Comparative characteristics of cytosol glucocorticoid receptors from normal liver, the liver of tumor-bearing rats and hormone unresponsive Zajdela hepatoma]

Specific dexametasone (D) and cortisol (F) receptors have been found both in liver and Zajdela hepatoma. Rat liver cytosol receptors are characterized by the association constant (Kas) = 3,8 X 10(8) M-1 for D and 0,57 X 10(8) M-1 for F as well as by a number of binding sites (NBS)=4,9 X 10(-13) moles/mg protein and 4,06 X 10(-13) moles/mg protein, respectively. The receptors show stric specificity to glucocorticoids. Cytosol glucocorticoid-receptor complexes from liver and hepatoma sediment at 6-7S, when centrifuged in the buffer of a low ionic strength, and at 3-4S in the buffer of a high ionic strength (0,4 M KCl). The properties of cytosol receptors in the course of in vivo hepatoma growth were found to be gradually altering: Kas for D dropped whereas that for F increased; the NBS is decreased 3-4 fold as compared to normal liver cytosol--which may partially be accounted for by the unresponsiveness of the tumour to the hormones.     

Fractional composition of cytoplasmic RNP-particles in the cells of Zajdela ascitic hepatoma and the liver of a tumor-bearing animal]

The relative content of poly(A)-RNA in the cytoplasm was greater in the cells of Zajdela hepatoma and the liver of tumour-bearing rats than in the normal hepatocytes of rats. Besides, the tumour cells (and to a lesser extent the hepatocytes of the tumour-bearing animal) were characterized by the changes in the ratio of the polyribosomes and monoribosomes usual for normal hepatocytes (and correspondingly between the m-RNP-particles and the informosomes) in favour of the latter, this pointing to definite changes in their protein-synthesizing apparatus. As judged by some of the parameters, the cells of the tumour-bearing by some of the parameters, the cells of the tumour-bearing animal occupied an intermediate position between the normal and tumour cells.     

Immunochemical analysis of the membrane proteins of rat liver and Zajdela hepatoma mitochondria

The contents of mitochondrial inner membrane protein complexes were compared in normal liver and in Zajdela hepatoma mitochondria by the immunotransfer technique. Antibodies against core proteins 1 and 2, cytochrome c1, the iron-sulfur protein of Complex III, subunits I and II of cytochrome oxidase, and the alpha and beta subunits of the F1-ATPase were used. In addition, antibodies against a primary dehydrogenase, beta-hydroxybutyrate dehydrogenase, as well as the outer membrane pore protein were used. The results indicate that the components of the cytochrome chain and porin are greatly enriched in hepatoma mitochondria compared to normal rat liver mitochondria. This enrichment was also reflected in the rates of respiration in tumor mitochondria using a variety of substrates. Enrichment of porin may partially account for increased hexokinase binding to tumor mitochondria. In contrast to the respiratory chain components, the F1-ATPase and F0 (measured by DCCD binding) were not increased in tumor mitochondria. Thus, Zajdela hepatoma mitochondria components are nonstoichiometric, being enriched in oxidative capacity but relatively deficient in ATP synthesizing capacity. Finally, beta-hydroxybutyrate dehydrogenase, which is often decreased in hepatoma mitochondria, was shown here by immunological methods to be decreased by only 40%, whereas enzyme activity was less than 5% of that in normal rat liver.     

Zajdela hepatoma cells cultured in vitro

The goal of this work was to study cellular mechanisms of tumor progression and metastasizing. As a result of explantation of cells of rat Zajdela ascitic hepatoma, we obtained two transplantable cell cultures—monolayer (ZH-ad) and suspension (ZH-fl)—that differ in levels of cell differentiation and tumorigenicity. By using tumor-specific immune serum, we revealed tumor-associated antigens, synthesis of which is reduced or inhibited in ZH-ad cells, in outer membranes of the ZH-fl cells. Intraperitoneal injection into rat of 0.5–12 × 10⁶ ZH-fl cells leads to development of an ascitic tumor and death of 100% of animals, whereas, in the case of administration of ZH-ad cells, to achieve a tumorigenic effect, the minimal dose needs to be elevated to 20 × 10⁶ cells. Clonogenic analysis of the ZH-fl cells revealed three types of the formed clones—nonadhesive sphere colonies and two types of monolayer clones differing in proliferative potential, shape of colonies, and cell composition. Upon reaching a critical size, the spheres disintegrated, with separation of single cells and islands of different sizes, some of them being attached with monolayer formation. Three clonal cell lines were obtained: 1C as a result of expansion of a spherical clone and 4G and 10E from monolayer clones. We established that there is tumorigenicity of the 1C cell line, which, at a dose of 107 cells, led to the development of ascites and to the death of 50% of animals. The presented results indicate the existence in the ZH-fl cell population of tumor-initiating cells generating spherical clones—floating multicellular islets that, in culturing in the complete growth medium, are partly differentiated and are attached with monolayer formation.     

