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.     

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.     

Role of ribonucleotide reductase in expression of the neoplastic program

Evidence is presented for the tight linkage of ribonucleotide reductase activity with normal and neoplastic proliferation. A sensitive and reproducible assay was worked out to measure CDP reductase activity in rat in normal liver and various tissues, hepatomas of different growth rates, kidney tumors and sarcoma and tissue culture cells of hepatoma 3924A. In the standard assay, linear kinetics were obtained and the reductase activity of the rat liver was 23 ± 3 pmol CDP metabolized per hr/mg protein. When hepatoma 3924A tissue culture cells that had accumulated in plateau phase were replated, allowed to go through lag and log phases and again into the plateau phase during a 96-hr period, ribonucleotide reductase activity rose at 6 hr after cells were plated, the activity was maintained at high levels during the first 48-hr period, and returned to the resting level at 72 and 96 hr. This rise was earlier than that of 6 other enzymes of pyrimidine $\text{de novo}$ and salvage pathways (thymidine kinase, CTP synthetase, orotidine-5′-phosphate decarboxylase, orotate phosphoribosyltransferase, uridine phosphoribosyltransferase, and uridine-cytidine kinase). The rise in reductase activity was synchronous with the increase in incorporation of cytidine and deoxycytidine in the hepatoma cells. The reductase activity was markedly elevated in kidney tumors (31-fold) and in sarcoma (60-fold) as compared to the kidney cortex and muscle, respectively. In 14 lines of transplantable solid hepatomas, reductase activity was increased from 6.2- to 326-fold of that of normal rat liver. The rise in reductase activity positively correlated with the growth rate of the hepatomas; the behavior of CDP reductase was both transformation- and progression-linked. Reductase activity was also high in differentiating and regenerating liver; thus, it also was linked with normal proliferation. However, the elevation in activity was more marked in the rapidly-growing solid hepatoma 3924A (97-fold) than in normal tissues with the same replicative rate, such as regenerating (56-fold) or differentiating (46-fold) liver. Reductase activity was also high in organs of active cell renewal (thymus, bone marrow, spleen and intestine). Since in the solid hepatomas the levels of the substrate for the reductase, the ribonucleoside diphosphates, were generally unaltered, the marked elevation observed in the concentration of deoxynucleoside triphosphates may be attributed primarily to the early and marked rise in CDP reductase activity.     

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.     

Influence of age, sex and cancer on the activities of gamma-glutamyl transpeptidase and of dipeptidyl aminopeptidase IV in rat tissues

gamma-Glutamyl transpeptidase (GTP; EC 2.3.2.2) is an enzyme known to show activity changes during development and carcinogenesis. Its activity was measured in the livers and lungs of female and male rats of different ages, in Morris hepatomas and in experimentally induced pancreatic carcinomas. For comparison purposes, the activity of another peptidase, dipeptidyl aminopeptidase IV (DPAP; EC 3.4.14.1), was assayed in the same tissues. GTP activity was high in fetal liver and hepatomas, but low in adult rat liver, with a marked sex difference, 3 times higher in the female than in the male. In the pancreas, however, the activity of the enzyme was high in the adult but low in the fetus and in pancreatic carcinoma. There were no marked developmental changes or sex differences in pulmonary GTP activities. DPAP levels were low in fetal and neonatal liver and lung, they increased rapidly after birth and showed no sex differences in the adult. In Morris hepatomas and in pancreatic tumors the activity of DPAP was significantly lower than in normal adult liver and pancreas. These results suggest that measurements of GTP (and, to a lesser extent, DPAP) are remarkably suitable for the study of neoplastic cells and tissues.     

Production of an auto-stimulatory growth factor by human hepatoma cells abrogates requirement for a brain-derived factor

Summary Human hepatoma cells grow at high cell density in the absence of exogenous growth factors. At low cell density, two different hepatoma cell lines required a novel growth factor from brain tissue. A factor with similar physico-chemical properties in the concentrated medium from high density cultures completely substituted for the brain extract. The autogenous secretion of a novel liver cell growth factor that is concentrated in brain tissue may underlie in part the unregulated growth of hepatomas. EDITOR'S STATEMENT Collective properties of growth factor activities for hepatoma cells in bovine brain extract and the medium of hepatoma cells suggest a neural tissue-derived liver cell growth factor that may be autogenously produced by liver tumor cells. Purification and characterization of such a factor may lead to selective inhibition of hepatoma, cell proliferation. David W. Barnes     

