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)

Stationary-phase, minimal deviation hepatoma H4-II-E-C3 cell cultures that are serum-deprived respond with a biphasic time course of phenylalanine hydroxylase induction when dialyzed fetal calf serum or insulin is added. These two agents induce phenylalanine hydroxylase additively, during both the initial 3-hour and the delayed 24-hour phases. The initial phase of induction by insulin is inhibited by cycloheximide but not by actinomycin D. The delayed induction by both dialyzed fetal calf serum and insulin is inhibited by 10(-6) M cycloheximide and 0.20 mug/ml actinomycin D. H4-II-E-C3 cells in culture do not synthesize the factor(s) in serum that induce phenylalanine hydroxylase.
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PMID:Control of phenylalanine hydroxylase synthesis in tissue culture by serum and insulin. 0 1

Continued high levels of phenylalanine hydroxylase in cultured H4-II-E-C3 rat hepatoma cells require either serum or glucocorticoids in the culture medium. Upon withdrawal of serum, cellular phenylalanine hydroxylase levels decay exponentially with a half-life of 22 hours for about 60 hours, after which time a low, constant enzyme content persists for at least 96 hours. This decline of phenylalanine hydroxylase is fully reversible; normal enzyme levels are restored in a time- and dosage-dependent fashion upon addition of serum to basal cultures. The serum factor is nondialyzable and moderately heat-stable. The stimulation by serum of the phenylalanine hydroxylas content of basal cultures is blocked by 3-[2-(3,5-dimethyl-2-oxocyclohexyl)-2-hydroxyethyl]glutarimide and requires ongoing cellular protein synthesis. When added to the enzyme-assay mixture in vitro, serum does not alter the phenylalanine hydroxylase activity of extracts from basal cultures. Three lines of evidence suggest that serum contains a nonsteroidal phenylalanine hydroxylase stimulatory components(s): (a) glucocorticoid antagonists inhibit less than one-half of the biological activity of serum; (b) exhaustive extraction of endogenous serum glucocorticoids with charcoal reduces the activity of serum to about one-half of control values; and (c) the stimulatory effects of charcoal reduces the values; and (c) the stimulatory effects of charcoal-extracted serum and hydrocortisone are additive. The phenylalanine hydroxylase stimulatory activities of the charcoal-extracted sera from four mammalian species and from three stages in development in one mammalian species are comparable. A survey of partially purified preparations of a number of known hormones failed to reveal any one capable of elevating the phenylalanine hydroxylas levels of basal cultures in a manner comparable to that of charcoal-extracted serum.
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PMID:Effect of serum on phenylalanine hydroxylase levels in cultured hepatoma cells. 17

Phenylalanine hydroxylase in Reuber H4 hepatoma cell cultures can be rapidly inactivated by the addition of epinephrine, norepinephrine, dopamine, or 3,4-dihydroxyphenylalanine, in order of decreasing effectiveness, to the culture medium. The enzyme was 50% inactivated in 1 hour by 25 muM (R)-epinephrine or 45 muM (R)-norepinephrine in the medium. High concentrations of epinephrine caused a 70% inactivation in 15 min. Phenylalanine hydroxylase appears to be reversibly inactivated by epinephrine within the cells; since washing the compound off the cell cultures resulted in a rapid restoration of enzyme activity (40% in 1 hour), cycloheximide had little effect on the initial rate of recovery of enzyme activity and the same amount of phenylalanine hydroxylase antigen per cell was isolated from treated and normal cultures. Both (S)- and (R)-epinephrine inactivated the enzyme, and 0.1 mM desmethylimipramine, an inhibitor of amine transport, significantly decreased the effect of epinephrine on the hydroxylase activity. The possibility, suggested by the above results, that epinephrine might be directly inactivating phenylalanine hydroxylase within the cells was supported by the finding that purified rat liver phenylalanine hydroxylase would be 50% inactivated by 1.5 muM epinephrine in 10 min.
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PMID:Reversible inactivation of phenylalanine hydroxylase by catecholamines in cultured hepatoma cells. 18 4