Proteolytic degradation of nuclear matrix proteins in rat liver and Zajdela ascites hepatoma

Long-term incubation of rat liver nuclei (particularly in 2M NaCl) led to a decrease in the yield of the nuclear matrix. However, the electrophoretic pattern of nuclear matrix proteins remained essentially unchanged. In Zajdela's ascites hepatoma, long-term incubation of the nuclei resulted in lamina proteolysis. The proteolysis was partly inhibited by phenylmethylsulfonyl fluoride in high concentrations.     

Morphologic and biochemical changes in the lymphoid and hematopoietic tissues of rats with Zajdela hepatoma

The growth of allogeneic ascites hepatoma is accompanied by involution of the thymus, leukemoid response and anemia. Tumor cells disseminate throughout the body appearing in many organs including the spleen, liver, bone marrow and lymph nodes. The activity of adenosine deaminase and the adenosine deaminase/purine nucleosidephosphorylase ratio decrease in the host thymus as well as in the cellular elements of the spleen. The above phenomena reflect the impairment of lymphocyte differentiation and presumably contribute to the decreased efficiency of the host immune response.     

Glucocorticoid-mediated degradation of DNA in thymocytes of rats with transplantable Zajdela ascites hepatoma

Tumour growth was shown to be associated with DNA breakdown in thymocytes of rats bearing Zajdela ascites hepatomas. The tumour action on the thymus is mediated through adrenal glands since bilateral adrenalectomy completely prevents DNA breakdown in thymocytes. Using Southern hybridization of DNA genome with probes for histone, ribosomal and heat shock gene (hsp 70), it was shown that the degradation products of specific DNA sequences are as heterogenous as those of total DNA, although marked differences in appearance of nucleosomal ladder were seen. These data were interpreted to indicate different patterns of DNA breakdown in dying thymocytes. DNA breakdown in thymocytes in vivo and in isolated rat liver nuclei in vitro seems to proceed by similar mechanisms.     

Comparative analysis of the glycopeptides in normal liver cells and in Zajdela ascitic hepatoma cells in the rat

Glycopeptides obtained after pronase digestion of normal rat hepatocytes and Zajdela hepatoma cells after 3H-mannose or 3H-glucosamine incorporation were compared. In both cell types, the glycopeptides were resolved in four peaks after gel filtration on Biogel P6 with a different distribution of radioactivity in normal and tumoral cells. The first peak (I) contained high molecular weight glycopeptides, and particularly a megaloglycopeptide (MW 70,000) exclusively present in malignant cells. Peaks II and III contained only N-linked glycopeptides but the ratio bi-antennary/tri-tetra-antennary glycopeptides was very different in normal and malignant cells. Only polymannosidic oligosaccharides were detected in peak IV and their amount was more important in normal than in malignant cells. These results are discussed in relation with the differentiation state of hepatic cells.     

Interaction between ricin and Zajdela ascitic hepatoma cells

The binding to and toxicity of ricin on Zajdela hepatoma ascites cells were studied. The kinetic analysis of [125I]-ricin binding to hepatoma cells indicated that maximal specific binding was reached within 30 min. at 4 degrees C and 60 min. at 25 degrees C and that toxin binding to hepatoma cells was saturable. When the binding data were plotted according to the method of Scatchard, curvilinear graphs were obtained suggesting that hepatoma cells have both high and low affinity receptors for ricin. The number of high and low affinity receptors was identical at 4 and 25 degrees C, i.e., 8 x 10(5) and 1.2 x 10(7) sites per cell respectively. However, the capacity of hepatoma cells to bind ricin is stronger at 4 degrees C than at 25 degrees C. The toxic activity of ricin was totally abolished in the presence of lactose suggesting that ricin binding to cells occurs through binding sites containing galactosyl residues.     

Correlation of membrane-bound and free ribosomes in normal rat liver, Zajdela hepatoma rat liver and ascite cells proper]

The content of membrane-bound ribosomes in normal rat liver cells is 3 times as high as compared to that of free ribosomes. (K=membrane-bound ribosome RNAs divided by free ribosome RNAs=3, the opposite effect being observed in case of ascites hepatoma cells. A considerable increase in the free ribosome fraction in the liver of hepatoma-bearing rats occurs by the sixth day due to a decrease in the content of hepatoma-bearing rats occurs by the sixth day due to a decrease in the content of membrane-bound ribosomes (K=0.6). Similar, but less-pronounced changes were observed in liver cells of control animals after 48-hour starvation (K=0.9), simulating the condition occurring during the last days of tumour animals' life. Thus, changes in the rativ of membrane-bound to free ribosomes in liver during the ascites tumour growth are probably specifics and are not only due to anorexia in Zajdela hepatoma animals.     

