UMLS:C0019204 - FACTA Search

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ochratoxin A has a number of toxic effects in mammals, the most notable of which is nephrotoxicity. It is also immunosuppressive, teratogenic and carcinogenic. The biochemical and molecular aspects of its action were first studied in bacteria. The appearance of 'magic spots' (ppGpp and pppGpp) pointed to inhibition of the charging of transfer ribonucleic acids (tRNA) with amino acids. This suggestion was confirmed by the demonstration that ochratoxin A inhibits bacterial, yeast and liver phenylalanyl-tRNA synthetases. The inhibition is competitive to phenylalanine and is reversed by an excess of this amino acid. As a consequence, protein synthesis is inhibited, as shown with hepatoma cells in culture, with Madin Darby canine kidney cells (which are much more sensitive) and in vivo in mouse liver, kidney and spleen, the inhibition being more effective in the latter two organs. An excess of phenylalanine also prevents inhibition of protein synthesis in cell cultures and in vivo. Analogues of ochratoxin A in which phenylalanine has been replaced by other amino acids have similar inhibitory effects on the respective amino acid-specific aminoacyl tRNA synthetases. 4R-Hydroxyochratoxin A, a metabolite of ochratoxin A, has a similar action, whereas ochratoxin alpha (the dihydroisocoumarin moiety) and ochratoxin B (ochratoxin A without chlorine) have no effect. Ochratoxin A might act on other enzymes that use phenylalanine as a substrate. We showed recently that it inhibits phenylalanine hydroxylase. In addition, the phenylalanine moiety of ochratoxin A is partially hydroxylated to tyrosine by incubation with hepatocytes and in vivo. This competitive action with phenylalanine might explain why this amino acid prevents the immuno-suppressive effect of ochratoxin A and partially prevents its teratogenic and nephrotoxic actions. The effect of ochratoxin A on protein synthesis is followed by an inhibition of RNA synthesis, which might affect proteins with a high turnover. Ochratoxin A also lowers the level of phosphoenolpyruvate carboxykinase, a key enzyme in gluconeogenesis; this inhibition is reported to be due to a specific degradation of mRNA that codes for this enzyme. Recently, ochratoxin A was also found to enhance lipid peroxidation both in vitro and in vivo. This inhibition might have an important effect on cell or mitochondrial membranes and be responsible for the effects on mitochondria that have been shown by several authors. Finally, the recent results of Pfohl-Leszkowicz et al. (this volume), who showed the formation of DNA adducts mainly in kidney but also in liver and spleen, explain the DNA single-strand breaks observed previously in mice and rats after acute and chronic treatment.
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PMID:Mechanism of action of ochratoxin A. 182 Mar 32

The mouse hepatoma BWTG3 has been tested for its ability to grow in three different media that select for traits normally expressed in adult liver: homocysteine medium to select for cystathionine synthase (CS), tyrosine-free medium for phenylalanine hydroxylase (PH), and ornithine medium for carbamylphosphate synthetase-I (CPS-I) and ornithine transcarbamylase (OTC). In no case were the cells immediately capable of bulk growth, showing that all these traits were in some degree deficient. However, the cultures in homocysteine medium and in tyrosine-free medium both gave rise, spontaneously, to growing clones with frequencies of approximately 10(-3) and 10(-5), respectively. The deficiencies of CS and PH were accordingly excluded from further study, in view of their inherent instability. In contrast, no colonies ever formed in ornithine medium. Though neither CPS-I nor OTC were detectable in stock BWTG3 cells, it was found that CPS-I was readily inducible by hormones. The deficiency of OTC, however, appeared to be totally stable showing no reversion in response either to hormones or to azacytidine treatment. This deficiency was investigated by fusing the hepatoma to OTC+ liver cells prepared from normal or sparse-fur (spf) mice. Sparse-fur mice were used because their OTC is mutant and has a distinctive pH-dependence. OTC+ hybrids were readily produced, without the need for any specific selection for OTC, and, in one case at least, with only minimal chromosome segregation. In all the OTC+ hybrids made with spf cells, there was clear reactivation of the wild-type, hepatoma-derived OTC gene.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:BWTG3 hepatoma cells can acquire phenylalanine hydroxylase, cystathionine synthase and CPS-I without genetic manipulation, but activation of the silent OTC gene requires cell fusion with hepatocytes. 186 Sep 1

