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)

Previously, we reported that the rate of metabolism of methyl sterol intermediates of cholesterol biosynthesis by broken-cell preparations of Morriss hepatoma 7777 is very slow, whereas the intact tumors are known to synthesize cholesterol quite efficiently. Active preparations have now been obtained by substitution of pyrophosphate for phosphate buffer. Although substitution of pyrophosphate buffer markedly enhances microsomal methyl sterol demethylation rates 3- to 4-fold in hepatoma 7777, other microsomal enzymes and electron carriers in either liver or a more slowly growing hepatoma appear to be unaffected by pyrophosphate. Several properties of the active microsomal methyl sterol demethylase have now been compared for control rat liver, host liver, tumor 7777, and tumor 5123C. Conditions necessary for the assay of initial velocities of enzymic reactions in the tumor microsomes have been established with respect to the amount of protein, time-course, concentrations of cofactors and substrate, pH, and other variables. The K'm and the responses to the variables studied above are very similar for methyl sterol demethylase of microsomes isolated from control liver, host liver, tumor 5123C, and tumor 7777. The multienzymic demethylase in the various preparations has been found to be inhibited similarly by in vitro additions of cyanide, cytochrome c, and bile salts. Thus, the enzymes of the microsomal-bound 4-methyl sterol demethylase of cholesterol biosynthesis appear to be very similar in liver and these 2 Morris hepatomas. When xenobiotic inducers of microsomal oxidases, such as phenobarbital and methylcholanthrene, are administered to normal and tumor-bearing rats, elevated rates of methyl sterol demethylation are observed with isolated liver microsomes obtained from both normal and tumor-bearing rats. Similar increases are not observed in the tumors. Furthermore, daily administration of an intestinal bile acid sequestrant elevates hepatic methyl sterol demethylase, but statistically significant changes were not observed in tumors 7777 and 5123C. Since the enzymes of methyl sterol demethylase appear to be grossly similar in liver and these hepatomas, regulation of the activity of the multienzymic system contained in the tumors may be altered. On the other hand, these agents in vivo simply may not affect liver and the hepatomas similarly, due to a lack of uptake of the foreign substances by the tumor that has been transplanted to the thighs.
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PMID:Characterization of microsomal methyl sterol demethylase in two Morris hepatomas. 17 91

The activity of the malate-aspartate shuttle for the reoxidation of cytoplasmic reduced nicotinamide adenine dinucleotide (NADH) by mitochondria was assessed in six lines of rodent ascites tumor cells (two strains of Ehrlich ascites carcinoma, Krebs II carcinoma, Novikoff hepatoma, AS-30D hepatoma, and L1210 mouse leukemia). All the tumor cells examined showed mitochondrial reoxidation of cytoplasmic NADH, as evidenced by the accumulation of pyruvate when the cells were incubated aerobically with L-lactate. Reoxidation of cytoplasmic NADH thus generated was completely inhibited by the transaminase inhibitor aminooxyacetate. The involvement of the respiratory chain in the reoxidation of cytoplasmic NADH was demonstrated by the action of cyanide, rotenone, and antimycin A, which strongly inhibited the formation of pyruvate from added L-lactate. Compounds that inhibit the carrier-mediated entry of malate into mitochondria, such as butylmalonate, benzenetricarboxylate, and iodobenzylmalonate, also inhibited the accumulation of pyruvate from added L-lactate by the tumor cells. The maximal rate of the malate-aspartate shuttle was established by addtion of arsenite to inhibit the mitochondrial oxidation of the pyruvate formed from added lactate. The capacity of the various tumor lines for the reoxidation of cytoplasmic NADH via the malate-aspartate shuttle approaches 20% of the total respiratory rate of the cells and thus appears to be sufficient to account for the mitochondrial reoxidation of that fraction of glycolytic NADH not reoxidized by pyruvate and lactate dehydrognenase in the cytoplasm.
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PMID:Occurrence of the malate-aspartate shuttle in various tumor types. 17 6