Reaction between dexamethasone-receptor complexes and isolated nuclei from Zajdela hepatoma and rat liver cells]

Temperature-activation of the hormone-receptor complex (HRC) was shown to be necessary to ensure its translocation from cytoplasm to nucleus both in the rat liver and hepatoma. Hepatoma nuclei bind 20 times less HRC derived from homologous hepatoma cytosol (0.15 pmol/mg DNA), but twice as much (5.6 pmol/mg DNA) of HRC from heterologous liver cytosol, as compared with the binding of HRC from normal liver cytosol by liver nuclei (3 pmol/mg DNA), Ka of HRC with the acceptor sites in hepatoma and liver nuclei were found to be practically of the same order of magnitude. The above findings suggest an inhibition of cytosol-nucleus translocation of HRC from the cytosol of hepatoma cells as a possible cause of the nonresponsiveness of the latter to the hormone.     

Morphological and functional heterogeneity of rat ascitic hepatoma Zajdela cells

This work is devoted to the study of molecular and cellular mechanisms of disdifferentiation during neoplastic transformation of cells by investigating the malignant tumor cell heterogeneity. We have revealed two cell fractions of hepatoma Zajdela which differ in patterns of growth in primary culture. The cells of one fraction were attached to the culture plastic and grew in a monolayer (S-fraction), whereas cells of another fraction floated in the culture medium (F-fraction). Using method of lifetime supervision of primary culture cells (1-2 passages) at the limit of the resolving power of DIC-microscopy it has been revealed, that both fractions contain cells of several types. Some of them were specific for one of the fractions, and others were found in both fractions, but their frequencies differed. It has been shown by the same method, that long separate cultivation of these fractions in vitro (more than 50 passage) change both cellular structure and the initial ratio of different types of cells in both fractions. According to DNA flow cytometry, the cells of both fractions were hypotetraploid and had insignificant differences in DNA contents. After adaptation to in vitro conditions, S-fraction cells raised their proliferative activity in comparison with the F-fraction cells, and after long cultivation showed 2.3 times higher DNA content. Greater amount of cell surface laminin, a hepatocellular carcinoma marker, was observed on F-fraction cells than on S-fraction cells. Interfractional distinctions were confirmed also by immunologic assessment of hepatoma cells resistance to natural killer lyses: the sensitivity of S-fraction cells in primary culture was 2.4 times higher than F-fraction cells sensitivity, and, after long cultivation, F-fraction cells became practically resistant to cytotoxic action of natural killers. Based on the data obtained, the most probable paths of cell disdifferentiation during hepatoma Zajdela formation and during long cultivation of this tumor cells in vitro are discussed.     

Morphological and functional heterogeneity of Zajdela rat ascites hepatoma cells

This work studies the mechanisms of dysdifferentiation at cell neoplastic transformation based on the example of heterogeneity of the cell populations that form malignant tumors. Two natural fractions of Zajdela rat hepatoma cells are revealed that differ in the type of growth in the primary culture. Cells of one fraction are attached to substrate and are growing in monolayer (S-fraction), whereas cells of the other fraction are floating in the culture medium (F-fraction). Using the method of supravital observation of the primary culture cells (of 1–2 passages) at the limit of resolution of DIC microscopy, it has been established that both fractions contain cells of several types. Some of these cells are specific to one of the fractions and others are present in both fractions, but with different frequencies. Using the same method, it has been shown that, at the long-term separate cultivation of the fractions in vitro (more than 50 passages), both the cell composition and the initial ratio of cells of different types are changed in both of them. According to the data of flow DNA cytometry, cells of both fractions are hypotetraploid and have insignificant differences in the amount of DNA. After adaptation to conditions of cultivation in vitro, S-fraction cells have been found to have elevated proliferative activity compared to the cells of F-fractions; after long cultivation, the fractions already differ significantly (2.3 times) by this criterion. The content of the cell surface laminin, a marker of hepatocellular carcinomas, is higher on cells of the F-fraction than on those of the S-fraction. The interfraction differences are confirmed by immunologic estimations of the resistance of hepatoma cells to lyses of natural killer cells; cells of the S-fraction of the primary culture are 2.4 times more sensitive than cells of the F-fraction, while, after long-term cultivation, cells of the F-fraction become almost resistant to the cytotoxic action of natural killer cells. Based on the obtained data, the most probable pathways of the dysdifferentiation of rat hepatocytes upon the establishment of Zajdela hepatoma and at the long-term cultivation of cells of this tumor in vitro are discussed.