UMLS:C0025202 - FACTA Search

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

Using antibodies that recognize either tyrosinase, tyrosinase-related protein-1 (TRP1), or tyrosinase-related protein-2 (TRP2, DOPAchrome tautomerase), the quantities of those melanogenic enzymes were analyzed in five melanoma cell lines that possess various degrees of melanin production. All cells except JB/MS-W increased melanin production four to 30 times after 4 d of melanocyte-stimulating hormone (MSH) treatment. Melanin production by JB/MS-W cells was always under background, with or without MSH treatment. There was a positive correlation between quantities and synthetic rates of those melanogenic enzymes and their melanin formation or DOPAchrome tautomerase activities. The activity of a heat-resistant melanogenic inhibitory factor was also analyzed. The results showed, surprisingly, that pigmented cells showed higher levels of melanogenic inhibitors activity. Tyrosinase activity was increased dramatically whereas the level of melanogenic inhibitor was remarkably decreased following MSH treatment. Interestingly, melanogenic inhibitor derived from JB/MS-W cells suppressed not only tyrosinase but also DOPAchrome tautomerase, another enzyme functional in melanin production. These results clearly suggest that melanin production is regulated by a subtle balance between the activities of these enzymes and other factors such as the melanogenic inhibitor.
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PMID:Pigment production in murine melanoma cells is regulated by tyrosinase, tyrosinase-related protein 1 (TRP1), DOPAchrome tautomerase (TRP2), and a melanogenic inhibitor. 842 35

Tyrosinase is a rate-limiting enzyme of melanin biosynthesis and the brown (b)-locus protein is responsible for the formation of black melanin rather than brown. To identify the cis-acting element(s) required for pigment cell-specific gene transcription, we analyzed the promoter function of two pigment cell-specific genes encoding mouse tyrosinase and b-locus protein using a cell-free transcription system prepared from mouse melanoma cells. Functional and structural analysis of both gene promoters reveals that three elements are conserved in both genes at equivalent positions, suggesting that these elements may be responsible for pigment cell-specific transcription. We discuss possible mechanisms for pigment cell-specific expression of the tyrosinase and b-locus protein genes.
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PMID:Functional analysis of the tyrosinase gene and brown-locus protein gene promoters. 843

The effects of systems generating active oxygen species (superoxide anion, hydrogen peroxide, hydroxyl radical) on tyrosinase have been studied in cultured human melanoma cells. Tyrosinase activity was determined by measuring the quantity of 5-S-L-cysteinyl-L-dopa (5-S-CD) formed in the presence of D,L-dopa and L-cysteine. In some experiments, the enzyme protein was determined by radio immunoassay [RIA]. Exposure of cells to xanthine/xanthine oxidase or glucose/glucose oxidase resulted in a dose-related elevation of tyrosinase. Catalase, but not superoxide dismutase, prevented this increase indicating that hydrogen peroxide may be the agent responsible for the action, whereas superoxide anion is not involved. Hydroxyl radicals formed by the Haber-Weiss or Fenton type reactions were not found to produce elevation of tyrosinase. Catalase determinations showed no enzyme in the medium but a high concentration in the cells. Inhibition of intracellular catalase by 3-amino-1,2,4-triazole caused an increase in the tyrosinase level. The effects of dopac, xanthine/xanthine oxidase, and glucose/glucose oxidase all producing hydrogen peroxide, and increasing tyrosinase, were enhanced by the inhibition of catalase. It is concluded that hydrogen peroxide, formed by the systems, accounts for the elevation of tyrosinase level. When tyrosinase activities determined by 5-S-CD formation were compared to enzyme amounts found by RIA, the ratios of these values were always constant. This fact indicates that the increase in the tyrosinase activities was not due to an activation of the enzyme, but mirrored the quantities of enzyme protein present in the samples. On the basis of our findings, it is assumed that hydrogen peroxide is a regulator of tyrosinase in normal melanocytes and melanoma cells.
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PMID:Hydrogen peroxide as an inducer of elevated tyrosinase level in melanoma cells. 843 9

