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)

Erythropoietin (Epo), the hormone that stimulates red blood cell production, is synthesized in the kidney and liver in response to hypoxia. The human hepatoma cell line Hep3B regulates its production of Epo in a physiologic manner. Either hypoxia or cobalt chloride markedly increases expression of Epo mRNA as well as production of biologically active and immunologically distinct Epo protein. New protein synthesis is required before the induction of increased levels of hypoxia- or cobalt-induced Epo mRNA. Hypoxia, cobalt chloride, and nickel chloride appear to stimulate Epo production through a common pathway. The inhibition of Epo production at low partial pressures of oxygen by carbon monoxide provides evidence that a heme protein is integrally involved in the oxygen-sensing mechanism. This hypothesis is further supported by the finding that when heme synthesis is blocked, hypoxia-, cobalt-, and nickel-induced Epo production are all markedly inhibited. A model is proposed in which a ligand-dependent conformational change in a heme protein accounts for the mechanism by which hypoxia as well as cobalt and nickel stimulate the production of Epo.
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PMID:Regulation of the erythropoietin gene: evidence that the oxygen sensor is a heme protein. 284 6

The title compound is a covalent adduct of L-methionine (Met) and beta,gamma-imido-ATP. In its synthesis the N-Boc derivative of 5'(R)-C-(aminomethyl)-N6-benzoyl-5'-O-tosyl-2',3'-O- isopropylidenadenosine was converted by the successive actions of CF3CO2H and HNO2 into the corresponding 5'(R)-C-hydroxymethyl derivative. Treatment of this with disodium L-homocysteinate led to attack of sulfur at C6', apparently via a 5',6'-epoxide, and to total stereoselective inversion at C5' to furnish, after debenzoylation, 5'(R)-C-(L-homocystein-S-ylmethyl)-2',3'-O-isopropylidene ade nosine. The 5' configuration was established by conversion of this into the known 5'(S)-C-methyl-2',3'-O-isopropylidene adenosine with Raney nickel. The alpha-amino acid residue was protected as an N-Boc methyl ester, after which the 5'-hydroxyl was phosphorylated with benzyl phosphate and dicyclohexylcarbodiimide. The phosphoanhydride bond with inorganic imidodiphosphate was then created by established methods. Finally, blocking groups were removed under conditions that gave the desired adduct with no racemization of its L-methionine residue. It was a potent inhibitor [KM(ATP)/Ki = 1080; KM(Met)/Ki = 7.7] of the M-2 (normal tissue) form of rat methionine adenosyltransferase and of the M-T (hepatoma tissue) form [KM(ATP)/Ki = 670; KM(Met)/Ki = 22]. Inhibitions were competitive with respect to ATP or to L-methionine, indicating a dual substrate site mode of binding to the enzyme forms.
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PMID:Isozyme-specific enzyme inhibitors. 14. 5'(R)-C-[(L-homocystein-S-yl)methyl]adenosine 5'-(beta,gamma-imidotriphosphate), a potent inhibitor of rat methionine adenosyltransferases. 349 43

A series of four cell lines resistant to the toxic effect of copper were developed from Morris rat hepatoma cells by gradually increasing the concentration of copper in the growth medium. The EC50, that concentration of copper that kills and/or inhibits the growth of 50% of the cells after 72 h, increased 4-fold over that for wild type cells in the most resistant cell line. These cells were also resistant to zinc, cadmium, and mercury toxicity, but not to nickel or cobalt. The amount of copper in the soluble protein pool of the resistant cells increased proportionally with the concentration of copper in the medium in which they were maintained. Associated with copper accumulation was the production of an 18-kDa cysteine-rich protein which complexes a significant amount of the metal. It is suggested that resistance to copper toxicity is due to sequestration of the metal by this protein. When resistant cells were removed from the copper-enriched environment, cellular copper levels rapidly fell to that observed for wild type cells, but no reduction in either the EC50 or the level of the cysteine-rich protein was noted. This suggests that a permanent change responsible for copper resistance had occurred which is maintained in the absence of the metal.
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PMID:Resistance to copper toxicity of cultured hepatoma cells. Characterization of resistant cell lines. 374 69

