Activities of some enzymes concerned with citrate and glucose metabolism in transplanted rat hepatomas

1. Certain enzymes concerned with citrate and glucose metabolism have been measured in two transplanted rat hepatomas, one induced with ethionine (minimal deviation type) and one induced with dimethylaminoazobenzene. In these hepatomas both citrate-cleavage enzyme and NADP-linked isocitrate dehydrogenase in the soluble fraction of the cell were approximately one-third of the values for normal rat liver. These changes have been discussed in relation to the increased citric acid content of tumours and depressed rate of fatty acid synthesis. 2. The glucose-ATP-phosphotransferase activity was below normal liver values in the ethionine-induced tumour but greater than normal in the dimethylaminoazobenzene-induced hepatoma. The apparent K(m) values for the glucose-ATP phosphotransferases of these hepatomas were approx. 8x10(-5)m; no evidence was found for an enzyme with a high K(m) for glucose equivalent to liver glucokinase. 3. Of the enzymes of the pentose phosphate pathway, glucose 6-phosphate-dehydrogenase activity was three to five times as great whereas 6-phosphogluconate-dehydrogenase activity was the same or lower than normal liver in the ethionine-and dimethylaminoazobenzene-induced tumours respectively.     

Some characteristics of isoenzymic spectrum of hexokinase and glucose levels in hepatomas and liver of the host]

The total activity of hexokinase (HK) and HK isoenzymic spectrum of the normal liver and slowly groming hepatoma 49 did not show any essential differences. However, the HK total activity and the relative and absolute contents of isoenzyme HK-3 were increased in hepatomas 61 and especially in the rapidly growing hepatoma 22-a. The glucokinase activity decreases in the hepatiomas 49 and 61 and disappears in the rapidly growing hepatoma 22-a. The glucose content in hepatoma 49 was slightly lower than in the normal liver, whereas in other hepatoma no traces of glucose could be detected. At low glucose concentration in the medium (0,1 mM), i.e. under conditions simulating those characteristic of tumors in vivo, the predominant form of HK in all hepatomas studied was found to be HK-3. In the liver of hepatoma-bearing mice some shifts in the value of total HK activity and its isoenzymic spectrum, reminding one of those found in hepatomas themselves, were observed. Unequal deviations in the total HK activity and its isoenzymic spectrum in hepatomas with different degrees of malignancy indicate that these characteristics are secondary rather than primary events depending on tumour progression.     

Detection of the range of cytological changes in tumors induced in rats by nitrosoamines by means of passage in the anterior chamber of the eye]

12 rat liver tumors (high, purely and low differentiated hepatomas and adenocarcinomas), 3 kidney tumors, 1 lymphosarcoma and 1 round cell sarcoma of the uterus were transplanted and passed trough anterior chamber of the allogenic rat eyes. In 8 primary transplants of the liver tumors differentiation traits increased; three of them were morphologically undistinguishable from the normal liver tissue. In some transplants of embryonic liver and kidney displasia was detected. The results obtained give evidence in favor of a very high cytological variability of tumors at the early steps of progression, and indicate that the cultivation in the anterior chamber of the eye may be a proper model for investigation of cytological variability of both malignant and normal tissues.     

Activities of dehydrogenases of the pentose phosphate pathway and transketolase in transplanted mouse hepatomas with different growth rates and in organs of tumor carriers]

The activities of glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase and transketolase were studied in the cytoplasmic fractions of transplanted mouse hepatomas differing in their growth rates, and in the liver, spleen and cortical layer of kidneys of tumour carriers and normal mice. It was shown that transplantation of hepatomas changes the activity of the pentose phosphate pathway enzymes in tumour carrier tissues unaffected by neoplasm. Deviations from normalcy were mainly similar to those observed in the hepatomas. The changes in the enzymatic activities were especially well-pronounced in the mice having rapidly growing hepatomas. This may be due to a generalized effect of the tumour on the organism, which is concurrent with malignancy.     