The mechanism by which p-chlorophenylalanine specifically reduces phenylalanine hydroxylase activity in rat liver in vivo and in Reuber H4 hepatoma cells in culture has been investigated. Chromatography on hydroxylapatite of liver extract from rats injected with p-chlorophenylalanine showed that the compound differentially affected the three normal phenylalanine hydroxylase isoenzymes (I, II, and III); isoenzymes II and III were completely absent after the treatment, but isoenzyme I was only reduced in quantity compared with normal adult rats. Normal Reuber H4 cells only possess isoenzyme I; treatment with p-chlorophenylalanine yielded a reduced level of enzyme activity which appeared to be noraml isoenzyme I by both chromatographic and kinetic criteria. There is evidence, based on immunochemical techniques, that cultures grown in the presence of p-chlorophenylalanine have significantly reduced levels of phenylalanine hydroxylase antigen, and that p-chlorophenylalanine inactivates phenylalanine hydroxylase at or near the time of enzyme synthesis. The bulk of enzyme synthesized prior to the addition of the compound appears unaffected by it. There is no indication that protein synthesis itself is affected by p-chlorophenylalanine. In addition, p-chlorophenylacetate was found to inactivate phenylalanine hydroxylase in an apparently identical manner with p-chlorophenylalanine, which almost certainly eliminates from consideration any mechanism of inactivation specifically requiring an amino acid. Finally, effects of cycloheximide and chlorophenylalanine were compared. Taken together, the data lead to two possible models for the inactivation of the enzyme. The model most consistent with all data requires (predicts) the existence of a proenzyme form of phenylalanine hydroxylase which can be specifically inactivated by p-chlorophenylalanine.
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PMID:Mechanism of inactivation of phenylalanine hydroxylase by p-chlorophenylalanine in hepatome cells in culture. Two possible models. 18 5

The kinetic and immunologic properties of phenylalanine hydroxylase of adult rat liver were compared to the properties of the similar enzyme present in cultured H4-II-E-C3 hepatoma cells. The enzymes from the two sources could not be distinguished by the Km values for either phenylalanine or 6,7-dimethyltetrahydropterin. Analysis by double immunodiffusion showed that phenylalanine hydroxylase from the two sources had identical immunologic determinants, but immunotitrations revealed a small but significant difference between the enzyme of the normal adult rat liver and the enzyme of cultured hepatoma cells. The results of double immunodiffusion and immunotitration experiments indicated also that the increased levels of phenylalanine hydroxylase seen in the hepatoma cells grown in the presence of hydrocortisone resulted from the accumulation of enzyme protein, but it could not be decided whether this accumulation resulted from an increased rate of synthesis or decreased rate of degradation.
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PMID:Properties of phenylalanine hydroxylase of cultured hepatoma cells. 18 50

Cultured rat hepatoma cells, H4-II-E-C3, are known to possess a phenylananine hydroxylating system which is sufficient to enable them to grow in tyrosine-depleted medium. Using standard procedures of auxotroph enrichment with this cell line, we have isolated tyrosine auxotrophs for the first time. We report in this paper the class of auxotrophs with (a) reduced (15-64% of wild type) or (b) absent activity of phenylalanine hydroxylase, an enzymic component of the phenylalanine hydroxylating system. This class of auxotroph presumably contains either lower (a) [or zero (b)] levels of normal phenylalanine hydroxylase protein than wild type, or mutant phenylalanine hydroxylase protein with lowered (or zero) activity. The two subgroups of auxotrophs (a) and (b) differ from each other in their revertibility and their growth behavior in the tyrosine-free medium. Over a 12-month period of testing, the auxotrophs have been highly stable with respect to their phenylalanine hydroxylase activity and growth phenotype in tyrosine-free medium. Such auxotrophs should facilitate genetic and biochemical study of the genes controlling the phenylalanine hydroxylation system and the study of phenylketonuria.
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PMID:Genetics of the mammalian phenylalanine hydroxylase system: I. Isolation of phenylalanine hydroxylase-deficient tyrosine auxotrophs from rat hepatoma cells. 19 52

We have investigated the p-chlorophenylalanine-dependent loss of phenylalanine hydroxylase activity in cultured hepatoma cells. The similarity of the effect of p-chlorophenylalanine on phenylalanine hydroxylase in the hepatoma cells and that reported from studies in vivo indicates that the loss of phenylalanine hydroxylase activity is due to a direct interaction of the amino acid analogue with the liver. We can find no evidence that the loss of phenylalanine hydroxylase activity is due to: a direct inactivation of the hydroxylase by p-chlorophenylalanine or an inhibitor produced by p-chlorophenylalanine treatment; an effect similar to that of p-fluorophenylalanine; or leakage of enzyme from the cells during p-chlorophenylalanine treatment. The data presented indicate: (a) the p-chlorophenylalanine effect is rather specific for phenylalanine hydroxylase; (b) following p-chlorophenylalanine removal, new protein synthesis is necessary for restoration of the hydroxylase activity; (c) the rate of loss of phenylalanine hydroxylase activity after the addition of p-chlorophenylalanine is much faster than the rate of restoration of the hydroxylase activity after removal of p-chlorophenylalanine; (d) even in the presence of p-chlorophenylalanine, hydrocortisone greatly stimulates the hydroxylase activity; (e) the cell density-dependent increase of phenylalanine hydroxylase activity is blocked by p-chlorophenylalanine. A discussion of the possible mechanisms of p-chlorophenylalanine-dependent loss of phenylalanine hydroxylase is presented. To measure very low leanine-dependent loss of phenylalanine hydroxylase is presented. To measure very low levels of phenylalanine hydroxylase activity, a new procedure, based on isotope dilution, was developed for isolating the tyrosine formed during the enzymatic reaction.
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PMID:p-Chlorphenylalanine effect on phenylalanine hydroxylase in hepatoma cells in culture. 23 40