Tyrosinase activity is a key determinant of melanin production in skin. Because retinoic acid regulates tyrosinase activity in melanoma cells, we analyzed modulation of pigmentation in vivo by retinoic acid. Black and white subjects were either not treated, or treated topically for 4 d under occlusion with vehicle, retinoic acid (0.1%), or the irritant sodium lauryl sulfate (2%). In untreated skin, tyrosinase activity and melanin content were significantly greater (2.3 times, and 3.2 times, respectively) in blacks versus whites. Four days of treatment with topical retinoic acid did not alter tyrosinase activity or melanin content in black skin. In contrast, retinoic acid treatment significantly induced (2.7 times, n = 8) tyrosinase activity, compared to vehicle treatment, in white skin. Melanin content, however, remained unchanged at 4 d. In separate experiments, tyrosinase activity in white subjects (n = 25) was increased 16% (p = 0.01) in sodium lauryl sulfate-treated skin, and 77% (p = 0.0005) in retinoic acid-treated skin, compared to vehicle-treated skin. The effect of retinoic acid on tyrosinase activity could be differentiated from non-specific irritation, because tyrosinase activity in retinoic acid-treated skin was significantly greater (52%, p = 0.004) than sodium lauryl sulfate-treated skin. Similar results were obtained with the dihydroxyphenylalanine reaction done on vehicle, sodium lauryl sulfate-, and retinoic acid-treated white skin. Northern analysis (n = 6) and semi-quantitative polymerase chain reaction (n = 6) demonstrated that retinoic acid treatment did not alter tyrosinase mRNA levels in white skin. Western analysis revealed that induction of tyrosinase activity by retinoic acid also was not associated with increased tyrosinase protein content (n = 9), indicating that regulation of tyrosinase activity by retinoic acid occurs through a post-translational mechanism. These data demonstrate that low tyrosinase activity in white skin in vivo is retinoic acid inducible and high tyrosinase activity in black skin in vivo is neither further induced nor reduced by retinoic acid.
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PMID:Differential regulation of tyrosinase activity in skin of white and black individuals in vivo by topical retinoic acid. 849 19

Tumor rejection antigens, recognized by cytotoxic T lymphocytes (CTL), have been identified in several tumors. In malignant melanoma MAGE-1 and -3 antigen peptides, recognized by specific CTL, were defined. Tyrosinase, gp100 and Melan A/MART-1, normally expressed in the melanosome, were also shown to be recognized by specific CTL. In murine tumors, three antigenic peptides were identified. These are P1A in mastocytoma P815, MUT1 in murine lung carcinoma (3LL) derived from connexin 37, and pRL1 in murine leukemia RL male 1 derived from c-akt proto-oncogene. Analysis of the tumor rejection antigen peptides will elucidate the molecular nature of the tumor rejection antigen and facilitate their therapeutic use as tumor vaccine.
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PMID:[Analysis of tumor rejection antigen peptides recognized by specific CTL]. 858 97

Tyrosinase was the first melanoma-associated antigen shown to be recognized by CD4+ T cells. In this study, we have identified two HLA-DRB1*0401-restricted peptides recognized by these T cells: Ty 56-70 and Ty 448-462. As with many of the MHC class I-restricted melanoma epitopes, both are nonmutated self peptides that have intermediate and weak MHC binding affinities, respectively. Mutated and truncated versions of these peptides were used to define their MHC binding anchor residues. Anchor residues were then modified to derive peptides with increased MHC binding affinities and T cell stimulatory properties. Ty 56-70 and Ty 448-462 enhance the list of immunogenic HLA-A2-, A24-, and B44-restricted tyrosinase peptides already described. Thus, tyrosinase provides a model for anti-melanoma vaccines in which a single molecule can generate multivalent immunization incorporating both CD4+ and CD8+ T cell responses.
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PMID:Melanoma-specific CD4+ T cells recognize nonmutated HLA-DR-restricted tyrosinase epitopes. 864 6

Tyrosinase mRNA produced by melanoma cells can be detected by reverse transcriptase-polymerase chain reaction (rt-pcr) with fine-needle tissue punctures. Fine-needle punctures from six suspected skin and lymph node metastases in three patients with malignant melanoma were analysed via rt-pcr for tyrosinase mRNA. All the suspected metastases were surgically removed and histologically examined separately. In each case the rt-pcr results and the histological diagnosis corresponded. This less invasive and highly sensitive method could prove to be a useful alternative in the diagnosis of melanoma metastasis.
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PMID:[Detection of tyrosinase mRNA using reverse transcription/polymerase chain reaction with fine needle punctures of melanoma metastases]. 864 2

