UMLS:C0278883 - FACTA Search

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Query: UMLS:C0278883 (metastatic melanoma)
6,224 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The WAF1 gene, located on chromosome 6p, encodes a M(r) 21,000 protein (p21) that can arrest cell growth by associating with and inhibiting cyclin-dependent kinase complexes that are necessary for cells to exit Gr. Transcriptional activation of WAF1 can be accomplished by increasing levels of p53 protein induced by various cellular stresses, including DNA damage. Metastatic melanomas are paradoxical in that most overexpress wild-type p53 protein, yet cell growth is not inhibited. Thus, it is possible that lack of growth suppression in melanomas is due, in part, to mutations in the WAF1 gene. Therefore, we examined the entire coding region of the WAF1 gene in 24 metastatic melanoma cell lines and three normal melanocyte lines by single-strand conformation polymorphism (SSCP) analysis and direct DNA sequencing. We similarly examined the DNA from lymphoblastoid cell lines, derived from nine individuals belonging to seven melanoma-prone families, in which haplotypes of markers on 6p cosegregate with melanoma for germline mutations in the WAF1 gene. Results indicate that (i) mutation of the WAF1 gene is an infrequent event in individuals with sporadic melanoma or predisposed to familial melanoma and (ii) the uncontrolled growth of melanoma cells is not due to mutation of the WAF1 gene. However, expression studies found a wide variation in the level of p21 protein in melanoma cells, suggesting that aberrant regulation of p21 may play a role in melanoma development. Moreover, there was no predictable relationship between p21 expression and p53 expression, indicating that other, p53-independent, pathways may be important for the regulation of p21 in melanoma cells.
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PMID:Mutations and defective expression of the WAF1 p21 tumour-suppressor gene in malignant melanomas. 749 59

To determine whether loss or inactivation of the putative tumor-suppressor gene, p16, represents an initiating or a secondary event in the progression of human melanoma, we evaluated the status of this gene in early and advanced-stage melanomas of sporadic origin. The results of this analysis revealed p16 deletions in 4/6 primary and 6/14 metastatic melanoma cell lines but not in 3/3 metastatic melanoma specimens. Surprisingly, p16 deletions were also detected in 8/8 benign compound nevi and in 1/3 normal human melanocyte isolates. To investigate whether these deletions in benign and malignant stages of the human melanocytic system were specific for p16, we analysed the same specimens and cell lines for expression of p21, another cyclin-dependent kinase inhibitor and potential tumor suppressor. In contrast to p16, expression of p21 was detected in 3/3 melanocytes, in 3/3 benign nevi, and in greater than 50% of malignant melanoma cell lines and specimens. Finally, because of the recently documented inverse relationship between expression of p16 and pRb protein in a variety of tumor cell lines, we analysed some of the p16-positive and negative melanoma cell lines for the presence of pRb protein. The results demonstrated pRb protein in each of these cell lines. Taken together, although this study revealed deletions of the p16 gene in a significant number of sporadic primary and metastatic melanoma cell lines, they were also detected in benign nevus specimens and in some normal human melanocyte isolates. Thus, these findings cast some doubt on the role of this gene as being causal to the onset and progression of human melanoma, in particular, sporadic melanoma.
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PMID:Differential expression of the cyclin-dependent kinase inhibitors p16 and p21 in the human melanocytic system. 864 98