Comparative study of glycolipid compositions of plasma membranes among two types of rat ascites hepatoma and normal rat liver.

Glycolipid composition of purified plasma membranes from rat ascites hepatomas, two island-forming cell-lines and two cell-lines of the free-type, and normal rat liver were compared. Ceramide monohexoside (CMH), ceramide dihexoside (CDH), and hematoside (GM3) were found in normal rat liver cell membranes. The island-type hepatomas contained ceramide trihexoside (CTh) and globoside besides CMH, CDH, and GM3. The free-type of hepatomas were characterized by the presence of asialo-type gangliosides but not GM3. The free-type of hepatomas were characterized by the presence of asialo-type gangliosides but not GM3. Blood group H active fucolipid was a major glycolipid in the free-type of ascites hepatoma cell (AH 7974 F). The increase of glycolipid content in cell membranes seemed to be accompanied with a decrease of cell adhesiveness.     

Contact stimulation of prostate cancer cell migration: the role of gap junctional coupling and migration stimulated by heterotypic cell-to-cell contacts in determination of the metastatic phenotype of Dunning rat prostate cancer cells

BACKGROUND INFORMATION: Motile activity of tumour cells is regarded as a critical factor determining their metastatic potential. We have shown previously that contrary to the majority of normal cells, homotypic contacts between some tumour cells, among them low metastatic (AT-2) and highly metastatic (MAT-LyLu) rat prostate cancer cells, increase the speed of their movements. The aim of the present study was to determine the effect of heterotypic cell-to-cell contacts on the migration of rat prostate cancer cells differing in metastatic potential, and to correlate it with the intensity of homo- and heterologous gap junctional coupling. RESULTS: MAT-LyLu and AT-2 cells moving on the surface of fibroblasts displayed significantly greater cell displacement than those moving on plastic substrata. This effect correlated with the polarization (contact guidance) and increased speed of cell movements. However, in contrast with the migration on plastic substrata, where MAT-LyLu cells displayed considerably higher motility than AT-2 cells, no differences between both cell lines were observed on the surface of fibroblasts. On the other hand, in contrast with AT-2, Mat-LyLu cells displayed extensive homologous coupling mediated by connexin43 and were able to couple with normal fibroblasts. CONCLUSION: Heterotypic contacts between migrating prostatic cancer cells and normal fibroblasts can strongly stimulate their migration during invasion; however, this effect does not correlate with the gap junctional coupling between cancer cells and normal fibroblasts.     

The formation of methylated bases in DNA by dimethylnitrosamine and its relation to differences in the formation of tumours in the livers of GR and C3HF mice

Metabolism of and DNA methylation by dimethylnitrosamine (DMNA) were measured in the livers of GR male and C3Hf male and female mice which showed widely different susceptibilities to tumour formation by this hepatocarcinogen.It was previously shown that continuous DMNA administration results in vascular tumours in the livers of C3Hf female mice, whereas C3Hf males develop a high incidence of hepatomas both after continuous treatment and after a single injection of DMNA to adult animals. GR males showed a low susceptibility to the formation of liver tumours under these conditions.N-demethylation of DMNA by liver microsomes showed similar activity for both C3Hf sexes; but GR males were significantly more active.At 5 and 48 h after a single injection of [¹⁴C]DMNA, the amounts of O⁶-methylguanine (O⁶-MeGua), 7-methylguanine (7-MeGua), 1-methyladenine (1-MeAde) and 3-methyladenine (3-MeAde) were similar for C3Hf males and females, with the possible exception of 7-MeGua which seemed to be slightly higher in the female. O⁶ MeGua disappeared from C3Hf liver DNA with an apparent half-life time of about 24 h. Especially at 48 h after injection, GR liver DNA was methylated to a higher extent than was C3Hf liver DNA. This result, which antiparallels the tumour incidences, may be explained by the differences in rate of N-demethylation of DMNA. where higher 7-MeGua values were found for fasted animals under otherwise identical conditions.The general conclusior to be drawn is that neither the metabolism of DMNA nor DNA methylation by this carcinogen in the livers of male GR and C3Hf male and female mice correlates With the formation of hepatomas after DMNA administration. A possible explanation of the absence of such a correlation between DNA methylation and tumour formation might be that there exists no causal relationship between both events. However, a complicating factor is that the eventual development of a tumour may be influenced by a number of—sometimes decisive—secondary factors like hormonal²⁵ or immunological²⁶ status or the presence of cellular proliferation in target organs^27,28. Evidence from other systems suggests a relationship between inactivating, mutagenic or carcinogenic effects of alkylating agents and their ability to interact with nucleic acids, especially DNA^29,30.     

