Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

1. Plasma membranes were isolated from ascites hepatoma AH-130 and rat livers with or without partial hepatectomy or bile duct ligation. Reciprocal manifestations of two marker enzymes for plasma membranes were observed in these membrane preparations; alkaline phosphatase activity was found much higher in the hepatoma membrane than in any preparations of the liver membranes, whereas 5'-nucleotidase activity was much lower in the former than in the latter. 2. Effects of lectins and anti-plasma membrane antiserum on these two marker enzymes were examined. The results showed that about 50% of apparent activity of 5'-nucleotidase found in the hepatoma membrane was exhibited by alkaline phosphatase. 3. Localizations of alkaline phosphatase and 5'-nucleotidase in polyacrylamide gels after electrophoresis were demonstrated using 5'-AMP and 5-Br, 4-Cl-indoxylphosphate as substrate. There was a difference in electrophoretic mobility between the alkaline phosphatase of the hepatoma and that of the liver.
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PMID:Contrast manifestation of alkaline phosphatase and 5'-nucleotidase in plasma membranes isolated from rat liver and ascites hepatoma. 2 Sep 52

Alkaline phosphatase was purified from plasma membranes of rat ascites hepatoma AH-130, the homogenate of which had 50-fold higher specific activity than that found in the liver homogenate. The presence of Triton X-100, 0.5%, was essential to avoid its aggregation and to stabilize its activity. The purified enzyme, a glycoprotien, was homogeneous in polyacrylamide gel electrophoresis. Polyacrylamide gel electrophoresis in sodium dodecyl sulfate indicated a protein molecular weight of 140,000. The addition of beta-mercaptoethanol caused the dissociation of the alkaline phosphatase into two subunits of identical molecular weight, 72,000. Isoelectric focusing revealed that the pI of this enzyme is 4.7. The pH optimum for the purified enzyme was 10.5 or higher with p-nitrophenylphosphate, and slightly lower pH values (pH 9.5--10.2) were obtained when other substrates were used. Of the substrates tested, p-nitrophenylphosphate (Km-0.3 mM) was most rapidly hydrolyzed. Vmax values of other substrates relative to that of p-nitrophenylphosphate were as follows; beta-glycerophosphate, 76%; 5'-TMP, 82%; 5'-AMP, 62%; 5'-IMP, 43%; glucose-6-phosphate, 39%; ADP, 36% and ATP, 15%. More than 90% of the activity of the purified enzyme was irreversibly lost when it was heated at 55 degrees C for 30 min, or exposed either to 10 mM beta-mercaptoethanol for 10 min to 3 M urea for 30 min, or to an acidic pH below pH 5.0 for 2 h. Of the effects by divalent cations, Mg2+ activated the enzyme by 20% whereas Zn2+ strongly inhibited it by 95% at 0.5 mM. EDTA at higher than 1 mM inactivated the enzyme irreversibly, although the effect of EDTA at lower than 0.1 mM was reversible by the addition of divalent cations, particularly by Mg2+. The enzyme was most strongly inhibited by L-histidine among the amino acids tested, and also strongly inhibited by imidazole. These results suggest that alkaline phosphatase of rat hepatoma AH-130 is very similar to that of rat liver in most of the properties reported so far.
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PMID:Purification and characterization of alkaline phosphatase from plasma membranes of rat ascites hepatoma. 2 78

Plasma membranes isolated from Yoshida ascites hepatoma AH-130 by a modification of the method of T.K. Ray (Biochim. Biophys. Acta 196:1, 1970), were subfractionated into three fractions having densities (d) 1.12, 1.14 and 1.16 by discontinuous sucrose density-gradient. Membrane subfractions were characterized by electron-microscopy, by assay of marker enzymes and by lipid composition. All subfractions appeared to be essentially free from whole mitochondria, lysosomes and nuclei. Subfraction d 1.16 had the highest 5'-nucleotidase, Mg++-ATPase and (Na+ +K+)-ATPase activities; cytochrome c oxidase was undetectable in any fraction and glucose-6-phosphatase was measurable only in fraction d 1.14 and 1.16. Cyclic AMP phosphodiesterase was nearly equally distributed in the fractions. Adenylate cyclase, 5'-nucleotidase and Mg++-ATPase activities of tumor membrane were lower with respect to liver plasma membrane, while cyclic AMP phosphodiesterase and (Na" +K+)-ATPase were found to have similar activities in the two membrane preparations. With respect to liver membrane, hepatoma membrane contained a higher amount of glycolipids and a higher amount of phospholipids accounted for mainly by sphingomyelin, phosphatidylserine and phosphatidic acid. The possible significance of the decrease of adenylate activity in the hepatoma membrane is briefly discussed.
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PMID:Isolation and characterization of the plasma membrane from Yoshida hepatoma cells. 16 55