p21(WAF1/CIP1) (p21) is an inhibitor of cyclin-dependent kinases recently identified as the downstream effector of wild-type p53-mediated cell cycle arrest. The gene coding for p21 may function as a negative regulator of melanoma growth, progression, and metastasis. Using immunohistochemistry and Western blotting, we investigated the expression of p21 in human melanocytic proliferations. Immunohistochemical staining was performed on 13 common acquired nevi, 12 dysplastic nevi, 23 primary malignant melanomas, and 12 metastatic melanomas. Common acquired nevi showed minimal p21 staining (1.8+/-0.3%, mean+/-SEM). The percentage of positive nuclei was slightly elevated in dysplastic nevi (8.9+/-1.7%). Both primary malignant melanoma (29+/-3%) and metastatic melanoma (33+/-5%) demonstrated a significantly increased number of p21-positive nuclei compared to benign lesions (p<0.001). p21 was strongly expressed even in actively proliferating lesions as confirmed by MIB-1 labelling, and although the majority of p21-positive cells likely represent a non-proliferating population, staining was occasionally observed in cells undergoing mitosis, suggesting abnormal function of this cell cycle inhibitor in malignant melanoma. Overexpression of p21 in metastatic melanoma compared to common acquired nevi was confirmed by Western blot analysis of human tumor samples. These findings suggest that increased p21 expression relative to benign nevi is not sufficient to control melanoma growth in vivo.
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PMID:Overexpression of the cyclin-dependent kinase inhibitor p21(WAF1/CIP1) in human cutaneous malignant melanoma. 919 78

Interleukin-6 (IL-6) inhibits the growth of melanocytes and of early stage melanoma cells, but not that of advanced melanoma cells. The in vitro IL-6 response can be restored in the highly metastatic melanoma B16-F10.9 by addition of recombinant soluble IL-6 receptor alpha-chain (sIL-6R). The F10.9 cells then undergo irreversible growth-arrest and show increased adherence with changes from epithelioid to spindleoid morphology. The sIL-6R is required for IL-6 to induce a sustained activation of the various Stat transcription factors which bind to specific IL-6 inducible enhancers. The sIL-6R and IL-6 combination causes an increase in the level of the anti-oncogenic transcription factor IRF-1 protein and DNA-binding, which remain elevated for 24 h. The promoter activity of the anti-oncogenic p21/Waf-1/Cip-1 gene is induced and accumulation of the p21 protein is observed. These results illustrate the potent agonist activity of sIL-6R on molecular pathways which could mediate the growth-arrest and differentiation of the metastatic melanoma cells. Previously observed antimetastatic effects of IL-6 therapy in mice bearing F10.9 tumors may be at least partly due to direct growth inhibition and differentiation elicited by sIL-6R present in biological fluids.
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PMID:Unmasking by soluble IL-6 receptor of IL-6 effect on metastatic melanoma: growth inhibition and differentiation of B16-F10.9 tumor cells. 924 10

Metastatic melanoma, compared with other cancers, appears to be unusual because of its low frequency of p53 mutations and prevalence of wild-type p53 protein in advanced malignancy. Here, we examined the effects of wild-type and mutated p53 (143 Val-Ala) on tumorigenic and metastatic potential of two human melanoma cell lines. The cell line UISO-MEL-4 contains wild-type p53 and is tumorigenic, whereas UISO-MEL-6 lacks p53 and produces lung and liver metastasis upon s.c. injection into athymic mice. Our study showed that UISO-MEL-4 stably transfected with wild-type p53 cDNA driven by cytomegalovirus promoter-enhancer sequences expressed high levels of p53 and p21 and formed s.c. tumours in vivo. Mutated p53 (143 Val-Ala) expression, on the other hand, inhibited tumour growth in 50% of cases and produced significantly slower growing non-metastatic tumours. Reduced tumour growth involved necrotic as well as apoptotic cell death. Inhibition of tumour growth was abrogated by the addition of Matrigel (15 mg ml(-1)). With UISO-MEL-6 cells, stably transfected with mutant p53, tumour growth was delayed and metastasis was inhibited. In soft agar colony formation assay, both wild-type and mutant p53 transfectants reduced anchorage-independent colony formation in vitro. These data suggest that mutated (143 Val-Ala) p53, which retains DNA binding and some of the transactivation functions of the wild-type p53 protein, suppresses tumorigenic and metastatic potentials of human melanoma cell lines in vivo.
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PMID:Suppression of tumorigenic and metastatic potentials of human melanoma cell lines by mutated (143 Val-Ala) p53. 964 36