The changes in water and electrolyte content of slices of Morris hepatoma 3924A induced by various conditions of incubation have been compared with the ultrastructural appearance of the tissue. Incubation at 1 degrees led to an increase of water, Na+, and Cl- content and to a loss of K+. There was simultaneous increase in size of the cells and intercellular spaces, loss of junctional complexes, increase in the number of microvilli, and fragmentation and dilation of the cytocavitary network. Subsequent incubation at 38 degrees in oxygenated medium led to a substantial reversal of all of these changes of composition and structure, which was well advanced within 10 min and largely complete by 60 min. The presence of 20 mM glucose in the medium somewhat enhanced the degree of recovery. A reduction of cell volume and intercellular spaces was evident both from the electron microscopic observations and measurements of the volume of inulin distribution. The presence of ouabain inhibited the net accumulation of K+ and much of the Na+ extrusion, but permitted about 50% of the net extrusion of water (accompanied by Na+ and Cl-) and had little effect on the ultrastructural recovery. The presence of glucose increased the resistance of volume and structural recovery of ouabain without releasing the inhibition of K+ accumulation. A marked feature of the recovering tissues was the Golgi apparatus, which assumed an appearance suggestive of increased activity when water extrusion was active. In slices using only endogenous substrate, cyanide and (to a lesser extent) oligomycin greatly inhibited the recovery of volume and structure. The presence of glucose permitted some recovery in the presence of cyanide. The control of cell volume in hepatoma 3924A appears to involve two separate components of water transport, one of which is sensitive, and one insensitive to ouabain. The ouabain-insensitive component appears to be especially related to the recovery of cell ultrastructure after incubation at 1 degrees, to be more sensitive to paucity of adenosine 5'-triphosphate, and to proceed by secretion of water, Na+, and Cl- into vesicles that fuse with the Golgi apparatus. This mechanism may be related to that for bile secretion in normal liver. The ouabain-sensitive component of water transport is a function of the mechanism for the coupled transport of Na+ and K+.
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PMID:The metabolism-dependent maintenance of cell volume and ultrastructure in slices of Morris hepatoma 3924A. 18 26

The effects of various agents on the binding and degradation of 125I-labelled insulin by isolated rat hepatocytes and cultured H4 hepatoma cells were studied. Various lysosomotropic agents, including chloroquine, ammonium chloride, and the topical anesthetics, lidocaine and procaine inhibited insulin degradation by H4 hepatoma cells but had little effect on the binding of the hormone. Similarly, tosyl-L-lysyl chloromethyl ketone selectively inhibited the degradation of 125I-labelled insulin by isolated hepatocytes, as did the sulfhydryl reagents, p-hydroxy- and p-chloromercuriphenyl sulfonic acid. Inhibitors of energy production, including sodium fluoride, sodium azide, and dinitrophenol, also selectively inhibited the degradation of insulin by hepatocytes, although cyanide had no effect under the conditions used. Lectins and antimicrotubular agents, which are known to affect the mobility of plasma membrane proteins or of intracytoplasmic vesicles, selectively inhibited insulin degradation by hepatocytes to varying degrees, whereas agents which inhibit the function of microfilaments had no effect. At temperatures below 20 degrees C, insulin degradation was negligible but rose rapidly between 20 and 37 degrees C, suggesting that a membrane-related step is rate limiting in the overall degradative process. These results are all consistent with a model of insulin uptake by target tissue involving pinocytosis of receptor-bound hormone followed by intralysosomal degradation.
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PMID:Mode of uptake and degradation of 125I-labelled insulin by isolated hepatocytes and H4 hepatoma cells. 47 1