Regulation of rat liver phosphofructokinase levels in Morris hepatomas.

The levels of the major liver phosphofructokinase isozyme (PFK-L₂) and the PFK regulatory factor were measured in adult and fetal liver as well as Morris hepatomas of different differentiation states. The results indicate that both the PFK-L₂ activity and the PFK regulatory factor levels in well and highly differentiated hepatomas are not statistically different from the amounts found in adult liver. In the poorly differentiated hepatomas and fetal liver, the levels of both PFK-L₂ and PFK regulatory factor are approximately 2 and 3 fold greater, respectively, than what was found in adult liver.     

The relation of karyotypic change to loss of contact inhibition of division in human diploid cells after SV40 infection

Following in vitro infection of human cell cultures with simian virus 40, karyotypic analyses were performed on the earliest serial culture in which cells were released from contact inhibition of division. In these cultures of diploid fibroblast-like cells, normal karyotypes were found in excess of the statistical expectation for the number of background dividing cells. Thus, loss of contact inhibition of cell division occurs prior to the alteration of chromosome morphology. These events are two of the prime alterations in the series of steps comprising transformation by this virus. The chromosomal changes which were present represent the first cytological alteration detectable. Their distribution in the human karyotype was examined, but was found to have no relation to any specific chromosome or chromosome group.     

Enzymes metabolizing xenobiotics in spontaneous tumors in mice

The microsomal monooxygenase activity in spontaneous mouse hepatomas has been studied. The cytochrome P-450 level in hepatomas was shown to be 2 times as low as that in the liver. The reduction of the cytochrome P-450 content in the tumour was accompanied by a decrease in the activity of benz(a)pyrene hydroxylase, amino-pyrene-N-demethylase and p-nitroanisole-O-demethylase. However, 7-ethoxycoumarin-O-deethylase activity in hepatomas was much higher than in the liver both estimated as mg of the microsomal protein and nmol of cytochrome P-450. The cytochrome b5 content in the hepatomas was comparable with its level in the liver. A more elevated content of NADPH-cytochrome c reductase and microsomal epoxide hydrolase activity was found in the hepatomas. The results obtained provide evidence of different oxidation effects regarding some substrates in the liver and hepatomas. The ratio of cytochrome P-450 isoforms is likely to change in the hepatomas in contrast with that in the liver.     

Studies on the function of intracellular ribonucleases. V. Ribonuclease activity in ribosomes and polysomes prepared from rat liver and hepatomas