Crosslinking of proteins to DNA was studied in live intact Novikoff ascites hepatoma cells exposed in vitro to salts of chromium VI, III, and II, nickel II, cadmium II, and to CoCl2, As2O3, and AlK(SO4)2. DNA-protein complexes were separated by high-speed centrifugation of cells solubilized in buffered 4% sodium dodecyl sulfate and assayed by polyacrylamide gel electrophoresis. Hexavalent chromium compounds formed DNA-protein complexes very efficiently. The trivalent, poorly soluble, cupric chromite was nearly as efficient crosslinker as hexavalent Cr, perhaps because phagocytosis facilitated its entry into the cells. The more basic divalent form produced hardly any crosslinks. Most of the crosslinked proteins were common to all of the chromium salts employed. Nickel salts formed DNA-protein crosslinks less efficiently. Most proteins crosslinked by this metal had a high molecular weight ranging from 94,000 to 200,000. There was little qualitative difference between the crosslinked protein patterns for several various nickel (II) salts. Similar results were obtained for cells incubated with cadmium salts. Most of the proteins crosslinked by cadmium had high molecular weights and were similar to those crosslinked by nickel (II). Relatively weak, but significant, crosslinking was also observed when the Novikoff hepatoma cells were exposed to CoCl2, As2O3, or AlK(SO4)2.
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PMID:DNA-protein crosslinking by heavy metals in Novikoff hepatoma. 380 Mar 74

The tripeptide H-Gly-His-Lys-OH (GHL) is a human plasma constituent which has been previously shown to modulate the growth and viability of a variety of cell types and organisms. Experimental observations presented herein indicate that GHL is complexed with the transition metal ions Cu++ and Fe++ in vivo and may exert its biological effects as a peptide-metal chelate. At physiological pH in vitro, GHL associates with ionic copper, cobalt, iron, molybdenum, manganese, nickel, and zinc, but has no affinity for calcium, manganese, potassium, and sodium. GHL acts synergistically with copper, iron, cobalt, and zinc to alter patterns of cell growth in monolayer cultures of a tumorigenic hepatoma cell line (HTC4). These transition metals induce cellular flattening and adhesion to support surfaces, and inhibit DNA synthesis and lactic acid production when growth is limited by reduction of serum concentrations in medium. These inhibitory effects are neutralized, and intercellular adhesion and growth are stimulated by GHL in medium at nanomolar concentrations. Cu and Fe are the most active metals when combined with GHL. The results suggest that the inability of HTC4 cultures to replicate without adequate concentrations of serum in medium may reflect deficiency of GHL and transition metals, which appear to form complexes prior to interaction with cells. Chelation of transition metals with GHL and, potentially, with other growth-modulating peptide factors in plasma or medium, may provide a mechanism for expression and regulation of biological activities influenced by transition metals and polypeptide growth factors. The observed effects of GHL-metal complexes, including stimulation of cellular adhesiveness to substratum (flattening) and intercellular attachment (monolayer formation), appear to satisfy requirements for growth of hepatoma cells in monolayer culture.
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PMID:Growth-modulating tripeptide (glycylhistidyllysine): association with copper and iron in plasma, and stimulation of adhesiveness and growth of hepatoma cells in culture by tripeptide-metal ion complexes. 624 26

Intercellular and extracellular metal concentrations were measured using carbon fiber ultramicrosensors plated with mercury or with polymeric porphyrinic p-type semiconductors. Concentrations of unbound nickel and lead ions were studied within individual BC3H-1 myocytes, and H4-11-C3 rat hepatoma cells. Unbound ions are predominantly solvated inorganic ions not coordinated to biological cellular components. Fabrication of ultramicrosensors appropriate for the cells under investigation is described, including procedures for sharpening and waxing the microsensors in order to control the shape, area, and dimensions of the electroactive surface. Metal ion movement through cell membranes and intracellular ion diffusion in aorta tissue were studied.
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PMID:Monitoring metal concentrations in tissues and single cells using ultramicrosensors. 784 90

The low density receptor-related protein/alpha 2-macroglobulin receptor (LRP/alpha 2-MR) binds to several ligands involved in lipoprotein and protease clearance. The receptor-associated protein (RAP) inhibits the binding of all known ligands. We studied the inhibition by Ni2+ of the binding of different ligands to cells and to the purified LRP/alpha 2-MR. Ni2+ inhibited all of the specific binding of radiolabeled methylamine-activated alpha 2-macroglobulin (125I-alpha 2-M*) to rabbit aortic smooth muscle cells (SMC), rat hepatoma Fu5AH, and mouse fibroblast L cells. Ni2+ also inhibited the binding of trypsin-activated alpha 2-macroglobulin to SMC but did not affect the binding of RAP, Pseudomonas exotoxin A, or low-density lipoproteins. The inhibition of alpha 2-M* binding by Ni2+ was not due to its interaction with alpha 2-M*. Preincubation of SMC with Ni2+ followed by ligand binding suggested that Ni2+ binds to cell-surface molecules and inhibits the binding of alpha 2-M* but does not affect RAP binding. Most of the binding of alpha 2-M* to SMC was due to its binding to the LRP/alpha 2-MR, as opposed to the recently described signaling receptor, as demonstrated by the inhibition of this binding by the RAP. Moreover, the inhibition of alpha 2-M* binding to the LRP/alpha 2-MR by Ni2+ was demonstrated using purified receptor immobilized on microtiter plates. Two to three molecules of 63Ni2+ bound to the immobilized receptor with equal affinity but not to alpha 2-M*. The specific binding of alpha 2-M* to the immobilized receptor was inhibited in the presence of nickel.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nickel is a specific inhibitor for the binding of activated alpha 2-macroglobulin to the low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor. 851 64

