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)

Cells from a rapidly growing rat Zajdela hepatoma were shown to contain (on a protein basis) five-times less mitochondria than hepatocytes from resting or regenerating rat liver. Transcripts of four nuclear genes for representative mitochondrial membrane proteins (beta-F1 subunit and N,N'-dicyclohexyl-carbodiimide-binding protein of ATP synthase, subunit IV of cytochrome oxidase and ADP/ATP translocase) were present in 2-4 times higher amounts in the poly(A)-rich RNA of the hepatoma than in the corresponding RNA fraction from resting or regenerating rat liver. The liver and hepatoma transcripts for the beta-F1 subunit were translated in an in-vitro system with equal efficiency. Pulse-chase labeling of isolated Zajdela hepatoma cells and hepatocytes from resting and regenerating liver revealed a relative excess of the newly synthesized beta-F1 subunit in the tumor cells. The half-life of the beta-F1 subunit was significantly shorter in the hepatoma cells than in hepatocytes from resting and regenerating liver. The contents of transcripts of three mitochondrial genes examined (cytochrome oxidase subunits I and II and NADH-ubiquinone reductase subunit 2) in Zajdela hepatoma mitochondria were about five-times higher than in the mitochondria of the resting cells and 3-4 times higher than in the organelles of the regenerating organ. The results indicate that events other than transcription (most likely post-translational) may be responsible for the reduced content of mitochondria in tumor cells.
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PMID:Increased steady-state levels of several mitochondrial and nuclear gene transcripts in rat hepatoma with a low content of mitochondria. 137 34

A human-hepatoma cDNA lambda gt11 expression library was probed with an antibody to holoenzyme complex I (NADH-CoQ reductase) of the respiratory chain. One of the 30 antibody positive clones was purified to homogeneity, amplified by the polymerase chain reaction (PCR), subcloned and sequenced. It proved to be highly similar to the cDNA sequence for the bovine 75-kDa Fe--S protein. Using the sequence obtained from this library, both sense and antisense oligonucleotides were constructed and used to probe a human kidney cDNA library using PCR amplification with oligonucleotides that flank the polylinker region of the lambda phage. Two further cDNA clones were obtained which overlapped and covered the entire cDNA sequence of 2526 bp. The encoded protein of 727 amino acids has 21 amino acids that differ from the bovine-protein sequence. Northern blot analysis of mRNA from fibroblasts of complex-I deficient patients revealed no abnormalities. We show that this Fe--S protein has significant similarity with (a) the gamma chain of the hydrogen hydrogenase of Alcaligenes eutrophus and (b) the A chain of the formate dehydrogenase of Methanobacterium formicum.
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PMID:Determination of the cDNA sequence for the human mitochondrial 75-kDa Fe-S protein of NADH-coenzyme Q reductase. 193 49

The assembly of mitochondrially and cytoplasmically translated subunits of NADH dehydrogenase in the inner mitochondrial membrane was studied in rat hepatoma cultures. A polyclonal antibody to the purified bovine heart holoenzyme, which reacted with comigrating proteins of both rat liver and hepatoma mitochondria on immunoblots, precipitated 25-30 [35S]methionine-labeled proteins from hepatoma cell lysates. Six of these were sensitive to an inhibitor of mitochondrial translation (chloramphenicol), resistant to an inhibitor of cytosolic translation (cycloheximide), and were not present in cytochrome oxidase. By these criteria, six NADH dehydrogenase subunits are identified as being translated on mitochondrial ribosomes. The metabolic properties of the three most prominent of these at 51, 43, and 11 kDa were studied in more detail. Mitochondrial and nuclear-coded polypeptides assemble into NADH dehydrogenase at different rates as measured by incorporation of pulse-labeled proteins into immunoprecipitable enzyme. Nuclear-coded, imported polypeptides appear immediately after a pulse with [35S]methionine and retain constant stoichiometry. Mitochondrially coded proteins, although rapidly translated, appear at peak levels at different times between 0 and 12 h of chase in the immunoprecipitated enzyme. Ongoing synthesis and import of nuclear-coded proteins is necessary for mitochondrially coded proteins to be assembled. Excess, unassembled mitochondrially translated subunits are degraded in an oligomycin-sensitive manner. These data are consistent with a model in which a scaffold of imported proteins forms the inner core of the enzyme, and later arriving mitochondrially translated proteins attach to the scaffold in a time-dependent manner.
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PMID:Respiratory chain-linked NADH dehydrogenase. Mechanisms of assembly. 239 60

We have constructed a cDNA library from a hepatoma cell line (HTC cells) and isolated the clones corresponding to mRNAs present at a much higher level in hepatomas than in normal hepatocytes. The characterization of one of these clones is described in this paper. This clone is homologous to part of the mitochondrial ND5 gene (a subunit of NADH-ubiquinone oxidoreductase). The level of this mRNA was found increased in HTC cells and in hepatocytes from diethylnitrosamine-treated rats long before the development of tumors and strongly increased in carcinoma nodules as compared to hepatocytes from nontreated rats. Southern blot analysis showed a mitochondrial DNA heterogeneity in hepatomas with an alteration of the structure of part of the molecules.
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PMID:Increased level of the mitochondrial ND5 transcript in chemically induced rat hepatomas. 250 35

