George Michalopoulos

Scatter factor and hepatocyte growth factor are indistinguishable ligands for the MET receptor.

Scatter Factor (SF) is a fibroblast‐secreted protein which promotes motility and matrix invasion of epithelial cells. Hepatocyte Growth Factor (HGF) is a powerful mitogen for hepatocytes and other epithelial tissues. SF and HGF, purified according to their respective biological activities, were interchangeable and equally effective in assays for cell growth, motility and invasion. Both bound with identical affinities to the same sites in target cells. The receptor for SF and HGF was identified as the product of the MET oncogene by: (i) ligand binding and coprecipitation in immunocomplexes; (ii) chemical crosslinking to the Met beta subunit; (iii) transfer of binding activity in insect cells by a baculovirus carrying the MET cDNA; (iv) ligand‐induced tyrosine phosphorylation of the Met beta subunit. SF and HGF cDNA clones from human fibroblasts, placenta and liver had virtually identical sequences. We conclude that the same molecule (SF/HGF) acts as a growth or motility factor through a single receptor in different target cells.

Primary cultures of hepatocytes on human fibroblasts.

SummaryParenchymal hepatocytes isolated from adult rats were cultured on three types of collagen-containing substrata: collagen-coated plates, collagen membranes and confluent diploid human fibroblasts. Hepatocytes on the latter two substrata maintained characteristic morphology for at least 10 days in culture, whereas degenerative changes (cell death and formation of multinucleated hepatocytes) and growth of nonparenchymal elements were seen after 5 days in cultures on collagen-coated plates. Parallel findings were seen on basal and induced levels of cytochrome P-450 and NADPH-cytochrome C reductase. The basal levels of cytochrome P-450 were not measurable after day 3 in hepatocytes cultured on collagen-coated plates, whereas measurable levels were maintained in the hepatocytes cultured on the other two substrata. Addition of phenobarbital or methylcholanthrene at day 5 in culture caused an increase in cytochromes P-450 and P-448, respectively, only in hepatocytes cultured on collagen membranes and confluent fibroblasts. Analogous results were seen for the enzyme NADPH-cytochrome C reductase. The similarities in performance between hepatocytes on collagen membranes and on human fibroblasts show that a continuous collagen-containing substratum is important for optimal performance of hepatocytes in primary culture. The possible importance of cultures of hepatocytes on human fibroblasts for carcinogenesis studies is discussed.

Identification and partial characterization of receptor binding sites for HGF on rat hepatocytes

Hepatocyte Growth Factor (HGF) (also known as Hepatopoietin A [HPTA] (1-9) is a heterodimeric heparin-binding polypeptide mitogen for hepatocytes distinct from other well-known growth factors. In this study, biologically active radioiodinated HGF was used to identify binding sites on intact hepatocytes in culture. The results show the presence of relatively low affinity binding sites due to the presence of heparin or heparin-like molecules and high affinity specific receptor binding sites on the cell surface of intact hepatocytes. Scatchard analysis of binding data indicates an apparent dissociation constant (Kd) of 3.5 nM with 120,000 sites per hepatocyte for the cell-surface receptor. Analysis of affinity cross-linked 125I-HGF-receptor complex by SDS-PAGE under non-reducing conditions reveals the presence of a distinct band with apparent Mr of 230,000. These data show that HGF exerts its biological effect on hepatocytes (stimulation of DNA synthesis) through a specific and unique cell-surface receptor.

Proline is required for the stimulation of DNA synthesis in hepatocyte cultures by EGF

SummaryEpidermal growth factor (EGF) has been shown to stimulate DNA synthesis in rat parenchymal hepatocytes both in vivo and in vitro (4,9). We report here that this response in vitro is dependent on the amino acids present in the media. Of all the amino acids, proline has the strongest effect. The response to EGF is absent without proline and none of the other amino acids can substitute for it. Added proline (1 mM) to the media caused the labeling index to increase from 11% to 55% in the presence of 50 ng/ml EGF and insulin. In the presence of proline, small additional increases of the EGF effect on DNA synthesis were stimulated by phenylalanine and tyrosine.