Vitamin B6 metabolism in Morris hepatomas

The enzymes involved in the metabolism of vitamin B6 were measured in Morris hepatomas and livers of female Buffalo rats fed pyridoxine-sufficient and deficient diets. Pyridoxal phosphate levels in plasmas hepatomas, and livers were also determined. Nontumor-bearing animals were maintained as controls. Regardless of the B6 nutritional status, the concentration of pyridoxal phosphate was lower in the hepatomas than in the livers of the host animals. The apoenzyme levels of ornithine decarboxylase, a pyridoxal phosphate-dependent enzyme, were higher in the hepatomas from animals fed the B6-deficient diet. Liver pyridoxine kinase activity was higher in B6-sufficient animals. In contrast, tumor pyridoxine kinase activity was influenced by B6 intake and was significantly lower than that in host liver. Liver pyridoxine phosphate oxidase activity was not significantly affected by B6 intake or by the presence of tumor. In contrast, hepatomas had little or no pyridoxine phosphate oxidase activity. Pyridoxine phosphate phosphatase activity was elevated in tumors relative to livers. These data indicate that the metabolism of vitamin B6 is markedly different in the hepatomas than in host or control livers and suggest that the tumor is apparently incapable of the complete synthesis of co-enzymatically active pyridoxal phosphate from inactive precursor forms such as pyridoxine.     

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.     

Nicotinamide methylation tissue distribution,developmental and neoplastic changes

The distribution of cytosolic activity of nicotinamide:S-adenosylmethionine methyltransferase (nicotinamide methylase, EC 2.1.1.1) in normal tissues from adult rat and mouse and in tumors and the change in the enzyme activity during the the development of rat tissues were studied. (1) Rat liver exhibited the highest nicotinamide methylase activity among all adult tissues tested; other rat tissues, like adrenal, pancreas, kidney, brain and mouse tissues, had only less than 15% of the adult rat liver activity. (2) 3 days before birth, fetal liver showed a very low nicotinamide methylase activity (2% of adult rat liver), which, however, increased already 1 day before birth and reached the adult level on the day 28 after birth. (3) In a variety of hepatomas and ascites tumors, an inverse correlation, with some exceptions, between tumor growth rate and nicotinamide methylase activity could be seen. In all hepatomas, with the exception of Morris hepatoma 5123tc, nicotinamide methylase activity was significantly decreased in comparison to normal adult rat liver. The highly malignant Zajdela hepatoma, Yoshida sarcoma, sarcoma 180 and Ehrlich ascites tumor methylated nicotinamide only at a negligibly low rate. (4) Cultured RLC cells (an established rat liver cell line) from the stationary growth phase or G₁-arrested RLC cells had about half of the adult rat liver activity, yet the activity was 70% higher than that of the logarithmically growing RLC cells.     

Variations in DNA Synthesis and Mitotic Indices in Hepatocytes and Sinusoid Litoral Cells of Adult Intact Male Mouse Along a Orcadian Time Span

Variations of DNA synthesis (DNAS) and mitotic indices along a circadian time span are described in the hepatocyte and sinusoid litoral cell populations of adult intact male mouse liver. Standardized (light from 0600 to 1800) mice were killed in groups of six to nine animals, every 2-4 hr along a circadian time span. Hepatocytes show significant peaks in the synthesis of DNA and the mitotic activity at 0200 and 1400, respectively. These results correspond to those previously described by us in young immature liver, regenerating liver and hepatomas. The phase differences between these peaks and the differences between their absolute values are discussed. Also considered are the practical consequences of our findings for experimental design. The curve of DNA synthesis of sinusoid litoral cells show a peak at 0200. The mitotic index show a bimodal waveform with peaks at 0800 and 2000. The existence of four different cell populations composing the so called sinusoid litoral cells and also the migration into and out of the liver of some macrophages considered as litoral (Kupffer) cells in our counts, makes interpretation of the curves somewhat complicated and deserves further analysis.     