Genomic DNA from cells producing the liver-specific enzyme phenylalanine hydroxylase (PAH) should contain, in active form, genes encoding regulators of PAH expression. We have transfected genomic DNA from PAH-producing rat hepatoma cells to PAH-deficient mouse hepatoma cells, and selected in tyrosine-deficient medium for cells producing the enzyme. The frequency of colonies obtained was similar to that for transfer of a single-copy gene. Genomic DNA from the primary transfectants permitted the isolation in tyrosine-free medium of secondary transfectants. Control experiments, using donor DNA from PAH-negative rat or mouse hepatoma cells also permitted the isolation of PAH-expressing cells, but at a frequency 10-30 times lower. The transfectants isolated in tyrosine-deficient selective medium all produced PAH mRNA. This transcript was from the previously silent mouse gene, which had not undergone amplification or gross rearrangement. Most of the transfectants contained less than 0.1% rat DNA. A search for other functions that might have been simultaneously activated was negative. It is concluded that the mouse transfectants acquired from the PAH+ rat donor some sequences whose presence permits activity of the previously silent PAH gene.
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PMID:Activation of phenylalanine hydroxylase expression following genomic DNA transfection of hepatoma cells. 225 40

Incubation of H4-II-E-C3 rat hepatoma cells with either hydrocortisone or dexamethasone resulted in 3- to 5-fold increases in the levels of both phenylalanine hydroxylase and its essential cofactor, tetrahydrobiopterin. Maximum elevation of phenylalanine hydroxylase was noted after 24 h of incubation, whereas significant increases in tetrahydrobiopterin were found only after 48 h exposure of the cells to glucocorticoids. Removal of hormone from the culture medium resulted in rapid loss of cell tetrahydrobiopterin, but a much slower decline in the level of phenylalanine hydroxylase. Thus, although the levels of both phenylalanine hydroxylase and tetrahydrobiopterin in rat hepatoma cells are regulated by glucocorticoids, this regulation is apparently not strictly coordinated. Nevertheless, control of cellular tetrahydrobiopterin levels may be an important regulator of hepatic phenylalanine catabolism since significant increases in the ability of intact rat liver cells to hydroxylate phenylalanine were observed only after 48 h exposure to glucocorticoids, in correlation with increases in cell tetrahydrobiopterin content.
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PMID:Glucocorticoid stimulation of tetrahydrobiopterin levels and phenylalanine hydroxylase activity in rat hepatoma cells. 277 31

Screening of a rat liver cDNA expression library constructed in the vector lambda gt11 with an affinity purified antiserum to rat phenylalanine hydroxylase has resulted in the isolation of two clones which contain the complete coding region (1362 base pairs) of phenylalanine hydroxylase and the entire 3'-untranslated region (562 base pairs). From the nucleotide sequence we deduced the amino acid sequence of the enzyme. The molecular weight is 51,632 (452 amino acids). The rat enzyme is highly homologous to human phenylalanine hydroxylase. The two proteins differ in only 36 amino acids (92% homology), many of which are conservative changes. A dot matrix computer program was used to analyze regions of homology with the amino acid sequence of rat tyrosine hydroxylase. Considerable homology was detected from amino acid 140 in the rat enzyme to the C terminus, but little or no homology was apparent in the N-terminal region. The cDNA clone was used to determine the levels of phenylalanine hydroxylase mRNA in rat tissues using RNA blot hybridization. Two mRNA species were detected, with approximate lengths of 2,000 and 2,400 nucleotides, which appear to derive from use of alternate polyadenylation signals. No difference in mRNA size was found in rats which have different phenylalanine hydroxylase alleles. The kidney was found to contain about 10% of the mRNA found in the liver, and no phenylalanine hydroxylase mRNA was detected in rat brain. Reuber H4 hepatoma cells were also analyzed for phenylalanine hydroxylase mRNA. The parental cells contained mRNA species of the same sizes as in rat liver. Incubation in 10(-6) M hydrocortisone for 24 h resulted in an 18-fold increase in the mRNA level. Mutant hepatoma cells which express very little phenylalanine hydroxylase contained less than 5% of the parental mRNA, but the gene still responded to hydrocortisone.
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PMID:Isolation and sequence of a cDNA clone which contains the complete coding region of rat phenylalanine hydroxylase. Structural homology with tyrosine hydroxylase, glucocorticoid regulation, and use of alternate polyadenylation sites. 286 38

Mutations in the human phenylalanine hydroxylase gene associated with two prevalent mutant alleles have been identified and shown to be in linkage disequilibrium with the corresponding mutant restriction fragment length polymorphism haplotypes. These results suggest the possibility of carrier detection in the population without a prior family history of phenylketonuria (PKU). Furthermore, recombinant retroviruses containing the full-length human phenylalanine hydroxylase cDNA have been constructed and used to transduce functional enzymatic activity into cultured hepatoma cells. Together with the recent success in retroviral infection of primary mouse hepatocytes, it will be possible to use the mouse model to investigate somatic gene therapy for PKU.
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PMID:Molecular basis of phenylketonuria and recombinant DNA strategies for its therapy. 289 2