The RNase activity and properties of ribosome and polysome preparations from normal rat liver and some hepatomas have been examined. Polysome and ribosome preparations from the Novikoff, McCoy MDAB, and Dunning hepatomas had considerably higher specific RNase activity than corresponding preparations from normal rat liver, Novikoff ascites, or Morris 5123 hepatomas. The optimum pH of the RNase was approximately 8.5 for all samples tested, and the samples showed no evidence of latent RNase activity when treated with 3 M sodium chloride, EDTA, urea, or p-chloromercuribenzenesulfonic acid. The RNase activity appeared to be associated principally with breakdown products and/or subunits smaller than 80S. In the presence of Mg⁺⁺ ions, subunits could reaggregate to form monomer ribosomes indistinguishable from the natural products, but some of the reassociated ribosomes could contain RNase activity which had been bound to the smaller particles. Similar results were obtained with spermine. In the hepatomas, evidence was obtained for the preexistence of considerable amounts of the smaller, RNase-containing subunits in the cell. When a small amount of crystalline bovine pancreatic RNase was added to partly dissociated ribosomes, the RNase was found only in association with the smaller subunits, and little or no enzyme was taken up by ribosomes or polysomes. The results have led to the conclusion that RNase is not a normal constituent of the ribosome or polysome, but that RNase may become associated with these particulates if dissociation and reassociation take place. Some implications of these findings for the stability of messenger RNA and for the mechanism of its breakdown are discussed.     

Phospholipid transfer activities in Morris hepatomas and the specific contribution of the phosphatidylcholine exchange protein

Phospholipid transfer activities for phosphatidylcholine, phosphatidylinositol and phosphatidylethanolamine were measured in three hepatomas of increasing growth rate and degree of dedifferentiation, the hepatomas of 9633 and 7777, and compared to the activities found in normal and host liver. A 2-3-fold increase was found in the phosphatidylcholine and phosphatidylinositol transfer activities in the fast-growing 7777 hepatoma, while these activities were moderately or not increased in the 7787 and 9633 hepatomas. Phosphatidylethanolamine transfer was found to be extremely low in all three hepatomas. The possible significance of these findings with respect to the altered phospholipid content and composition of the hepatoma membranes is discussed. The contribution of the phosphatidylcholine specific exchange protein to the total phosphatidylcholine transfer activity was determined in normal and host liver and in the hepatomas 7777 and 9633 with the aid o f a phosphatidylcholine exchange protein specific antiserum. To this end a new procedure for the purification of the phosphatidylcholine exchange protein from rat liver was developed which leads to a final purification factor of 5300 and a high overall yield of 17%. In addition, this protein was chemically and immunologically characterized and its properties were compared to those of the bovine phosphatidylcholine exchange protein purified in our laboratory previously.     

Contact-activated migration of melanoma B16 and sarcoma XC cells.

During migration, tumour cells interact with neighbouring neoplastic and normal host cells, and such interaction may influence their motile activity. We investigated the effect of homotypic collisions on the motile activity of two tumour cell lines, mouse melanoma B16 and rat sarcoma XC, and nontransformed human skin fibroblasts. It was found that the tumour cells show only limited motile activity when moving as single cells without contact with neighbours. At a higher density of the culture (and also at a greater number of cell to cell contacts) the activation of motility of investigated tumour cells was observed. On the other hand, the normal human skin fibroblasts showed a typical reaction of density-dependent inhibition of motility. The motile activity of tumour cells was not affected by conditioned media and was visibly dependent on a direct physical contact among colliding cells. The activation of cell movement was observed about 40-50 min after the initial contact between tumour cells. Contact-activated migration of neoplastic cells was inhibited by 50 microM verapamil (a selective voltage-gated calcium channel inhibitor) and 10 microM gadolinium chloride (a nonspecific blocker of mechanosensitive ion channels) but not by pertussis toxin. The observation that homotypic collisions among tumour cells strongly increase their motile activity suggests that contact-activated migration may play a significant role in tumour invasion and metastasis.     

