Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The two principal high-density lipoprotein apolipoproteins A-I and A-II are both initially synthesized as preproproteins. The prosegment of apo-A-I is unusual: it ends with paired glutamine residues and is removed extracellularly. The apo-A-II prosegment resembles the propeptides of prohormones and proalbumin: it ends with paired basic amino acids. We have studied the processing of proapo-A-II in a human hepatoma cell line (Hep G2) which is known to accurately and efficiently remove the prosegment from proalbumin prior to secretion. Pulse-chase experiments were performed in order to determine if the apo-A-II prosegment is removed prior to or after secretion. Apo-A-II was purified from cell lysates and media at various times during the chase and subjected to automated sequential Edman degradation. The results indicate that proteolytic processing of proapo-A-II is largely an extracellular event. These cells secrete the protease responsible for prosegment removal. The converting activity present in media is not blocked by serine protease inhibitors (phenylmethanesulfonyl fluoride, aprotinin, and furoyl saccharin) or by a metalloprotease inhibitor (o-phenanthroline). It is inhibited by the thiol protease reagents p-chloromercuribenezene-sulfonic acid and leupeptin. Prosegment removal changes the pI of the dominant apo-A-II isoform from 6.61 to 4.95. The presence of the propeptide does not prevent specific in vitro recombination of apo-A-II with high-density lipoprotein3 particles present in normolipemic serum. Extracellular processing after a single basic amino acid has been described for a variety of precursor proteins. Extracellular cleavage of the apo-A-II propeptide after paired COOH-terminal basic residues represents a novel processing pathway.
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PMID:Human proapolipoprotein A-II is cleaved following secretion from Hep G2 cells by a thiol protease. 609 78

The rat hepatoma cell line, H4-II-E, was grown serially over a 1-year period and about 30 passages in arginine-, glutamine-, and tyrosine-deprived and ornithine-supplemented Eagle's minimum essential medium with no supplements other than biotin. The adapted cell line, R-Y121B, proliferates in the above mentioned medium with a doubling time of about 4 days and maintains hepatic "marker" enzymes such as tyrosine aminotransferase, phenylalanine hydroxylase, and all the enzymes of the urea cycle.
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PMID:Continuous culture of Reuber hepatoma cells in serum-free arginine-, glutamine- and tyrosine-deprived chemically defined medium. 610 14

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.
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PMID:Negative correlation of L-glutamine concentration with proliferation rate in rat hepatomas. 614 11

On the basis of our observation of the increased specific activities of glutamine-utilizing enzymes in purine and pyrimidine metabolism in hepatoma 3924A, and because the concentration of glutamine is ten times lower in the hepatomas than in the liver, the biochemical pharmacology of the anti-glutamine agent, acivicin, was examined. (1) Acivicin competitively inhibited the activities of amidophosphoribosyl-transferase, CTP synthetase and carbamoyl-phosphate synthetase II from extracts of liver and hepatoma 3924A. (2) In addition to the competitive inhibition exerted by acivicin, evidence was obtained that this drug also irreversibly inactivated in vitro the glutamine-utilizing enzymes. It is particularly relevant for the selectivity of acivicin that the activity of aspartate carbamoyltransferase, an enzyme present in the same complex as carbamoyl-phosphate synthetase II, was not affected by the anti-glutamine agent. (3) Acivicin in vivo brought down the activities of glutamine-utilizing enzymes in a period of 10 min to 1 hr after injection. CTP synthetase activity declined to less than 10% of that observed in the uninjected rats. The decreases were not reversible by various in vitro methods, but in vivo the activities returned to normal range in 72 hr. (4) The activity of aspartate carbamoyltransferase, which exists as a multi-enzyme complex with synthetase II, was not altered by acivicin injection. Similar results were observed in transplantable sarcoma in the rat. (5) The acivicin-induced decrease in enzymic activities could not be restored by purification of the enzymes. (6) In vitro studies indicated that addition of acivicin to liver or hepatoma extracts or purified enzymes rapidly decreased enzymic activities; the activities could not be restored. These results are consistent with an interpretation that acivicin acts either as a tight-binding inhibitor or as an inactivator through alkylation of the enzymes of glutamine utilization. (7) Acivicin in combination with actinomycin provided a synergistic kill of hepatoma cells in tissue culture and also inhibited the growth of transplantable solid hepatoma 3924A in the rat. (8) The synergistic biological results of combination chemotherapy with acivicin and actinomycin can be accounted for by the action of acivicin in inhibiting GMP and CTP synthetases, resulting in a decrease in GTP and CTP content, and by the actinomycin-caused inhibition of RNA polymerase in selectively blocking the utilization of GTP and CTP.
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PMID:Multi-enzyme-targeted chemotherapy by acivicin and actinomycin. 618 Jun 9