12-O-Tetradecanoyl phorbol-13-acetate (TPA) inhibits the growth of most malignant melanoma cells but stimulates the growth of normal human melanocytes. We previously showed that addition of TPA inhibits the growth of the human metastatic melanoma cell line, Demel, by blocking cells at both the G1/S and G2/M cell cycle transitions (D. L. Coppock et al., 1992, Cell Growth Differ. 3, 485-494). To examine the G2/M transition, we developed a method to synchronize the cells in early S phase using Lovastatin and mevalonate, followed by treatment with hydroxyurea (HU). TPA (30 nM) was effective in blocking cells from entering mitosis and reentering G1 when added up to the end of G2. These cells arrested in G2. Examination of the levels of cyclins A and B1 demonstrated that the levels of these cyclins were not limiting for entrance into M. However, the addition of TPA blocked the increase in p34(cdc2)/cyclin B1 kinase activity. In cells treated with TPA, most p34(cdc2) was found in the slowly migrating forms on Western blots, which contained increased levels of phosphotyrosine. In addition, the level of the cyclin-dependent kinase inhibitor p21(Cip1/Waf1), but not of p27(Kip1), was increased. We examined the expression of protein kinase C (PKC) isoforms in Demel cells using Western blots to understand which types were involved in the G2 arrest. Demel cells expressed the PKC alpha, betaI, betaII, delta, epsilon, iota/lambda, zeta, and mu isozymes. PKC eta and PKC theta were not detected. Addition of TPA did not completely down regulate any PKC isozymes over a 12-h period in these synchronized cells. PKC alpha, betaI, betaII, delta, and epsilon isozymes were translocated to the membrane fraction from the cytosolic fraction when treated with TPA. PKC delta appeared as a doublet and the addition of TPA shifted a majority to the slower migrating form. The level of PKC mu was constant; however, a slow mobility form was observed in TPA-treated cells. This reduced mobility was at least partially due to phosphorylation. Thus, the arrest of growth in G2 appears to be due to the inhibition of the p34(cdc2) kinase activity which is associated with the increased expression of p21(Cip1/Waf1) and increased phosphorylation on tyrosine of p34(cdc2). This arrest, in turn, is associated with a shift of PKC isozymes PKC alpha, PKC betaI, PKC betaII, PKC delta, PKC epsilon, and PKC mu to the membrane fraction which is induced by addition of TPA.
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PMID:Regulation of the cell cycle at the G2/M boundary in metastatic melanoma cells by 12-O-tetradecanoyl phorbol-13-acetate (TPA) by blocking p34cdc2 kinase activity. 968 25

We have analyzed the expression of the CDKN1A (p21(CIP1)), CDKN1B (p27(Kip1)), TP53, RB1 and MDM2 proteins and tumor cell proliferation by immunohistochemical staining in 59 cases of metastatic melanoma. The genomic status of the CDKN2A (INK4-ARF, p16/p14(ARF)), CDKN2B (p15) and CDKN2C (p18) genes was determined by PCR-SSCP (single-strand conformation polymorphism) in 46 of these cases. These results were correlated with various clinico-pathological parameters, including the outcome of combined chemoimmunotherapy. We found positive correlations between the expression of CDKN1A and MDM2 (r = 0.5063, P = 0.001), between the expression of CDKN1B and RB1 (r = 0.5026, P = 0.001), and between RB1 expression and tumor cell proliferation (0.5564, P<0.001). Two mutations in the CDKN2A (p16) gene were detected, including a novel base change AAC-->ATC (Asn to Ile) at codon 71, that also changes the codon 85 of the alternative reading frame gene p14(ARF) from CAA to CAT (Gln to His). Homozygous deletion at exon 2 of the CDKN2A (INK4-ARF) gene was detected in six cases. In seven cases, the 540C-->G polymorphism in the 3'UTR of the CDKN2A (p16) gene was found in linkage disequilibrium with the 74C-->A polymorphism in intron 1 of the CDKN2B gene (P < 0.0001). These cases had significantly lower expression of the TP53 protein (P = 0.0032). Both 540C-->G and 580C-->T polymorphisms in the 3'UTR of the CDKN2A (p16) gene were associated with significantly shorter progression time from primary to metastatic disease (P = 0.0071). We conclude, that although none of the analyzed cell cycle regulators could be singled out as a major prognostic factor, G(1)/S checkpoint abnormalities remain one of the most significant factors in the development of malignant melanoma.
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PMID:Analysis of G(1)/S checkpoint regulators in metastatic melanoma. 1086 49