Friend mouse erythroleukemia cells do not synthesize detectable levels of phenylalanine hydroxylase [phenylalanine 4-monooxygenase; L-phenylalanine, tetrahydropteridine:oxygen oxidoreductase (4-hydroxylating), EC 1.14.16.1] and hence are unable to grow in medium totally lacking tyrosine. These cells were fused with the cytoplasts of rat hepatoma cells that synthesize phenylalanine hydroxylase constitutively. Cytoplasmic hybrids [cybrids, Bunn, C. L., Douglas, C. W. & Eisenstadt, J. M. (1974) Proc. Natl. Acad. Sci. USA 71, 1681--1685] were selecte in medium without tyrosine. Cybrid clones expressed phenylalanine hydroxylase enzyme, which was of mouse type as determined by immunotitration and isoelectric focusing. This phenotype has been mainta ined even in the absence of any selective pressure. In contrast, in whole cell hybrids derived between the same parents, the expression of the phenylalanine hydroxylase gene was totally extinguished. One interpretation of these results is that the cytoplasm of rat hepatoma cells contain a positively acting factor(s) for the phenylalanine hydroxylase gene that brings about the activation of this gene in erythroleukemia cells.
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PMID:Epigenetic activation of phenylalanine hydroxylase in mouse erythroleukemia cells by the cytoplast of rat hepatoma cells. 29 Oct 52

A substantially new method has been developed to measure protein turnover. Its basis is the notion that in labeling experiments a secreted protein can be used to determine the specific radioactivity of the intracellular amino acid precursor pool. To measure protein turnover in the Reuber hepatoma H4 cell line, cultures were labeled with [3H]leucine for specified periods after which phenylalanine hydroxylase was isolated and its leucine specific radioactivity determined. Serum albumin secreted by the cultures was also isolated and used to estimate the leucine precursor pool specific radioactivity. The protein half-life of phenylalanine hydroxylase could them be calculated. Experiments performed at long and short labeling times and with high and low concentrations of leucine in the medium yielded equivalent results. Phenylalanine hydroxylase half-life in the H4 cells was investigated under both normal and hydrocortisone-induced growth conditions. Average half-lives of 7.4 and 8.2 h were found for induced and uninduced cultures, respectively. Although these measured enzyme half-lives were not essentially different, the steady state level of phenylalanine hydroxylase was increased 6.2-fold upon hydrocortisone induction, from 0.076 to 0.47 microgram/10(6) cells. The results demonstrated that hydrocortisone induces phenylalanine hydroxylase in the H4 cells by causing an increase in the rate of enzyme synthesis.
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PMID:Measurement of phenylalanine hydroxylase turnover in cultured hepatoma cells. 48 56

We have examined 11 previously described cultured rat hepatoma mutants with absent or reduced phenylalanine hydroxylase activity (Choo and Cotton, 1977). Immunological and electrophoretic methods failed to detect any structurally altered protein in these mutants. In nine independently isolated revertants from four different mutants, wild-type protein was regained (or accentuated). This evidence suggests that the mutation involved in these mutants is most likely to be regulatory in nature. These studies have provided three reasons for believing that in cultured rat hepatoma cells one gene codes for a single polypeptide chain, a number of which combine to form the active phenylalanine hydroxylase multimer: (1) Analysis of the purified protein by two-dimensional electrophoresis revealed only a single polypeptide chain. (2) This polypeptide was diminished or undetectable in crude extracts of 11 independently isolated mutants with absent of reduced activity. (3) In none of these 11 mutants was the polypeptide we have designated to be phenylalanine hydroxylase present at normal levels, as would be expected if the mutation were at another locus responsible for a possible second subunit.
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PMID:Genetics of the mammalian phenylalanine hydroxylase system. II. Immunological and two-dimensional gel electrophoretic studies of phenylalanine hydroxylase in cultured normal and mutant rat hepatoma cells. 54 24


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