polyacrylamide gels. Many radioactive peaks were observed in chromatin proteins from 17-day fetuses; they were much lower in proteins from 19-day fetuses. The phosphorylation pattern was analyzed in hepatocytes after 2 days of culture. Many radioactive peaks were observed with proteins from heapatocytes taken from 17-day fetuses; no radioactivity was observed in proteins from 19-day fetuses. This is in contrast with the absence of radioactive peaks in chromatin proteins from adult rat hepatocytes. In cytoplasm, aldolase and pyruvate kinase specific activities varied according to the age of the rat. They strongly decreased during culture except in hepatocytes from 15-and 17-day fetuses, in which they remained stable for at least 5 days. The stability of chromatin and cytoplasmic enzymes in hepatocytes from 17-day fetuses could result from their ability to be regulated by hormones that are secreted at this stage of development.