An alternate insulin-like growth factor I receptor signaling pathway for the progression of endothelial–mesenchymal transition

Emerging evidence suggests that endothelial-to-mesenchymal transition (EndoMT) is an important contributor to cardiovascular diseases and to vascular development and pathologies as well as in cancer progression. As in epithelial–mesenchymal transition (EMT), EndoMT may involve several regulated steps: disassembly of adherence junctions or loss of cell–cell contacts, cytoskeletal reorganization, proteases, cytokines and growth factor synthesis and secretion, extracellular matrix remodeling, membrane receptor expression, cell detachment and cell migration and differentiation. Loss of cell–cell contacts is a necessary and sufficient step in the progression of EndoMT. In endothelial cells, adherence junctions are composed of transmembrane adhesive proteins belonging to the cadherin family, with the VE-cadherin being the most important. This protein interacts with β-catenin, which links cadherin to the actin cytoskeleton. Tyrosine phosphorylation of both VE-cadherin and β-catenin is considered an important mechanism associated to the disassembly of adherence junctions or loss of cell–cell contacts. Insulin-like growth factor receptor I (IGFIR) is a transmembrane tyrosine kinase that has been involved in the alterations of cell–cell contacts and in the expression of some genes during cancer development and progression. Here, it is hypothesized that IGFIR autophosphorylation may initiate a signaling pathway that would lead to the loss of cell–cell contacts or adherence junctions, remarkable remodeling of the cytoskeleton, increased cell motility, and finally to the progressive transition towards a mesenchymal phenotype. Data supporting this hypothesis are presented here.     

STUDIES ON THE FUNCTION OF INTRACELLULAR RIBONUCLEASES : IV. Some Observations on the Properties of Ribosomes and Polysomes from Rat Liver and Hepatomas

Polysome and ribosome preparations from normal rat liver and from a series of transplantable rat hepatomas of different growth rates were compared. All the hepatomas had a significantly higher percentage of RNA in a polysome preparation than did the normal liver, and the polysome preparations from the tumors, with the exception of the Dunning hepatoma which has a high lipid content, gave a greater yield of RNA and protein per gram of wet tissue than the liver did. Heavier polysomes were considerably less prevalent in the tumors than in the liver, and the tumors contained a larger proportion of monomer and dimer ribosomes than the liver did. Evidence is presented that the increased monomer and dimer ribosome population of the hepatomas studied is not an artifact of preparation, but represents the true intracellular distribution. Ribosomes from normal liver and Morris 5123-D hepatoma were readily dissociated by 20 min'' treatment with 1.0 mM EDTA, but ribosomes from the Dunning, Novikoff ascites, and McCoy MDAB hepatomas were little affected by such treatment. With higher concentrations of EDTA, the ribosomes from the Novikoff ascites and McCoy MDAB hepatomas broke down and did not form specific subunits as did ribosomes from liver and the Morris 5123-D hepatoma but rather gave rise to a variety of small degradation products. This behavior is ascribed to a higher RNase content of the Novikoff and McCoy MDAB hepatomas. Dunning hepatoma ribosomes were resistant to 4 mM EDTA.     

Disruption and de novo formation of nanotubular membrane extensions in SW620 colon carcinoma cell line during cell division

A novel biological principle of cell-to-cell interaction based on membrane continuity of nanotubular channels has recently been described. These contacts are extremely dynamic and sensitive to mechanical stress, which causes their rapid breakage and retraction. Here we demonstrate that functional mechanical stress generated during cell division can disrupt membrane nanotubes, which are formed de novo when filopodia-like projections on one cell make contact with a neighbouring cell, using the SW620 colon carcinoma cell line. Considering the general principal of decreasing cell-cell interactions during tumour progression, our observation is appealing because this new phenomenon may be valid for neoplastic cells.     

Neoplastic response of turkey liver to MC29 leukosis virus.

Twelve to fourteen days after intravenous inoculation of MC29 virus (1 x 10(5)LD50) into 1-day-old turkeys, liver tumour developed in 100% of the infected animals and led to death of birds. The tumour proved to be hepatomas histologically and electron microscopically. Numerous C-type particles were detectable among the tumour cells, as well as budding from the cell membrane. C-type particles were also observed in the tumour-free liver tissue in the spaces between the cells, budding was not detectable. Large number of virus particles were found in spleen extracellularly and intracellular vacuoles. Kidney tumours did not develop, but a few extracellular virus particles were located in the tissue. The MC29 virus-induced primary liver tumour in the turkey seems to be a suitable model for the morphological study of the relationship between oncogenic viruses and eukaryotic cells.     