Biochemical and morphological studies compared the ATP requirements for and the internalization routes of alpha 2-macroglobulin and insulin in H35 hepatoma cells. Cellular ATP concentrations were decreased more than 94% by 1 mM 2,4-dinitrophenol or 10 mM sodium azide, potassium cyanide, or oligomycin. ATP depletion decreased total cell-associated alpha 2-macroglobulin 70-90% by inhibiting binding 67-77% and receptor-mediated internalization 90-96%. Under the same conditions, insulin binding was decreased less than 10%, and endocytosis and intracellular accumulation were not affected. Quantitative electron microscopic analysis of the distribution of occupied receptors on the surface of control and treated cells was performed using colloidal gold-labeled alpha 2-macroglobulin or insulin. alpha 2-Macroglobulin concentrated in and was internalized almost exclusively by coated pits. Insulin was rarely associated with coated pits, but was found in and internalized by noncoated invaginations. ATP depletion did not affect receptor mobility or ligand-induced aggregation of either receptor. There was an increase in the amount of alpha 2-macroglobulin found in coated pit-like structures. The coat underlying pits in ATP-depleted cells was poorly defined and may account for the inability of coated pits to form and/or internalize. These results showed that receptor-mediated internalization via coated pits was ATP dependent, whereas internalization via pinocytotic invaginations was energy independent, which explained the difference in the ATP dependency of uptake for the two ligands. These observations suggested that autophosphorylation of the insulin receptor may not be involved in either the aggregation or internalization of the insulin-receptor complex, since ATP depletion did not affect either process. This study provided evidence that specialized mechanisms exist for the internalization of insulin which may be related to some of its intracellular effects.
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PMID:Differences in adenosine triphosphate dependency of receptor-mediated endocytosis of alpha 2-macroglobulin and insulin correlate with separate routes of ligand-receptor complex internalization. 168 53

Rat HTC hepatoma cells were used to characterize the biosynthesis and processing of the renal isoenzyme of the mitochondrial glutaminase. Immunoblot analysis indicated that mitochondria isolated from HTC cells contained two prominent glutaminase peptides of 68 and 65 kDa and two minor peptides of 61 and 58 kDa. When the cells were labelled with [35S]methionine, the glutaminase-specific antibodies precipitated the same four polypeptides. However, when labelled in the presence of 5 microM-carbonyl cyanide m-chlorophenylhydrazone, an uncoupler of oxidative phosphorylation, only a 72 kDa cytoplasmic precursor of the mitochondrial glutaminase was immunoprecipitated. A comparison of the peptides generated by partial proteolysis of the precursor and the fully processed peptides indicates significant structural similarity. A 71 kDa form of the glutaminase was also observed when HTC cells were pulse-labelled for 2-6 min with [35S]methionine. Pulse-chase experiments indicate that the cytoplasmic precursor is quantitatively converted into the mature forms of the glutaminase. In addition, the observed kinetics established that the 71 kDa peptide is a true intermediate in the import of the mitochondrial glutaminase.
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PMID:Biosynthesis and processing of mitochondrial glutaminase in HTC hepatoma cells. 199 Oct 24

The mechanism controlling insulin accumulation in nuclei of H35 hepatoma cells was investigated by incubating intact cells with 125I-labeled insulin in the presence or absence of agents that perturb different intracellular sites involved in the processing of ligand-receptor complexes. Purified nuclei were isolated, and nuclear-associated 125I-insulin was determined. Insulin accumulation in the nuclei was time and temperature dependent. Nuclear accumulation was linear and insulin-concentration dependent between 5 and 50 ng insulin/ml. However, pharmacological concentrations of insulin increased the amount of insulin translocated to the nucleus to a far greater extent than it increased total cell-associated insulin. Chloroquine, an acidotrophic agent, increased total cell-associated and intracellular insulin but had no effect on nuclear accumulation. The monovalent ionophores monensin and nigericin inhibited nuclear accumulation of insulin at low concentrations (0.5-5.0 microM) without affecting total insulin binding or intracellular accumulation. At 10 or 25 microM, monensin and nigericin also acted as acidotrophic agents and increased total insulin binding and intracellular accumulation but inhibited nuclear accumulation by a maximum of 50%. Low concentrations of monensin and nigericin were additive; maximal concentrations were not. A 23187 and valinomycin did not affect insulin binding or intracellular and nuclear accumulation of insulin. Neither depletion of ATP by sodium azide, 2,4-dinitrophenol, sodium cyanide, or oligomycin nor disruption of cytoskeletal elements by cytochalasin D or colchicine had any effect on nuclear accumulation of insulin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Partial characterization of mechanism of insulin accumulation in H35 hepatoma cell nuclei. 216 68