Using specific probes we show that sequences homologous to NADH dehydrogenase Subunit 6, and Cytochrome oxidase Subunits I, II, and III mitochondrial genes are present in nuclear DNA from various tissues. These mitochondrial-like sequences are also present in rat hepatoma nuclear DNA but with an abnormal organization and a higher copy number than in normal hepatocytes.
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PMID:DNA sequences homologous to mitochondrial genes in nuclei from normal rat tissues and from rat hepatoma cells. 275 51

Alterations in the energy metabolism of cancer cells have been reported for many years. However, the deleterious mechanisms involved in these deficiencies have not yet been clearly proved. The main goal of this study was to decipher the harmful mechanisms responsible for the respiratory chain deficiencies in the course of diethylnitrosamine (DENA)-induced rat hepatocarcinogenesis, where mitochondrial DNA abnormalities had been previously reported. The respiratory activity of freshly isolated hepatoma mitochondria, assessed by oxygen consumption experiments and enzymatic assays, presented a severe complex I deficiency 19 months after DENA treatment, and later on, in addition, a defective complex III activity. Since respiratory complex subunits are encoded by both nuclear and mitochondrial genes, we checked whether the respiratory chain defects were due to impaired synthesis processes. The specific immunodetection of complex I failed to show any alterations in the steady-state levels of both nuclear and mitochondrial encoded subunits in the hepatomas. Moreover, in vitro protein synthesis experiments carried out on freshly isolated hepatoma mitochondria did not bring to light any modifications in the synthesis of the mitochondrial subunits of the respiratory complexes, whatever the degree of tumor progression. Finally, Southern blot analysis of mitochondrial DNA did not show any major mitochondrial DNA rearrangements in DENA-induced hepatomas. Because the synthetic processes of respiratory complexes did not seem to be implicated in the respiratory chain impairment, these deficiencies could be partly ascribed to a direct toxic impact of highly reactive molecules on these complexes, thus impairing their function. The mitochondrial respiratory chain is an important generator of noxious, reactive oxygen free radicals such as superoxide and H2O2, which are normally catabolized by powerful antioxidant scavengers. Nineteen months after DENA treatment, a general collapse of the antioxidant enzymatic system was demonstrated in the hepatomas, as recurrently observed in cancer cells. This oxidant versus antioxidant imbalance was characterized by the establishment of oxidative stress in the course of hepatocarcinogenesis, as partly shown by the important decrease of glutamine synthetase activity, an enzyme whose function is highly sensitive to oxidant reactions. This disequilibrium would result in a net increase of the steady-state concentration of superoxide generated between respiratory complexes I and III in the mitochondria. Once generated, superoxide would likely inactivate complexes I and III via oxidant reactions on their superoxide-sensitive [4Fe, 4S] clusters. The role of mitochondrial respiratory chain impairment in chemical carcinogenesis and/or the persistence of the cancerous state is further discussed.
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PMID:Impairment of the mitochondrial respiratory chain activity in diethylnitrosamine-induced rat hepatomas: possible involvement of oxygen free radicals. 760 23

Numerous studies have reported effects of antiviral nucleoside analogs on mitochondrial function, but they have not correlated well with the observed toxic side effects. By comparing the effects of the five Food and Drug Administration-approved anti-human immunodeficiency virus nucleoside analogs, zidovudine (3'-azido-3'-deoxythymidine) (AZT), 2',3'-dideoxycytidine (ddC), 2', 3'-dideoxyinosine (ddI), 2',3'-didehydro-2',3'-deoxythymidine (d4T), and beta-L-2',3'-dideoxy-3'-thiacytidine (3TC), as well as the metabolite of AZT, 3'-amino-3'-deoxythymidine (AMT), on mitochondrial function in a human hepatoma cell line, this issue has been reexamined. Evidence for a number of mitochondrial defects with AZT, ddC, and ddI was found, but only AZT induced a marked rise in lactic acid levels. Only in mitochondria isolated from AZT (50 microM)-treated cells was significant inhibition of cytochrome c oxidase and citrate synthase found. Our investigations also demonstrated that AZT, d4T, and 3TC did not affect the synthesis of the 11 polypeptides encoded by mitochondrial DNA, while ddC caused 70% reduction of total polypeptide content and ddI reduced by 43% the total content of 8 polypeptides (including NADH dehydrogenase subunits 1, 2, 4, and 5, cytochrome c oxidase subunits I to III, and cytochrome b). We hypothesize that in hepatocytes the reserve capacity for mitochondrial respiration is such that inhibition of respiratory enzymes is unlikely to become critical. In contrast, the combined inhibition of the citric acid cycle and electron transport greatly enhances the dependence of the cell on glycolysis and may explain why apparent mitochondrial dysfunction is more prevalent with AZT treatment.
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PMID:Differential effects of antiretroviral nucleoside analogs on mitochondrial function in HepG2 cells. 1068 9