The mechanism of action of acivicin and tiazofurin was compared in hepatoma 3924A. The results were evaluated by assessing the impact of these drugs on primary targets, the activities of key enzymes, and on secondary and tertiary targets, the concentrations of pools of ribonucleotides and deoxyribonucleotides. The action of acivicin entails inhibition and inactivation of the key enzymes of glutamine utilization in the biosynthesis of purines and pyrimidines. As a result, the GTP and CTP pools were markedly depleted, whereas those of ATP and UTP were unaffected. Acivicin also markedly decreased the concentrations of all 4 deoxynucleoside triphosphates. The nucleotide pools returned to normal or near normal range within 2 to 3 days after a single acivicin injection. The pharmacologic targets of acivicin in anticancer chemotherapy include prominently the activities of glutamine-utilizing enzymes and the pools of GTP and CTP and all 4 dNTP's. These biochemical targets also serve as indicators of acivicin action in cancer cells. The action of tiazofurin in hepatoma cells entails the primary target, IMP dehydrogenase. The subsequent effects include marked enlargement of IMP and PRPP pools and depletion of the pools of GDP and GTP. The increased IMP concentration selectively inhibited the activities of hypoxanthine-guanine phosphoribosyltransferase, but did not affect that of adenine phosphoribosyltransferase. The markedly decreased GTP pool de-inhibited the activity of AMP deaminase which permitted the channeling of AMP to IMP. An important indicator of tiazofurin action is the prolonged depletion of dGTP pools and similar but less pronounced declines in the pools of dCTP and dATP. In contrast, dTTP pools were increased. The crucial biochemical targets and indicators of tiazofurin action in sensitive cancer cells include inhibition of IMP dehydrogenase, a decrease in the concentrations of GDP, GTP, dGTP, dCTP, dATP and marked rise in the pools of IMP, PRPP and dTTP. Measurements of the molecular targets and indicators of drug action should be helpful in identifying cancer cells and tissues sensitive or resistant to the action of acivicin or tiazofurin. Identification of the targets and indicators should also be helpful in the design of frequency of administration of the drugs in combatting animal and human neoplasia.
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PMID:Control of enzymic programs and nucleotide pattern in cancer cells by acivicin and tiazofurin. 620 92

The behavior of the activities of GMP synthetase (xanthosine-5'-phosphate: L-glutamine amino-ligase(AMP-forming),EC 6.3.5.2) and GMP kinase (ATP: (d)GMP phosphotransferase,EC 2.7.4.8) was elucidated in cytosol preparations of rat tissues, including fetal, neonatal and regenerating liver, in a transplantable kidney tumor, and in a spectrum of 11 hepatomas of different growth rates. GMP kinase activity was 60-fold or more higher than GMP synthetase activity in all of the examined tissues. GMP synthetase activity was increased in all hepatomas and in the kidney tumor, compared to control tissues, reaching 5.5-fold the normal liver values in the most rapidly growing hepatoma. This increase correlated with the tumor growth rates. GMP kinase activity showed no consistent pattern of alteration in the tumors. In both fetal and neonatal rat liver the activity of GMP synthetase was 2.5-times higher than in livers of adult rats, but GMP kinase activity did not change markedly during liver development. After partial hepatectomy GMP synthetase activity was elevated, reaching a peak of 155% of the sham-operated control values by 36 h after the operation. GMP kinase activity was not affected by partial hepatectomy. After 3 days starvation hepatic GMP kinase activity decreased slightly faster than total cytosol protein, while GMP synthetase activity was preferentially maintained. These results indicate that GMP synthetase activity was linked with cellular proliferation in differentiating, regenerating and neoplastic tissues.
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PMID:Guanosine-5'-phosphate synthetase and guanosine-5'-phosphate kinase in rat hepatomas and kidney tumors. 626 Feb 5