Apolipoprotein B (apoB) RNA editing activity involves a site-specific cytidine to uridine transition catalyzed by a cytidine deaminase, APOBEC-1, in the context of a multi-protein-containing editosome. In the absence of yet to be characterized "auxiliary" proteins, APOBEC-1 lacks RNA editing capacity. Recombinant APOBEC-1 has been engineered to bind nickel resin and used in affinity chromatography of the auxiliary proteins from McArdle rat hepatoma cell extracts. We demonstrate activation of APOBEC-1 RNA editing activity under these conditions through the association of a subset of extract proteins having approximate molecular masses of 145, 87, 75, 66, 61, and 50 kDa and a heterogeneous grouping of 45- to 35-kDa proteins. These data suggest that the components of the editosome can be partially purified from extracts through APOBEC-1 affinity chromatography.
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PMID:In vitro reconstitution of apolipoprotein B RNA editing activity from recombinant APOBEC-1 and McArdle cell extracts. 857 94

Nickel(II) is a human carcinogen causing respiratory cancers. The purpose of this study was to determine whether Ni(II) may induce microsatellite mutations in human cells. We transfected the three human lung tumor cell lines A427, HCC15 and NCI-H2009 with a mammalian expression vector containing a (CA)(13) repeat in the coding sequences of the reporter hygromycin gene (hyg). A total of 33 clones carrying the integrated vector derived from the three cell lines was investigated for spontaneous and Ni(II)-induced hygromycin-resistant (hyg(r)) reversion mutants. Significantly higher frequencies of hyg(r) reversion mutations were observed in Ni(II)-treated cells (NCI-H2009 and HCC-15) than control cells. In the majority of the colonies hyg(r) phenotype was due to mutations within the integrated (CA) repeat sequence. The type of mutations consisted of both contraction and expansion of the (CA) repeat unit. The finding that Ni(II) promotes microsatellite mutations raises the possibility that genetic instability may be a mechanism involved in nickel carcinogenesis.
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PMID:Nickel(II) induces microsatellite mutations in human lung cancer cell lines. 1089 95

The carcinogenicity of specific insoluble nickel compounds is mainly due to their intracellular generation of Ni2+ ion and its suppression on gene transcription, while the inhibition of Ni2+ on histone acetylation plays an important role in the suppression or silencing of genes. Recent studies on Ni2+ and histone H4 acetylation suggest that Ni2+ inhibits the acetylation of histone H4 through binding with its N-terminal histidine-18. It is well known that bound Ni2+ readily produces reactive oxygen species (ROS) in vivo, a critical factor inversely related with the occurrence of resistance of mammalian cells to Ni2+. Thus, we tried to find the possible role of ROS in the induction of Ni2+ on histone acetylation in the present study. We found that a high concentration of Ni2+ (no less than 600 microM) caused a significant decrease of histone acetylation in human hepatoma cells. This inhibition was shown to result mainly from the influence of Ni2+ on the overall histone acetyltransferase (HAT) activity indicated by the histone acetylation assay with the presence of a specific histone deacetylase (HDAC) inhibitor, trichostatin A (TSA). The in vitro HAT and HDAC assays further confirmed this result. At the same time, we found that the exposure of hepatoma cells to Ni2+ generated ROS. Coadministration of hydrogen peroxide with Ni2+ generated more ROS and more histone acetylation inhibition. Addition of the antioxidants 2-mercaptoethanol (2-ME) at 2 mM or N-acetyl-cysteine (NAC) at 1 mM, with Ni2+ together, completely suppressed ROS generation and significantly diminished the induced histone hypoacetylation. The data presented here prove that the ROS generation plays a role in the inhibition of histone acetylation, and, hence, the gene suppression and carcinogenesis caused by Ni2+ exposure, providing a new door for us to continuously understand the mechanism of ROS in the carcinogenicity of Ni2+ and the resistance of mammalian cells to Ni2+.
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PMID:Nickel-induced histone hypoacetylation: the role of reactive oxygen species. 1277 60

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