Surgical therapy for localized melanoma is highly successful. However, if melanoma spreads beyond its primary site, the results of treatment are poor. Therefore, early detection of circulating melanoma cells in the blood may be important. Currently, circulating melanoma cells are undetectable. Tyrosinase is an enzyme in the melanin synthetic pathway the expression of which is only found in melanin-producing cells. Because melanocytes are not normally found in the peripheral blood, we hypothesize that melanoma cells circulating in the peripheral blood could be detected by amplifying the tyrosinase mRNA using the reverse transcription-PCR (RT-PCR). The purpose of this study was to determine the sensitivity of a RT-PCR-based assay for tyrosinase mRNA from peripheral blood and evaluate correlations with tumor status in melanoma patients. RNA was isolated from the peripheral blood or tissue culture cells, and cDNA was prepared. DNA was amplified using RT-PCR with nested primers for tyrosinase and beta(2)-microglobulin. Serial dilution experiments using cells from the SK-MEL-28 cell line were performed in culture media and in whole blood. Twelve patients with melanoma, 10 healthy controls, and 15 patients with nonmelanoma malignancies were tested for tyrosinase expression in peripheral blood. The sensitivity of this assay was determined to be as low as 1 melanoma cell in 5 ml of whole blood. No tyrosinase was found in healthy subjects or other cancer control patients. Tyrosinase mRNA was detected in the blood of five melanoma patients (one stage II, two stage III, and two stage IV). Three of these tyrosinase-positive patients had biopsy-proven evidence of melanoma, whereas the other two had no clinical evidence of malignant disease after surgical resection. The remaining seven melanoma patients had no evidence of disease and tested negative for tyrosinase mRNA. This study suggests that a RT-PCR-based assay for the detection of tyrosinase mRNA in peripheral blood is feasible. Moreover, the presence of tyrosinase mRNA in the blood seems to correlate with the stage of melanoma. Further study and follow-up are needed to clarify the role of tyrosinase mRNA as a tumor marker for malignant melanoma.
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PMID:Detection of tyrosinase mRNA from the blood of melanoma patients. 872 21

PUVA (combination of psoralens and ultraviolet A radiation) is a potent inducer of melanogenesis in normal human skin. The molecular mechanisms underlying this effect are poorly characterized. This study was undertaken to investigate the action of PUVA on melanogenesis in S91 murine melanoma cells and in cultured normal human melanocytes. Tyrosinase and DOPAchrome tautomerase (DCT) activities as well as melanin neosynthesis were measured in PUVA-treated pigment cells. To determine whether a correlation exists between PUVA-induced melanogenesis and expression of melanogenic enzymes, we analyzed the levels of tyrosinase, DCT, and tyrosinase-related protein-1 (TRP-1 or gp75) by western blotting in PUVA-treated cells. We demonstrate that UVA upregulates tyrosinase activity and melanin content with 5-methoxypsoralen at 1 microM. This phenomenon depends on the energy delivered during phototreatment. In both human and mouse cells, stimulation of melanogenesis correlated with an increase of the amount of tyrosinase. In PUVA-treated S91 cells, tyrosinase mRNA was increased, but no stimulation of DCT activity occurred in these cells, in agreement with the unchanged amount of DCT protein in cell extracts. On the contrary, in melanocytes treated with PUVA, a decrease in DCT protein was observed. Finally, the amount of TRP-1 protein was not affected by PUVA in either S91 cells or melanocytes. These results show that melanogenesis induced by PUVA is related to an increase in expression of tyrosinase. In melanocytes, melanogenesis and DCT are negatively correlated, which suggests that PUVA favors the metabolic pathway of dark-eumelanins with high UV-protective properties. This study also suggests that PUVA regulates tyrosinase, DCT, and TRP-1 expression in a noncoordinate manner.
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PMID:PUVA (5-methoxypsoralen plus UVA) enhances melanogenesis and modulates expression of melanogenic proteins in cultured melanocytes. 875 40

Tyrosinase may protect against oxidative stress by using the superoxide anion (O2-1.) in the production of melanin. We have examined this by comparing its cytotoxic effects in B16/F10 and B16/F10-differential deficient (-DD) mouse melanoma cells that express high and low levels of tyrosinase activity respectively. Xanthine oxidase (XO) was used to generate O2.1 and cytotoxicity assessed by measuring cell survival. XO increased O2.- concentrations and 3 h later dose related decreases in cell survival were seen. F10 cells were more resistant to these cytotoxic effects than the F10-DD cells. [Nle4, DPhe7]MSH increased tyrosinase activity and melanin content, reduced O2.- concentration and increased the resistance of F10 cells to the cytotoxic effects of O2.-. No such effects were seen in F10-DD cells. The effect of [Nle4, DPhe7]MSH on the resistance of the F10 cells was time-dependent and noticeable when tyrosinase activity but not melanin was increased. This suggests that it was the activation of tyrosinase rather than the increase in the melanin that provided the protection against O2.-. In support of this, inhibition of tyrosinase with phenylthiocarbamide reduced the increased resistance induced by [Nle4, DPhe7]MSH. Moreover, although melanin was capable of scavenging O2.- it had little effect at concentrations comparable to those in the activated F10 cells. XO also increased the melanin content of F10 but not F10-DD cells. We conclude that tyrosinase is able to utilise O2.- to produce melanin and this provides pigment cells with a unique anti-oxidant mechanism.
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PMID:Activation of tyrosinase reduces the cytotoxic effects of the superoxide anion in B16 mouse melanoma cells. 885 70

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