Cryopreservation of isolated rat hepatocytes

SummaryIsolated parenchymal hepatocytes from adult rats were frozen in media containing 10% glycerol, 10% dimethylsulfoxide (DMSO), or 20% DMSO. Three microsome-associated functions were compared in nonfrozen cells and cells frozen in each of the above cryoprotectant solutions. Freezing in DMSO maintains cytochromes P-450 and b5 and NADPH-cytochrome C reductase at levels nearer to control values than does freezing in glycerol. Cells frozen and subsequently thawed and cultured for 24 h lose a greater amount of cytochrome P-450 than do nonfrozen cultured cells. The levels of cytochrome b5 and reductase in frozen-thawed cells remain close to control values. Cell viability (trypan blue dye exclusion and percentage of attached cells) after freezing is maintained better using DMSO as a cryoprotectant. Dimethylsulfoxide protects the hepatocytes from freeze-induced damage to the extent that many viable cells attach to collagen-coated petri dishes, survive for at least 24 h, and still maintain significant levels of enzymes of importance to drug and carcinogen metabolism.

Binding of α2-macroglobulin to hepatocytes: Mechanism of in vivo clearance

The binding of 125I-labeled human α2-macroglobulin-methylamine to adult rat hepatocytes in primary culture was studied at 4°C. Cells which had been in culture for 4 hours exhibited steady state ligand binding after 1 hour, a receptor number of 22,400 receptors per cell, and a dissociation constant of 0.6 nM. Adult rat hepatocytes exhibited a significant decrease in receptor number with increased time in primary culture with less than 10% of the initial number of receptors remaining after 2 days (p <0.01). In autopsy studies of mice injected intravenously with 125I-labeled α2-macroglobulin-methylamine, greater than 90% of the cleared ligand was found in the liver. Autoradiography of the liver demonstrated that 80% of the ligand was cleared by hepatocytes. It is concluded that the hepatocytes are the primary pathway for clearance from the circulation of receptor recognized α2-macroglobulin.

Assessment of unscheduled and replicative DNA synthesis in hepatocytes treated in vivo and in vitro with unleaded gasoline or 2,2,4-trimethylpentane

In a recent chronic inhalation exposure study, unleaded gasoline (UG) produced kidney tumors in male rats and liver tumors in female mice, but did not increase the incidence of liver tumors in male mice or rats of either sex. To examine the possible basis for this pattern of hepatocarcinogenesis, unscheduled DNA synthesis (UDS) as an indicator of genotoxic activity and replicative DNA synthesis (RDS) as an indicator of cell proliferation were measured in rat and mouse hepatocytes following in vivo and in vitro exposures to UG and 2,2,4-trimethylpentane (TMP), a nephrotoxic component of UG. Primary hepatocyte cultures, prepared from cells isolated from Fischer-344 rats, B6C3F1 mice, or human surgical material, were incubated with [3H]thymidine and the test agent. UDS was measured by quantitative autoradiography as net nuclear grains (NG). By similar methods, UDS and RDS (S-phase cells) were measured in hepatocytes isolated from rats and mice treated by gavage with TMP (500 mg/kg) or UG (100 to 5,000 mg/kg). A dose-related increase in UDS activity was observed in rat hepatocytes treated in vitro with 0.05 to 0.10% (v/v) UG. These doses were, however, toxic in both mouse and human hepatocyte cultures. Weak UDS activity was observed in hepatocytes isolated from male and female mice treated 12 hr previously with UG. No UDS was induced in rat hepatocytes treated in vivo or in vitro with TMP. Twenty- and fourfold increases in the percentage of cells in S-phase were observed 24 hr after treatment with TMP in male and female mice, respectively, as compared to a fivefold increase in male rats. UG increased the percentage of S-phase cells in male mice by ninefold but failed to induce RDS in females. Thus, there appears to be genotoxic compounds in UG that can be detected in cultured hepatocytes and in the livers of exposed mice. The lack of UDS activity in rat liver was consistent with the reported lack of liver tumors in chronically exposed rats. However, neither the UDS nor the RDS responses in mice exposed by gavage correlated to the sex-specific pattern of liver tumors observed in the 2-year bioassay.