In contrast to the changes seen in membrane transport systems for other neutral, anionic, and cationic amino acids, System N for glutamine, histidine, and asparagine in the rat hepatocytes shows nearly constant properties at the fetal, differentiated, and cultured hepatoma stages. These properties were tested by measuring the Na+-dependent transport of glutamine. This approximate constancy applies not only to the transport selectivity of the system among neutral amino acids, but also to its tolerance of Li+ as a substitute for Na+, its characteristic sensitivity to pH lowering, its relative sensitivity to N-ethylmaleimide, its stimulation by amino acid deprivation, and its failure to respond to insulin or glucagon. The properties of histidine as a substrate for System N were also examined. Inhibition studies with different cell types suggest that the Na+-dependent glutamine and histidine uptake is more restricted to System N in the hepatoma line H35 (H4-11-EC,3) and in the fetal hepatocyte than in hepatoma line HTC and the Ehrlich cells. The Na+-independent component of glutamine and histidine uptake was greater in the hepatoma cells in continuous culture than in fetal and adult hepatocytes in primary culture. Trans-stimulation of glutamine and histidine influx into H35 cells occurs predominantly by the Na+-independent route.
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PMID:Comparison of system N in fetal hepatocytes and in related cell lines. 630 40

The role and behavior of the salvage enzymes in the biosynthesis of purines (adenine and hypoxanthine-guanine phosphoribosyltransferases) and pyrimidines (uridine-cytidine, deoxycytidine and thymidine kinases) were elucidated. In liver purine metabolism the transferase activities were orders of magnitude higher than the activities of the enzymes of de novo biosynthesis. In both purine and pyrimidine biosynthesis the activities of the enzymes of the de novo pathways were low (23 pmol to 70 nmol/hr/mg protein), whereas those of salvage synthetic pathways ranged from 0.8 to 1,470 nmol/hr/mg protein. In purine metabolism the salvage enzymes had markedly higher affinity to the shared substrate PRPP (4 to 40 microM) than the rate-limiting enzyme of de novo synthesis, amidophosphoribosyltransferase (900 microM). In rapidly growing hepatoma 3924A the activities of the enzymes of de novo purine biosynthesis increased, whereas those of the salvage pathway changed little. However, the activities of the enzymes of the salvage pathways remained much higher than those of the enzymes of de novo purine production. In pyrimidine production in the hepatomas the activities of both de novo and salvage enzymes markedly increased. However, the activities of the salvage enzymes far outstripped those of the enzymes of the de novo pathways. To inhibit the operation of the salvage pathways, the action of the transport inhibitor, dipyridamole, was examined. In tissue culture, dipyridamole inhibited the transport of purine and pyrimidine nucleosides with an IC50 of 10(-6) or 10(-7) M. As measured by colony-forming assay, dipyridamole killed hepatoma cells with an IC50 of 20 microM. Dipyridamole markedly depressed the pools of ATP, GTP, CTP and UTP; in combination chemotherapy with acivicin, an anti-glutamine agent, synergistic action was observed on the pools of nucleotides in hepatoma 3924A in vivo. These investigations emphasize the importance of the capacity to utilize precursors by the salvage enzymes and may explain, in part at least, the failure of inhibitors of the de novo pathways to yield lasting chemotherapeutic results. Combination chemotherapy of inhibitors of the de novo pathways with an inhibitor of the salvage pathways (dipyridamole) should impact on our understanding of the contribution of salvage pathways and provide a rational basis for successful combination chemotherapy of neoplastic diseases.
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PMID:Salvage capacity of hepatoma 3924A and action of dipyridamole. 644 95