Removal of choline from the diet results in accumulation of triglycerides in the liver, and chronic dietary deficiency produces a non-genotoxic model of hepatocellular carcinoma. An early event in choline deficiency is the appearance of oxidized lipid, DNA and protein, suggesting that increased oxidative stress may facilitate neoplasia in the choline deficient liver. In this study, we find that mitochondria isolated from rats fed a choline-deficient, L-amino acid defined diet (CDAA) demonstrate impaired respiratory function, particularly in regard to complex I-linked (NADH-dependent) respiration. This impairment in mitochondrial electron transport occurs coincidentally with alterations in phosphatidylcholine metabolism as indicated by an increased ratio of long-chain to short-chain mitochondrial phosphatidylcholine. Moreover, hydrogen peroxide (H(2)O(2)) generation is significantly increased in mitochondria isolated from CDAA rats compared with mitochondrial from normal rats, and the NADH-specific yield of H(2)O(2) is increased by at least 2.5-fold. These findings suggest an explanation for the rapid onset of oxidative stress and energy compromise in the choline deficiency model of hepatocellular carcinoma and indicate that dietary choline withdrawal may be a useful paradigm for the study of mitochondrial pathophysiology in carcinogenesis.
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PMID:Dietary choline restriction causes complex I dysfunction and increased H(2)O(2) generation in liver mitochondria. 1078 22

The expression of Galectin-1 (Gal-1) mRNA was activated in primary hepatocellular carcinomas (HCCs) compared to matched non-tumorous liver tissues. To elucidate the mechanism of Gal-1 activation in HCC cells, DNA methylation encompassing the transcriptional start site (-165/+151) was examined. Among 12 CpG dinucleotides on both DNA strands, those at positions -116, -109, -52, -41, -36, +35 and +43 were preferentially methylated in non-tumorous liver tissue, while hypomethylated in the matched HCC tissue. Transient transfection of a series of deleted GAL-1 promoters revealed that both an upstream (-57/-31) and a downstream (+10/+57) elements accounted for efficient promoter activity. Electrophoretic mobility shift assay of the upstream element (-63/-30) using nuclear extracts from three HCC cell lines (HLF, HuH7 and HepG2) and normal liver cells revealed at least two complexes (alpha and (beta) interacted with the upstream element in all of the nuclear extracts. Competition experiments revealed that the complex beta preferentially attached to the upstream element harboring unmethylated CpGs. On the other hand, at least three complexes (I, II and III) interacted with the downstream element in all of the nuclear extracts. Competition experiments revealed that complex I specifically attached to the downstream element harboring unmethylated CpG at +35. Furthermore, a DNase I protection assay revealed that a methylation-associated conformational alteration occurred near the CpG site at +35 in HLF cells. Thus, the specific interaction of methylation-sensitive factors to the upstream and downstream elements may be essential for the activation of the Gal-1 gene in HCC cells.
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PMID:Activation of Galectin-1 gene in human hepatocellular carcinoma involves methylation-sensitive complex formations at the transcriptional upstream and downstream elements. 1461 29

Hepatitis C infection causes a state of chronic oxidative stress, which may contribute to fibrosis and carcinogenesis in the liver. Previous studies have shown that expression of the HCV core protein in hepatoma cells depolarized mitochondria and increased reactive oxygen species (ROS) production, but the mechanisms of these effects are unknown. In this study we examined the properties of liver mitochondria from transgenic mice expressing HCV core protein, and from normal liver mitochondria incubated with recombinant core protein. Liver mitochondria from transgenic mice expressing the HCV proteins core, E1 and E2 demonstrated oxidation of the glutathione pool and a decrease in NADPH content. In addition, there was reduced activity of electron transport complex I, and increased ROS production from complex I substrates. There were no abnormalities observed in complex II or complex III function. Incubation of control mitochondria in vitro with recombinant core protein also caused glutathione oxidation, selective complex I inhibition, and increased ROS production. Proteinase K digestion of either transgenic mitochondria or control mitochondria incubated with core protein showed that core protein associates strongly with mitochondria, remains associated with the outer membrane, and is not taken up across the outer membrane. Core protein also increased Ca(2+) uptake into isolated mitochondria. These results suggest that interaction of core protein with mitochondria and subsequent oxidation of the glutathione pool and complex I inhibition may be an important cause of the oxidative stress seen in chronic hepatitis C.
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PMID:Hepatitis C virus core protein inhibits mitochondrial electron transport and increases reactive oxygen species (ROS) production. 1615 Jul 32


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