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:C0025202 (melanoma)
69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thiols are of great importance for the regulation of many cellular functions including metabolism, transport and cell protection. In this study the usefulness of L-cysteine methyl and octyl esters, of N,S-diacetyl-L-cysteine methyl ester and glutathione isopropyl ester as cellular cysteine and GSH delivery systems was investigated in the human IGR 1 melanoma cell line. The L-cysteine methyl and octyl esters proved to be highly toxic to the cells. Treatment of the cultures with 1 mM N,S-diacetyl-L-cysteine methyl ester or 3 mM glutathione isopropyl ester for 24 h resulted in marked elevation of the cellular glutathione level without apparent or with slight cell loss, respectively. Thus the administration of the latter two compounds seems to be suitable for inducing GSH elevation in the cultured melanoma cells.
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PMID:Glutathione in human melanoma cells. Effects of cysteine, cysteine esters and glutathione isopropyl ester. 207 40

Rate constants quantifying the reactivity of 4-methoxy ortho benzoquinone, formed in the metabolic activation of 4-hydroxyanisole, a possible melanocytotoxic drug under current assessment as a treatment for malignant melanoma, have been determined by pulse radiolysis. The quinone is reactive towards the thiols cysteine (k = 3.5x10(5)M-1sec-1), glutathione (k = 3.1x10(5)M-1sec-1) and dithiothreitol (k = 3.5x10(5)M-1sec-1), but relatively unreactive towards other nucleophiles such as arginine (k less than or equal to 1M-1sec-1) and glutamine (k less than or equal to 1M-1sec-1). Redox exchange with ascorbate also occurs (k = 1.0x10(4)M-1sec-1). In view of the low reactivity of 4-methoxy ortho benzosemiquinone towards oxygen (k less than or equal to 10(5)M-1sec-1) and the model lipid trans-2-butenoic acid (k less than or equal to 2x10(5)M-1sec-1), it is unlikely that initiation of lipid peroxidation by the semiquinone is a major source of cytotoxicity. A more likely toxicity pathway appears to be covalent addition reactions of 4-methoxy ortho benzoquinone with cellular nucleophiles, especially thiols, and/or redox exchange reactions of the quinone leading to antioxidant depletion.
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PMID:Reaction kinetics of 4-methoxy ortho benzoquinone in relation to its mechanism of cytotoxicity: a pulse radiolysis study. 232 99

A study on the oncolytic activity of the L-cysteine derivative L-cysteine, ethyl ester, S-(N-methylcarbamate) monohydrochloride (NSC 303861), revealed that the drug caused complete regression of the MX-1 human mammary tumor xenograft. The compound also exhibited moderate antitumor activity against murine leukemia P388 (T/C value of 169% at a daily dose of 400 mg/kg) and against M5076 sarcoma (T/C value of 135% at a daily dose of 600 mg/kg). The drug was inactive against B16 melanoma, Lewis lung, colon 38 and CD8F1 mammary carcinomas. The compound exhibited significant cytotoxicity against hepatoma 3924A cells in culture (LC50 = 6 microM). Studies on the mechanism of action revealed that the cytotoxicity of the drug could be partially abrogated by protecting hepatoma 3924A cells in culture with L-glutamine. At 6 h after injection of the compound (400 mg/kg) into rats bearing hepatoma 3924A, the pools of L-glutamine and L-glutamate in the tumor decreased to 33% and 71%, respectively, of control levels; the drug selectively inhibited the activities of L-glutamine-requiring enzymes of purine nucleotide biosynthesis, amidophosphoribosyltransferase, FGAM synthase, and GMP synthase, to 21%, 1%, and 69%, respectively, without significantly altering the activities of pyrimidine biosynthetic enzymes, carbamoylphosphate synthase II and CTP synthase. Measurement of the nucleotide concentrations further corroborated the actions of the drug on the purine nucleotide biosynthetic enzyme activities. Drug injection (400 mg/kg) in the hepatoma 3924A-bearing rats reduced the concentrations of IMP in the tumor to 52%, those of total adenylates to 52%, those of total guanylates to 57%, and those of NAD to 73%, without significantly perturbing the pyrimidine nucleotide pools. Studies on the mechanism of action of the L-cysteine derivative suggested that the compound behaved as an L-glutamine antagonist, selectively acting on the enzymes of purine nucleotide biosynthesis.
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PMID:Oncolytic activity and mechanism of action of a novel L-cysteine derivative, L-cysteine, ethyl ester, S-(N-methylcarbamate) monohydrochloride. 234 42