Negative correlation of L-glutamine concentration with proliferation rate in rat hepatomas

The concentration of L-glutamine was determined in freeze-clamped samples of normal liver of adult male fed rats (5.7-6.1 mumol/g) and in transplantable hepatomas of vastly different proliferative rates. The L-glutamine concentration in the slowly growing hepatomas was in the range of the normal liver and it decreased in relation to the increase of hepatoma growth rate, in the most rapidly growing tumors amounting to 12% of that of normal liver. In 24-hour regenerating liver, the glutamine content was slightly reduced (by 17%). In normal rat organs of high cell renewal, such as testis, intestinal mucosa, spleen, and thymus, the L-glutamine concentration was 18 to 46% of that of normal rat liver. The L-glutamine content was similar in rat brain and liver, but it was 1.6-fold higher in the heart, and low in the blood. Glutamine synthetase (EC 6.3. 1.3) activity in normal adult liver of ACI/N strain rats was 1,000 nmol per hr per mg protein; the activity increased in the very slowly growing hepatoma 20, but decreased markedly in all the other hepatomas. Thus, glutamine synthetase activity was essentially transformation-linked. The negative correlation of glutamine content with growth rate in transplanted hepatomas appears to be more closely linked with the activities of enzymes that utilize glutamine. The low L-glutamine concentration in the rapidly growing hepatomas provides a potential marker for anti-glutamine chemotherapy selectively targeted against the glutamine-utilizing enzymes.     

Content of cytochrome P-450 and its induction capacity in primary liver tumors in rats

The content of cytochrome P-450 has been measured in primary hepatomas induced by diethylnitrosamine. As a rule, the enzyme content in hepatomas was decreased, as compared to normal liver and tumor-affected liver, but some hepatomas contained cytochrome P-450 in greater amount than normal tissue. Aroclor 1254 induced an increase in cytochrome P-450 content, which was identical in hepatomas, normal liver and tumor-affected liver. The dependence of hepatoma morphology on cytochrome P-450 content was not detected.     

PI3‐kinase/Akt pathway‐regulated membrane transportation of acid‐sensing ion channel 1a/Calcium ion influx/endoplasmic reticulum stress activation on PDGF‐induced HSC Activation

Acid‐sensing ion channel 1a (ASIC1a) allows Na⁺ and Ca²⁺ flow into cells. It is expressed during inflammation, in tumour and ischaemic tissue, in the central nervous system and non‐neuronal injury environments. Endoplasmic reticulum stress (ERS) is caused by the accumulation of misfolded proteins that interferes with intracellular calcium homoeostasis. Our recent reports showed ASIC1a and ERS are involved in liver fibrosis progression, particularly in hepatic stellate cell (HSC) activation. In this study, we investigated the roles of ASIC1a and ERS in activated HSC. We found that ASIC1a and ERS‐related proteins were up‐regulated in carbon tetrachloride (CCl₄)‐induced fibrotic mouse liver tissues, and in patient liver tissues with hepatocellular carcinoma with severe liver fibrosis. The results show silencing ASIC1a reduced the expression of ERS‐related biomarkers GRP78, Caspase12 and IREI‐XBP1. And, ERS inhibition by 4‐PBA down‐regulated the high expression of ASIC1a induced by PDGF, suggesting an interactive relationship. In PDGF‐induced HSCs, ASIC1a was activated and migrated to the cell membrane, leading to extracellular calcium influx and ERS, which was mediated by PI3K/AKT pathway. Our work shows PDGF‐activated ASIC1a via the PI3K/AKT pathway, induced ERS and promoted liver fibrosis progression.