The AS-30D rat hepatoma cell line is characteristic of that class of rapidly growing tumors which exhibit high rates of aerobic glucose utilization and lactic acid production (Bustamante, E., Morris, H.P., and Pedersen, P.L., J. Biol. Chem., 256: 8699-8704, 1981). In this study, we have examined the coupling properties of the mitochondria in intact AS-30D hepatoma cells and the relative contributions of cytoplasmic (glycolytic) and mitochondrial compartments to total cellular ATP production in the presence of glucose and glutamine. All respiration in AS-30D cells was inhibited by inhibitors of mitochondrial electron transport, ruling out significant rates of respiration from other cellular components. Moreover, cellular respiration was found to be coupled to phosphorylation of ADP, as demonstrated by its inhibition by oligomycin and aurovertin, inhibitors of the mitochondrial ATP synthetase (F0F1-ATPase). When intact cells were supplied with glucose as the only added energy source, it was estimated that about 60% of the total cell ATP was derived from glycolysis and 40% from oxidative phosphorylation. Addition of physiological concentrations of glutamine in the presence of glucose had little effect on the relative contributions of glycolysis and oxidative phosphorylation to total cellular ATP production. In the absence of added glucose, glutamine alone could maintain the same ATP production rates by supporting mitochondrial oxidative phosphorylation. It is concluded that, in the AS-30D hepatoma cell line, glucose is the preferred energy source, with the larger portion of ATP production being supplied by glycolytic reactions. Although oxidative substrates such as glutamine can replace glucose in maintaining total cell ATP production, they do not appear to be the major fuel sources when hepatoma AS-30D cells are exposed to concentrations of substrates which occur in vivo.
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PMID:Contributions of glycolysis and oxidative phosphorylation to adenosine 5'-triphosphate production in AS-30D hepatoma cells. 649 33

The behavior of phosphoribosylformylglycinamidine ( FGAM ) synthetase (EC 6.3.5.3) activity was elucidated in normal and proliferating tissues and in murine and human neoplasms. Enzymic activity was measured in the 100,000 X g crude supernatant fluid prepared from tissue homogenates. The assay was based on coupling FGAM produced to diazotizable aminoimidazole ribonucleotide. In the crude extracts of normal rat liver and hepatoma 3924A, the apparent KmS of FGAM synthetase for formylglycinamide ribonucleotide, adenosine triphosphate and L-glutamine were 0.06, 1.5, and 0.03 mM, respectively. The liver and hepatoma 3924A FGAM synthetases were saturated at formylglycinamide ribonucleotide, adenosine triphosphate, and L-glutamine concentrations of 0.1, 7.0, and 0.5 mM, respectively; both enzymes had a pH optimum of 7.4. In the liver of normal adult rats, the FGAM synthetase activity was 7.2 to 10.7 nmol/hr/mg protein. The synthetase specific activity in hepatomas of slow and medium growth rates increased 1.2- to 2.2-fold, and in rapidly growing hepatomas it was elevated 3.2- to 5-fold over the values of the respective control normal livers. There was a positive correlation between the increase in synthetase activity and hepatoma proliferation rate. In rat tissues of high cell renewal activity, thymus, spleen, and testis, synthetase specific activity was 7.0-, 3.9-, and 3.3-fold higher than that of normal liver. In the 24- and 48-hr regenerating liver, FGAM synthetase specific activity was increased by 1.2- and 1.5-fold, respectively. In 5-day-old differentiating liver, specific activity was 202% of the adult value; when data were expressed per average cell, the activity was 55% of that of the adult liver. The markedly increased activity in the rapidly proliferating hepatomas appears to be more characteristic of neoplastic growth than of normal liver proliferation. FGAM synthetase activity was also increased in human renal cell carcinoma and hepatocellular and colon carcinomas to 1.4-, 2.7-, and 3.8-fold of the activity of the respective homologous normal and host tissues. The synthetase activity in the rapidly proliferating murine Lewis lung carcinoma was 9.6-fold that of the normal lung. The increased activity of FGAM synthetase should confer selective advantages to the cancer cells and marks this glutamine-utilizing enzyme as a potentially important target in the design of chemotherapy.
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PMID:Proliferation-linked increase in phosphoribosylformylglycinamidine synthetase activity (EC 6.3.5.3). 672 84


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