Effect of phenobarbital and 3-methylcholanthrene on aldehyde dehydrogenase activity in cultures of HepG2 cells and normal human hepatocytes

Aldehyde dehydrogenase (ALDH) activity was measured in primary cultures of normal human hepatocytes and of the human hepatoma cell line HepG2 after application of phenobarbital (PB) or 3-methylcholanthrene (MC) for 5 days. Treatment with PB alone resulted in a significant increase in both protein and DNA content at concentrations of 2 and 3 mM. Treatment with MC at a concentration as low as 5 microM led to a significant loss of cells when it lasted more than 5 days. Concentrations of 3-5 mM of PB in the media of HepG2 cell cultures caused a 2-fold enhancement of the activity of ALDH, as measured with NAD and propionaldehyde (P/NAD) or benzaldehyde (B/NAD). On the other hand, MC-treated cultures (5 microM) showed a 20-fold increase in enzyme activity measured with NADP and benzaldehyde (B/NADP), and a 2-fold increase in B/NAD activity. Combined treatment with both PB and MC led to an effect of dynamic synergism as far as B/NAD and B/NADP activities are concerned, suggesting a metabolite of MC as the mediator for the increase of ALDH activity. Normal human hepatocytes in primary cultures responded to PB (3 mM) in a similar way as HepG2 cells as far as DNA and protein content and ALDH activity are concerned. It is concluded, that HepG2 hepatoma cells behave similar to the normal hepatocytes in terms of ALDH regulation and can be used for studies on the activity of ALDH as modified by added xenobiotics.

Differential effect of growth factors on growth stimulation and phenotypic stability of glutamine-synthetase-positive and -negative hepatocytes in primary culture

In rat liver parenchyma, two subpopulations of hepatocytes can be distinguished by the absence or presence of the marker enzyme, glutamine synthetase (GS). Hepatocytes in the perivenous zone immediately adjacent to the hepatic venules in the liver acinus are positive for GS. Using autoradiography in combination with immunocytochemistry, the response of these two hepatocyte populations (GS positive and GS negative) to a variety of growth factors (defined compounds or complex stimuli) was investigated in vitro. Irrespective of the individual growth-promoting activity (which varied considerably), all stimuli led to much higher labeling indices in GS-negative cells as compared to GS-positive cells. In GS-negative cells, the strongest effect was exerted by serum obtained from partially hepatectomized rats (labeling index, 67%) and the conditioned media of JM1 and JM2 hepatoma cells (63%-82%), followed by a combination of insulin and either norepinephrine (46%) or epidermal growth factor (EGF; 42%). In contrast, serum had the weakest influence on GS-positive cells (0.3%), while the other potent stimuli enhanced the labeling index of these cells by between 6% and 15% within 48 h. The percentage of labeled nuclei was higher in mononucleated than in binucleated GS-positive hepatocytes. The time course of thymidine incorporation was also different for the two subpopulations. Under all growth-promoting conditions, the stimulation of GS-negative cells peaked between 72 and 96 h, while it increased continuously in GS-positive cells for at least 120 h, particularly in the case of serum. In proliferating cultures, both the absolute and the relative number of GS-positive hepatocytes decreased, while no such effect was found in various nonproliferating control cultures maintained at low and high cell density. Similar results were found for GS activity. In contrast, the hormonal induction of tyrosine aminotransferase (TAT) was not affected. It is suggested that these differences in the growth response of GS-positive and -negative cells contribute to the acinar gradient in hepatocyte proliferation that occurs during liver regeneration. Furthermore, the striking phenotypic instability of GS-positive cells that have undergone DNA synthesis and mitosis supports the hypothesis that cellular reprogramming depends on passage through the cell cycle.

Establishment of two rat hepatoma cell strains produced by a carcinogen initiation, phenobarbital promotion protocol

SummaryTwo Fischer 344 rat hepatoma cell strains, JM1 and JM2, have been isolated from a primary hepatocellular carcinoma. Primary tumor formation was induced in a two-thirds partially hepatectomized rat by a single low dose (70 mg/kg of diethylnitrosamine followed by chronic phenobarbital administration (0.1 g/100 ml drinking water). The primary tumors were passed three times by subcutaneous implantation of tumor fragments into the inguinal region of syngeneic recipients. The fourth pass way by injection of tumor cells directly into the livers of recipient rats. Several weeks later, the tumor-containing rat livers were subjected to collagenase perfusion. Two cell lines emerged from tissue culture of the cells isolated by perfusion. Each cell line was cloned by serial dilution. Cells JM1 and JM2 were tumorigenic when injected into syngeneic rats. The tumors, which arose from injected cell strains, exhibited several characteristics of hepatocellular carcinoma. Morphology was examined by light and electron microscopy. Histochemical studies of JM1 and JM2 cells grown in vitro and in vivo were done. The levels of tyrosine aminotransferase and three microsomal enzymes of importance to drug and carcinogen metabolism were investigated. To our knowledge, this is the first report of cell strains derived from an initiation promotion protocol in rats.