The effects of N-acetyl-L-cysteine (L-NAC), N,N-diacetyl-L-cystine (oxidized form of L-NAC) and N-acetyl-D-cysteine on the intracellular glutathione (GSH) level and their toxicity were investigated in the human melanoma cell culture IGR1. L-NAC applied in 3 mM concentration for 24 hr decreased; when applied for 48 hr it did not alter the intracellular GSH level. Treatment with 1 mM L-NAC for 24 hr had no effect on cellular glutathione, whereas the same concentration applied for 48 hr resulted in an increase in the level of GSH. Both concentrations also induced cell injury as determined by protein assay and trypan blue staining. N,N-diacetyl-L-cystine (0.5 and 1.5 mM, 24 hr) induced a decrease in cellular glutathione content without any apparent cell toxicity. D-NAC (1 and 3 mM, 24 hr) did not influence the GSH level of the melanoma cells; however, it had toxic effects resulting in cell loss.
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PMID:Alteration of glutathione level in human melanoma cells: effect of N-acetyl-L-cysteine and its analogues. 237 77

p97 is a cell-surface glycoprotein that is present in most human melanomas but only in trace amounts in normal adult tissues. To determine the structure of this tumor-associated antigen and to identify its functional domains, we have purified and cloned p97 mRNA and determined its nucleotide sequence. The mRNA encodes a 738-residue precursor, which contains the previously determined N-terminal amino acid sequence of p97. After removal of a 19-residue signal peptide, the mature p97 molecule comprises extracellular domains of 342 and 352 residues and a C-terminal 25-residue stretch of predominantly uncharged and hydrophobic amino acids, which we believe acts as a membrane anchor. Each extracellular domain contains 14 cysteine residues, which form seven intradomain disulfide bridges, and one or two potential N-glycosylation sites. Protease digestion studies show that the three major antigenic determinants of p97 are present on the N-terminal domain. The domains are strikingly homologous to each other (46% amino acid sequence homology) and to the corresponding domains of human serum transferrin (39% homology). Conservation of disulfide bridges and of amino acids thought to compose the iron binding pockets suggests that p97 is also related to transferrin in tertiary structure and function. We propose that p97 be renamed melanotransferrin to denote its original identification in melanoma cells and its evolutionary relationship to serotransferrin and lactotransferrin, the other members of the transferrin superfamily.
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PMID:Primary structure of the human melanoma-associated antigen p97 (melanotransferrin) deduced from the mRNA sequence. 241 4

The concentrations of dopa, cysteinyldopas, 5-S-glutathionyldopa, gamma-glutamyl-5-S-cysteinyldopa and 5-S-cysteinylglycinedopa, were analysed in homogenates of cultured human melanoma cells and in culture media. Cysteinyldopas were found to be the major catechol in the cells, with a molar concentration more than a hundred times that of dopa. 5-S-Glutathionyldopa was found in the same amount as dopa, while the quantity of 5-S-cysteinylglycinedopa was one order of magnitude less. gamma-Glutamyl-5-S-cysteinyldopa was not present in detectable amounts. In the medium the concentrations of dopa, 5-S-cysteinylglycinedopa and of 5-S-glutathionyldopa were about one half of those in the cells, while the concentration of cysteinyldopas was about 2%. The ratio between 2-S-cysteinyldopa and 5-S-cysteinyldopa when incubating dopa and cysteine with tyrosinase was identical with the ratio between the analogically synthetised isomers of glutathionyldopa. Consequently, from the calculation of these ratios in cells and media one cannot deduce whether cysteinyldopas arise from the direct addition of cysteine to dopaquinone, or from degradation of glutathionyldopa. Oxidation of 5-S-glutathionyldopa gives a red chromophore with maximum absorption at 480 nm which develops into a black pigment.
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PMID:Dopaquinone addition products in cultured human melanoma cells. 243 72

The phosphorylation of the MHC, class II-associated invariant chain (gamma) is demonstrated in human B-lymphoblastoid, melanoma, and histiocytic lymphoma cell lines. Two-dimensional nonequilibrium gel electrophoresis of invariant chain and class II Ag immunoprecipitates isolated from [32P]orthophosphate-labeled cells demonstrates labeling of both free and class II-associated gamma, gamma s, and p41 forms of the invariant chain. The gamma 2/gamma 3 form of the invariant chain is not phosphorylated. Phosphoamino amino acid analysis of isolated invariant chain shows phosphorylation of serine residues. The isolation of invariant chain from 32P-labeled microsome preparations digested with proteinase K demonstrates that the phosphorylation occurs in the cytoplasmic tail. Limited proteolysis of [32P]orthophosphate-, [35S]cysteine-, and [35S]methionine-labeled invariant chain also indicates that the 32P-label is incorporated into the cytoplasmic domain. These results pinpoint serine residues at positions 9, 26, and 29 in the N-terminal cytoplasmic tail as potential sites for the phosphorylation of the invariant chain. Phosphorylation may be another mechanism by which the functions of invariant chain in class II-dependent immune responses are regulated.
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PMID:The invariant chain is a phosphorylated subunit of class II molecules. 250 33