Adenylate cyclase systems were examined in purified membrane preparations from normal rat liver and several Morris hepatomas with differing growth rates. All tumor membrane preparations had lower relative specific activities than did liver preparations. Liver adenylate cyclase was stimulated by fluoride, glucagon and guanyl-5'-yl imidodiphosphate [Gpp(NH)p]. Membranes from two slow-growing hepatomas (hepatomas 20 and 21) contained adenylate cyclase activities which are also stimulated by each of these three modulators. Membrane adenylate cyclases from several fast-growing hepatomas (hepatomas 3924A, 7777, 5123tc, and 9618A2) were marginally stimulated by glucagon but were readily stimulated by fluoride and Gpp(NH)p. Examination of the highly specific binding of 125I-glucagon to the various membrane preparations revealed much less binding in all the tumor membranes than in liver membranes. More detailed kinetic examination of membranes prepared from liver, slow-growing hepatoma 21 (which had reasonable binding to and stimulation by glucagon), and fast-growing hepatoma 3924A (which had marginal binding to and stimulation by glucagon) revealed major differences in rates of cyclic adenosine 3':5'-monophosphate production in the absence and presence of glucagon, Gpp(NH)p, and glucagon plus Gpp(NH)p and in the combined alteration of magnesium:adenosine 5'-triphosphate ratio and temperatures. The different kinetic characteristics in the hepatoma adenylate cyclase systems may be due to different structural characteristics of the tumor membranes or may be due to altered hormonal receptors, catalytic units, or receptor-catalytic unit interrelationships within the tumor membrane.
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PMID:Regulation of the adenylate cyclase system in transplantable hepatomas. 17 31

The effects of prostaglandins on adenylate cyclase activity have been examined in membranes purified from normal rat liver and from a series of Morris hepatomas. Prostaglandin E1 gave the greatest stimulation (up to two-fold) in all membranes. However, prostaglandins A1, A2, and F2alpha, although stimulatory in liver and four tumor membranes, were inhibitory of adenylate cyclase activity in membranes from two of the fast-growing tumors. Arrhenius plots yielded broken line curves (at 20 degrees C) for the basal activity of all enzymes. Addition of various prostaglandins caused shifts in the broken line curves and/or produced nonbroken (straight) line curves for the liver and many of the hepatoma adenylate cyclases.
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PMID:Effect of prostaglandins on adenylate cyclase activities in membranes from liver and transplantable hepatomas. 18 16

Specific activity and level of polynucleotide phosphorylase (PNPase) in polyribosomes of regenerating liver of adult rats, liver of newborn rats and in malignant tumours of rat (sarcoma M-1 and hepatoma 27) were studied. 24 hours after partial hepatectomy the specific activity and level of PNPase in regenerating liver decreased 3--4 times in the fraction of polyribosomes, bound to the endoplasmic reticulum membranes, and remained at a constantly low level in the fraction of free polyribosomes. The PNPase activity also showed a sharp decrease in the fraction of membrane-bound polyribosomes from newborn rats liver and could not be detected either in free or in bound polyribosomes from sarcoma M-1 or hepatoma 27. The PNPase activity in the fraction of bound polyribosomes increased with a decrease in the rate of liver growth (regenerating liver and newborn rats liver), and reached the level normal for adult animals. Possible mechanisms of regulation of the PNPase activity in animal tissue were studied. It was found that a 2-fold administration of cyclic 3,5'-AMP to intact animals (5 mg per 100 g of body weight) with an interval of 8 hours, corresponding to the interval between two peaks of the increase in cyclic 3,5'-AMP concentration following partial hepatectomy, diminished the PNPase specific activity in polyribosomes by 30%. A factor, presumably of protein origin, which induced a release of PNPase from polyribosomes of normal rat liver but did not affect the activity of the liberated enzyme, was detected in the cell sap of sarcoma M-1 and hepatoma 27.
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PMID:[The activity of polynucleotide phosphorylase in polyribosomes of regenerating liver of adult rats, liver of newborn rats and in some reinoculated tumours]. 19 Nov 6