Variations in DNA Synthesis and Mitotic Indices in Hepatocytes and Sinusoid Litoral Cells of Adult Intact Male Mouse Along a Orcadian Time Span

Variations of DNA synthesis (DNAS) and mitotic indices along a circadian time span are described in the hepatocyte and sinusoid litoral cell populations of adult intact male mouse liver. Standardized (light from 0600 to 1800) mice were killed in groups of six to nine animals, every 2-4 hr along a circadian time span. Hepatocytes show significant peaks in the synthesis of DNA and the mitotic activity at 0200 and 1400, respectively. These results correspond to those previously described by us in young immature liver, regenerating liver and hepatomas. The phase differences between these peaks and the differences between their absolute values are discussed. Also considered are the practical consequences of our findings for experimental design. The curve of DNA synthesis of sinusoid litoral cells show a peak at 0200. The mitotic index show a bimodal waveform with peaks at 0800 and 2000. The existence of four different cell populations composing the so called sinusoid litoral cells and also the migration into and out of the liver of some macrophages considered as litoral (Kupffer) cells in our counts, makes interpretation of the curves somewhat complicated and deserves further analysis.     

Inactive 3-hydroxy-3-methylglutaryl-coenzyme A reductase in broken cell preparations of various mammalian tissues and cell cultures.

Preincubation of broken cell preparations from a variety of tissues and cell cultures resulted in an apparent increase in the level of 3-hydroxy-3-methylglutaryl-CoA reductase activity. However, apparent activation of the reductase in mouse liver, hepatomas and primary liver cell cultures was attributed largely to the loss, during the preincubation period, of an interfering enzyme, 3-hydroxy-3-methylglutaryl-CoA lyase. Among non hepatic cells and tissues (which did not contain appreciable lyase activity) the proportion of latent reductase was high in sonicates of fetal brain and in L cells and was independent of the level of total enzyme activity present. Activation of the reductase was blocked by hydroxymethylglutaryl-CoA and NADPH as well as by KF so that activation did not occur under the conditions of the enzyme assay. The enzyme was activated slowly at 4 degrees C, so that partial activation of the latent form occurred during isolation of the microsomal fraction by differential centrifugation. The reductase present in sonicates of cells with either a high or low proportion of the latent enzyme was inactivated by incubation with ATP and Mg2+. Suppression of reductase activity in L cell cultures by treatment with 25-hydroxycholesterol and an age-related decline in brain enzyme activity did not involve reversible conversion of the reductase to an inactive form.     

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.     

DNA content in cells of spontaneous hepatomas in CBA mice

The DNA content was measured in the cells of 37 well-differentiated spontaneous hepatomas from 20 CBA mice aged 18 to 22 months. In all the cases, the DNA distribution pattern was polymodal, with the class of tetraploid cells being predominant. It was independent of the tumor ability to produce AFP. No signs of aneuploidy were noted. The cells of spontaneous hepatomas were characterized by a high level of polyploidy and by a dramatic reduction in the number of binuclear cells as compared with liver cells. A tendency was recorded toward positive correlation between the degree of cellular polyploidy and tumor size. The high level of polyploidy seen in spontaneous hepatomas which is also characteristic of the normal liver is considered to be a sign of tumor maturity.     

Noradrenaline and glycogen content and the activity of several enzymes of carbohydrate metabolism in normal, embryonic, and partly denervated livers and in hepatomas of the rat]

The noradrenaline and glycogen contents as well as hexokinase, glucokinase and glucose-6-phosphatase activities were determined in normal, embryonic and partially denervated (bilateral dissection of the Nervus splanchnicus or Nervus vagus) rat liver and in two transplantable hepatomas. In embryonic liver and hepatomas a strong decrease or complete loss of noradrenaline and glycogen levels and glucokinase and glucose-6-phosphatase activities is demonstrable as compared to the livers of adult animals, while the hexokinase activity is enhanced. Following bilateral splanchnicotomy the glycogen content and hexokinase activity are enhanced; the glucose-6-phosphatase activity is reduced, and the liver does not contain any noradrenaline. Bilateral vagotomy causes decrease of the glycogen content, of the hexokinase and glucokinase activities and an enhancement of glucose-6-phosphatase activity. The results lend support to the idea of antagonistic action of the sympathetic and parasympathetic nervous systems upon several partial reactions of carbohydrate metabolism of liver. In addition, it can be assumed that the alterations of the carbohydrate metabolism demonstrable in hepatomas as compared to normal liver are not solely attributable to disturbance or breakdown of the nervous regulation.     