P-chlorophenylalanine is an irreversible inhibitor of rat phenylalanine hydroxylase in vivo and in rat hepatoma cells and is frequently administered to rodents to create an animal model for phenylketonuria. We investigated the effect of p-chlorophenylalanine on production of human phenylalanine hydroxylase in human hepatoma cells and cells transformed with the recombinant human phenylalanine hydroxylase gene. P-chlorophenylalanine inhibited production of the human enzyme in human hepatoma cells and transformed mouse hepatoma cells but had no effect on the production of the enzyme in transformed NIH3T3 cells or in E. coli. Thus, phenylalanine hydroxylase inhibition does not result from a simple interaction between the drug and enzyme.
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PMID:P-chlorophenylalanine does not inhibit production of recombinant human phenylalanine hydroxylase in NIH3T3 cells or E. coli. 294 45

A series of rat hepatoma cell lines was infected with a recombinant adenovirus bearing the rat albumin promoter. Transcription from this promoter was scored directly and was highest in FAO, the differentiated parent, undetectable in C2, a cell variant that has lost almost all hepatocytic characteristics, and high again in C2-Rev7, a 'revertant' cell line derived from C2 that has regained the ability to produce many proteins characteristic of hepatocytes. The endogenous albumin gene is not transcribed in C2 cells, and at a very low rate in C2-Rev7 cells, which accumulate endogenous albumin mRNA at close to normal amounts. Thus the C2-Rev7 'recovery' of albumin mRNA concentration for the endogenous gene is based mainly on post-transcriptional events while the ability of C2-Rev7 to transcribe the albumin promoter in the viral genome is based on a transcriptional factor(s). We also showed that the C2 phenotype included post-transcriptional effects for other genes: transcription of phenylalanine hydroxylase and phosphoenolpyruvate carboxykinase mRNA sequences continue in C2 at rates equivalent to FAO but these C2 cells have no mRNA for these proteins while FAO does. In addition, C2 cells transcribed certain early adenovirus transcription units (E2 and 4) as well as FAO cells but accumulated E2 mRNAs poorly if at all. The changes that led to the C2-Rev7 cell line produced a return to normal of the ability to accumulate these viral mRNAs. Thus a major event in the C2 to C2-Rev7 transition involves post-transcriptional processes as well as the ability to transcribe the albumin promoter positioned in the virus genome.
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PMID:Hepatoma variants (C2) are defective for transcriptional and post-transcriptional actions from both endogenous and viral genomes. 295 94

A cell line, CY-1, was selected in tyrosine free (tyr-) medium after fusion of mouse erythroleukemia (MEL) cells with mitomycin C-treated rat hepatoma cells. MEL cells do not express the enzyme phenylalanine hydroxylase (PH) and are unable to grow in tyr- medium, whereas the rat hepatoma cells constitutively express PH and are able to grow in tyr- medium. CY-1 cells resemble MEL cells morphologically, karyotypically, and in being inducible for hemoglobin synthesis. In contrast to MEL cells, CY-1 expresses PH and is therefore able to grow in tyr- medium. Using a rat cDNA probe for the PH gene, Southern blot analyses were carried out on DNA isolated from CY-1 and parental cells. CY-1 showed the characteristic mouse PH gene pattern but the gene copy number was amplified four- to eightfold compared to parental MEL cells.
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PMID:Amplification and expression of phenylalanine hydroxylase in mouse erythroleukemia cells. 298 35

Phenylketonuria (PKU) is caused by deficiency of the hepatic enzyme phenylalanine hydroxylase (PAH). A full-length human PAH cDNA sequence has been inserted into pzip-neoSV(X), which is a retroviral vector containing the bacterial neo gene. The recombinant has been transfected into psi 2 cells, which provide synthesis of the retroviral capsid. Recombinant virus was detected in the culture medium of the transfected psi 2 cells, which is capable of transmitting the human PAH gene into mouse NIH 3T3 cells by infection leading to stable incorporation of the recombinant provirus. Infected cells express PAH mRNA, immunoreactive PAH protein, and exhibit pterin-dependent phenylalanine hydroxylase activity. The recombinant virus is also capable of infecting a mouse hepatoma cell line that does not normally synthesize PAH. PAH activity is present in the cellular extracts and the entire hydroxylation system is reconstituted in the hepatoma cells infected with the recombinant viruses. Thus, recombinant viruses containing human PAH cDNA provide a means for introducing functional PAH into mammalian cells of hepatic origin and can potentially be introduced into whole animals as a model for somatic gene therapy for PKU.
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PMID:Retroviral-mediated gene transfer of human phenylalanine hydroxylase into NIH 3T3 and hepatoma cells. 345 78

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