Stiles and coworkers originally identified a gene they termed JE that is transcriptionally activated in mouse fibroblasts early after treatment with platelet derived growth factor or serum. This gene, now named Sigje, can encode a 148-amino acid secreted, basic polypeptide that belongs to the small inducible gene (SIG) family whose members include, for example, platelet factor 4, melanoma growth stimulatory activity (Mgsa), and interferon inducible protein 10. SIG family members share a conserved array of cysteine and proline residues and a similar predicted secondary structure, and may have evolved from a common ancestral gene. Several members of the SIG family have been assigned to the proximal long arm of human chromosome 4, to a region that has genetic homoeology with a portion of mouse Chromosome 5. We report here that mouse Sigje, in contrast to Mgsa, is on Chromosome 11. Sigje restriction fragment length polymorphisms in Mus spretus DNA were identified with the enzymes TaqI, MspI, BclI, and XbaI, and will be useful in mapping by meiotic recombination.
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PMID:Sigje, a member of the small inducible gene family that includes platelet factor 4 and melanoma growth stimulatory activity, is on mouse chromosome 11. 257 29

Cysteine proteinases, particularly cathepsins B and L, have been strongly implicated in fostering metastasis in mice. In this work four different inhibitors of cysteine proteinases have been shown to inhibit the invasion of the human amnion by murine melanoma and mammary carcinoma cells in vitro. Two of the inhibitors are synthetic peptides [ZPhePheCHN2 (benzyloxycarbonyl-L-phenylalanyl-L-phenylalanyldiazomethane) and ZPheAlaCH2F [3-(N-benzyloxycarbonylphenylalanylamido)-DL-1-fluoro-2-butanone]] and two are thiol protease inhibitors (TPIn, TPId) isolated from the skeletal muscle of the hind limbs of normal and dystrophic mice, respectively. The inhibitors (ZPhePheCHN2, TPId), with apparent selectivity for cathepsin L, blocked invasion as effectively as inhibitors (ZPheAlaCH2F, TPIn) effective on both cathepsins. The data reveal that in these cell lines the cysteine proteinases contribute significantly to the invasive capacity of the cells, but to a lesser extent than do the metalloproteinases. We suggest that the cysteine proteinases facilitate the action of metalloproteinases (collagenase, gelatinase, and stromelysin), possibly by activating them, by inactivating the tissue inhibitor of metalloproteinases, and/or by making basement membrane matrix more accessible.
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PMID:Suppression by cathepsin L inhibitors of the invasion of amnion membranes by murine cancer cells. 273 Nov 77

We studied the effects on platelet function of cells isolated from freshly dissociated human tumor tissues (11 breast carcinomas, 9 colon carcinomas and 1 lymph node metastasis from melanoma) obtained at surgery as compared with cultured human tumor cells: namely, human melanoma 1402 cell line derived from a primary tumor and two lines derived from lymph node metastases (ME 7110/2 and Me 665/1) as well as a human hepatoma cell line (Hep G2). The three melanoma cell lines activated platelets by producing ADP, as evidenced by the inhibitory effect of apyrase and by the direct measurement of the agonist in the supernatants of tumor cell suspensions; this production was much greater by the cells derived from metastases than by the cells derived from the primary tumor. On the other hand, aggregation induced by Hep G2 hepatoma cells was unaffected by apyrase and was inhibited by hirudin or concanavalin A, suggesting that the cells aggregate platelets by producing thrombin, probably through tissue factor activity of the cells themselves. Cells isolated from 16 of the 21 human tumor tissues possessed a potent platelet-aggregating effect, which was not inhibited by apyrase, hirudin or concanavalin A, but was virtually abolished by the cysteine protease inhibitors iodoacetic acid or p-hydroxymercuri-phenylsulfonate. Collectively, our data demonstrate that cells isolated from freshly dissociated tumor tissues activate platelets through tumor-associated cysteine proteinases rather than by the ADP- or thrombin-dependent mechanisms characteristic of cultured human tumor cell lines.
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PMID:Mechanisms of platelet activation by cultured human cancer cells and cells freshly isolated from tumor tissues. 276 27


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