Alkaline phosphatase activity in rat hepatoma cells (R-Y121B) cultured in a monolayer at 0.5% serum was enhanced by serum, bovine serum albumin, casein and gamma-globulin, but ovalbumin, polyvinylpyrrolidone, dexamethasone, insulin and dibutyrylcyclic AMP showed little effect on alkaline phosphatase activity. In addition, cycloheximide, actinomycin D, chloroquine, dinitrophenol and potassium cyanide also increased the enzyme activity, although the incorporation of [14C]leucine into cellular proteins was almost completely inhibited in the presence of these cytotoxic substances. When R-Y121B cell homogenates were incubated at 37 degrees C, alkaline phosphatase activity increased in a pH-dependent manner: the maximal increase was observed at pH 7.1. The magnitudes of the increase differed among cell homogenates and a 4- to 10-fold increase was observed. Alkaline phosphatase in R-Y121B cells was apparently heat-stable, but that in the cells obtained from various treatments was heat labile and the latter activity decreased to less than 50% of the initial activity after 15 min of incubation at 56 degrees C. Alkaline phosphatase in the control and also in the treated cells was more sensitive to L-homoarginine than L-phenylalanine. The Lineweaver-Burk plot showed that the increases in the enzyme activity were accompanied by changes not only in V but also in Km for alkaline phosphatase reaction. Finally, it has been suggested that the increases in alkaline phosphatase activity under various conditions are due to the conversion of the molecule with a low enzyme activity to the molecule with a high enzyme activity in R-Y121B cells.
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PMID:Regulation of alkaline phosphatase activity in rat hepatoma cells. Effects of serum proteins, cycloheximide, actinomycin D, chloroquine, dinitrophenol and potassium cyanide. 241 85

(1) The activities of peroxisomal beta-oxidation and palmitoyl-CoA hydrolase in Morris hepatoma 7800 C1 cells were studied. The cells were grown until they reached steady state (constant DNA content per dish) and then were cultured in the presence of fatty acids or alkylthioacetic acids, i.e., S-substituted fatty acid analogues. (2) The fatty acid analogues increased the activity of the cyanide-insensitive palmitoyl-CoA oxidase several-fold. The effect was dose-dependent; 5 microM tetradecylthioacetic acid (TTA) was sufficient to give a significant induction. With 20 microM TTA, the increase in enzyme activity was discernable after 3 h and reached a maximum after 3 days. The inducing effect of the alkylthioacetic acids increased with the length of the hydrophobic alkyl end of the analogue. The inducing ability disappeared when the fatty acid analogue was omega-oxidized to the corresponding dicarboxylic acid. Oxidation of the sulfur atom resulted in inhibited cellular uptake and abolished enzyme induction. (3) At higher concentrations (0.5-1 mM), normal fatty acids also induced cyanide-insensitive palmitoyl-CoA oxidation. Myristic acid was the most potent inducer, whereas fatty acids with shorter as well as longer carbon chains were less efficient. The inducing effect increased with the number of double bounds in the fatty acid. (4) The normal fatty acids as well as the fatty acid analogues also induced palmitoyl-CoA hydrolase, but the relative changes were much less pronounced than with the palmitoyl-CoA oxidase.
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PMID:Induction of peroxisomal beta-oxidation in 7800 C1 Morris hepatoma cells in steady state by fatty acids and fatty acid analogues. 271 97

O2-. generation by the succinate oxidase segment of the respiratory chain of mitochondria and submitochondrial particles from hepatoma 22a and hepatoma Zajdela has been studied with the use of the Tiron method. In the presence of succinate, superoxide generation is induced by antimycin, 2-n-4-hydroxyquinoline N-oxide or funiculosin, and is inhibited by mucidin, myxothiazol or cyanide. The rate of O2-. generation in the antimycin-inhibited state is maximal at the [succinate]/[fumarate] ratio of 1:10 and diminishes at more positive and more negative redox potentials. These characteristics of O2-.-generation are the same as observed earlier in submitochondrial particles from normal tissues. Accordingly, the mechanism of superoxide production is suggested to be the same in tumor and normal mitochondria, namely, autoxidation of the unstable ubisemiquinone in the ubiquinol-oxidizing centre o of cytochrome bc1 complex. With respect to the rate of O2-. generation, the hepatoma mitochondrial membranes are approximately twice as active as bovine heart submitochondrial particles and exceed those from rat liver by more than one order of magnitude.
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PMID:Superoxide generation by the respiratory chain of tumor mitochondria. 282 6


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