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.     

Liver reactivity to glucocorticoids in the process of chemical hepatic carcinogenesis]

The rat hepatocytes during chemical carcinogenesis (3'-MDAB), as well as the cells of chemically-induced primary rat hepatomas preserved their response to partial hepatectomy by stimulation of the 3H-thymidine incorporation into DNA; as in the normal liver this process is inhibited by dexamethason. No impairment in the inducibility of tyrosine aminotranspherase (EC.2.6.1.5) by the hormone was observed, whereas the hormonal induction of tryptophane pyrrolase (EC.1.13.11.11) in primary hepatomas was lost completely. The problem of the adequacy of the model of chemical carcinogenesis of the organ without consideration of the cell populations heterogeneity is discussed.     

Nuclear topoisomerase I and DNase activities in rat diethylnitrosamine-induced hepatoma, in regenerating and fetal liver.

DNase activity in the presence of Ca2+ + Mg2+, Mg2+ alone, Mn2+ alone, or EDTA, and topoisomerase I activity were measured in nuclear extracts of diethylnitrosamine (DEN)-induced hepatomas, regenerating, fetal, and normal rat livers. In hepatoma tissue, the Ca/Mg-dependent DNase activity was lower than in normal tissue and nearly the same as in fetal liver. In the poorly differentiated hepatomas, Mn-dependent DNase activity was higher than in both moderately and well differentiated ones and than in normal liver tissue. The activity of topoisomerase I in hepatomas and in regenerating liver was lower than in normal liver tissue.     

Altered activation state of hydroxymethylglutaryl-coenzyme A reductase in liver tumors

Extensive studies have demonstrated that the normal inhibition of cholesterol synthesis by cholesterol feeding is decreased in all hepatomas studied in vivo. This loss of the normal feedback regulation of cholesterol synthesis has been shown to be due to the failure of cholesterol ingestion to inhibit the activity of hydroxymethylglutaryl (HMG)-CoA reductase. The basis for this absence of feedback control of cholesterogenesis is unknown. Studies to date have not demonstrated structural or kinetic differences between the HMG-CoA reductase of normal liver and hepatoma. The present study, however, demonstrates significant differences in the activation state of HMG-CoA reductase from normal liver and hepatoma. In normal liver only approximately 10-20% of the microsomal HMG-CoA reductase is in the dephosphorylated, active form while 80-90% is in the phosphorylated, inactive state. In contrast, in three different Morris hepatomas in vivo, from 53 to 73% of the HMG-CoA reductase is in the active state. That the increased activation state in hepatomas is a property of tumor tissue and is not solely due to rapid growth is demonstrated by the fact that in both fetal and regenerating liver an enhanced activation state of HMG-CoA reductase is not observed. Additionally, preincubation with magnesium and ATP results in the inhibition of HMG-CoA reductase both in tumor and in liver. Presumably, this decrease in HMG-CoA reductase activity is due to the phosphorylation of the enzyme. Similarly, the preincubation of tumor and liver microsomes with phosphatase results in an increase in HMG-CoA reductase activity presumably by the dephosphorylation of the enzyme to its active form. The relationship between the altered activation state of HMG-CoA reductase in hepatomas and the reduction in the feedback regulation of this enzyme in liver tumors remains to be explored.     

Gangliosides depleted in plasma membrane are directed to internal membranes of rat hepatomas: evidence for a glycolipid sorting defect in hepatocarcinogenesis

Ganglioside compositions of plasma membrane fractions highly purified from rat liver and hepatomas by phase partitioning were compared with those of fractions composed of internal membranes, free of plasma membrane. With liver, 70-80% of the the lipid bound sialic acid were accounted for by a plasma membrane location. In hepatomas this percentage was reduced to 50-65%. More pronounced was the distribution of the simple monosialoganglioside GM3. In the hepatomas, 60-80% of the GM3 was found associated with internal membranes as compared to liver where only 35% of the GM3 was present in internal membranes. The findings suggest a glycolipid sorting defect in hepatocarcinogenesis where gangliosides, and especially monosialogangliosides, are diverted to internal membranes rather than being correctly transported to the cell surface. Since GM3 is synthesized exclusively in the Golgi apparatus of both liver and hepatomas, the basis for the sorting defect may reside in a functionally altered Golgi apparatus.