The interaction of Ca2+ with Morris hepatoma 3924A mitochondria and its effect on the adenine nucleotide translocation have been studied. The characteristics of the Ca2+ transport process in mitochondria from Morris hepatoma are not significantly different from those of normal liver mitochondria. The Km for Ca2+ is 2 to 3 microM, and the rate versus concentration curve exhibits hyperbolic kinetics. A lower activity of the adenine nucleotide translocation was found, probably due to the high endogenous Ca2+ content of Morris hepatoma mitochondria (123 +/- 15 nmol Ca2+ per mg protein). No further inhibition of the translocase activity was observed after isolated mitochondria had accumulated extra amounts of Ca2+. The total amount of adenine nucleotides in tumor mitochondria is one-half those present in control liver, and a significantly lower percentage of the pool is present as adenosine 5'-monophosphate.
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PMID:Calcium transport and translocation of adenine nucleotides in mitochondria from Morris hepatoma 3924A. 44 77

The activity of acetyl-CoA carboxylase (ACC), a rate-limiting enzyme of fatty acid biosynthesis and malonyl-CoA production, can be regulated by several mechanisms, including multisite covalent phosphorylation, both in vitro and in intact cells. Evidence has been presented by others to indicate that a 5'-AMP-activated protein kinase (AMPK) is likely the major regulatory kinase active on ACC. While insulin is known to activate ACC in several cell types, accompanied by changes in ACC phosphorylation, the mechanism underlying this activation has been obscure. In the present study, we have examined, in Fao hepatoma cells, the effects of insulin on ACC and AMPK activity, the latter measured with a synthetic peptide corresponding to one of the phosphorylation sites on ACC for AMPK. Our results show that insulin leads to inhibition of kinase activity prior to the onset of ACC activation; the peak of maximal kinase inhibition (approximately 35% at 10 min) is seen to precede the onset of ACC activation (20 min). The inhibition of kinase activity due to insulin is observed both in the absence and presence of varying stimulating concentrations of added 5'-AMP. Both kinase inhibition and ACC activation display similar insulin sensitivity (A50 0.3 nM). Preservation of this insulin-induced kinase inhibition requires the presence of protein phosphatase inhibitors in the cell lysis buffer, suggesting that AMPK itself might be regulated by insulin-stimulated changes in kinase phosphorylation. Taken together, these data are consistent with the hypothesis that the 5'-AMP-activated protein kinase is a regulated component of the insulin signal transduction pathway and may be the major target for insulin regulation of ACC.
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PMID:Insulin activation of acetyl-CoA carboxylase accompanied by inhibition of the 5'-AMP-activated protein kinase. 134 11

Acetyl-CoA carboxylase (ACC) can be regulated in vitro via phosphorylation by a 5'-AMP-activated protein kinase. A potential intracellular role for this kinase has been studied in the Fao hepatoma cell by manipulating the intracellular adenine nucleotide pool with ATP-depleting agents. Three different ATP depletors, antimycin A, dinitrophenol, and sodium azide, all promote the rapid loss of ACC activity characterized by a marked reduction in enzyme Vmax, abolition of citrate-independent activity, an increase in the Ka for citrate and a reduction in the mass of a complex between the two major ACC isozymes. These effects persist through enzyme purification on monomeric avidin-Sepharose and are accompanied by an increase in 32P-content, both consistent with depletor-induced covalent enzyme modification. The effects of ATP depletors in intact cells are mimicked in vitro on phosphorylation of ACC by the 5'-AMP-activated protein kinase and are reversible on dephosphorylation. These data indicate that ACC activity is sensitive to the intracellular adenylate charge, but that changes in the state of enzyme phosphorylation, rather than direct allosteric regulation by adenine nucleotides, underly this mode of enzyme control. This kinase-mediated modulation provides a mechanism for altering the rate of fatty acid synthesis and, secondarily, fatty acid oxidation, depending on the rate of ATP generation from carbohydrate-derived precursors in several tissues in vivo.
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PMID:Regulation of intracellular acetyl-CoA carboxylase by ATP depletors mimics the action of the 5'-AMP-activated protein kinase. 168 96

We had reported the existence of 2'-5'P3A3 receptor on the peritoneal macrophages from Wistar rat. In this paper data are given to demonstrate that the ligand, for binding with 2'-5'P3A3 receptor and enhancing the phagocytosis of macrophages, must have a three-phosphate radical on its 5'-terminus and at least three adenylate residues in 2'-5'oligoadenylate. (3H)-2'-5'P3A3 can also bind on macrophages from other animals; and the binding of (3H)-2'-5'P3A3 on Hepatoma cell line 7402 is lower than that on macrophages; whereas it is very low (binding ratio less than 1%) on erythrocytes (from rabbit, rat and mouse) or human embryo lung fibroblast cells. The binding conditions of the ligand with 2'-5'P3A3 receptor have also been investigated.
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PMID:Mechanism of interferon action--structural requirement of ligand and cellular specificity. 242 54


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