The incidence of cutaneous malignant melanoma is undergoing a dramatic increase in persons with light-color skin in all parts of the world. The prognosis for individuals with advanced disease is dismal due to the lack of effective treatment options. Thus, there is a need for new approaches to control tumor progression. Epidemiological, experimental, and mechanistic data implicate omega-6 polyunsaturated fatty acids (PUFAs) as stimulators and long-chain omega-3 PUFAs as inhibitors of development and progression of a range of human cancers, including melanoma. The aim of this study was to assess the mechanisms by which docosahexaenoic acid (DHA), an omega-3 PUFA, affects human melanoma cells. Exponentially growing melanoma cell lines were exposed in vitro to DHA and then assessed for (a) inhibition of cell growth; (b) expression of cyclins and cyclin-dependent kinase inhibitors in individual cells by flow cytometry and immunocytochemistry using specific monoclonal antibodies to cyclin D1, cyclin E, p21WAF1/CIP1, or p27(KIP1); and (c) expression of total pRb(T) independent of phosphorylation state and hypophosphorylated pRb(P-) in fixed cells by flow cytometry and immunocytochemistry using specific monoclonal antibodies to pRb(T) or pRb(P-), respectively. After treatment with increasing concentrations of DHA, cell growth in a majority of melanoma cell lines (7 of 12) was inhibited, whereas in 5 of 12 cell lines, cell growth was minimally affected. Two melanoma cell lines were examined in detail, one resistant (SK-Mel-29) and one sensitive (SK-Mel-110) to the inhibitory activity of DHA. SK-Mel-29 cells were unaffected by treatment with up to 2 microg/ml DHA whether grown in the absence or presence of 1% fetal bovine serum (FBS). No appreciable change was observed in cell growth, cell cycle distribution, the status of pRb phosphorylation, cyclin D1 expression, or the levels of the cyclin-dependent kinase inhibitors p21 and p27. In contrast, SK-Mel-110 cell growth was inhibited by DHA with the cells accumulating either in G1 or S phase: 0% in SK-Mel-29 versus 13.3 or 41.2% in SK-Mel-110 in the absence or presence of FBS, respectively. In the absence of serum, considerable death occurred by apoptosis. In addition, DHA treatment resulted in increasing numbers of SK-Mel-110 cells (from 12 to >40%) expressing hypophosphorylated pRb, whereas the levels of cyclin D1 and p21 changed little. Expression of p27 in these cells increased >2.5 times when grown in the absence of FBS but not in the presence of 1% FBS. Thus, we show for the first time that DHA inhibits the growth of cultured metastatic melanoma cells. Furthermore, growth inhibition correlates with a quantitative increase in hypophosphorylated pRb in the representative sensitive melanoma cell line SK-Mel-110. Although multiple factors influence pRb phosphorylation, it appears that both cyclin D1 and p21 expression do not change in the presence of DHA, although p27 was strikingly increased in SK-Mel-110 cells in the absence of FBS. The fact that pRb became hypophosphorylated after exposure to DHA suggests a cross-talk mechanism between fatty acid metabolism and the pRb pathway. Determining the mechanism by which PUFAs can inhibit melanoma growth will be an important first step in the rational use of PUFAs as antitumor agents.
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PMID:Cell cycle arrest and apoptosis of melanoma cells by docosahexaenoic acid: association with decreased pRb phosphorylation. 1094 21

The molecular changes associated with the transition of melanoma cells from radial growth phase (RGP) to vertical growth phase [(VGP), metastatic phenotype] are not very well defined. We previously demonstrated that expression of the cell-surface adhesion molecule MCAM/MUC18 correlates directly with the metastatic potential of human melanoma cells. In addition, the progression of human melanoma towards the metastatic phenotype is associated with loss of expression of the tyrosine-kinase receptor c-KIT. In this review, I will summarize our recent studies demonstrating that the expression of both genes is regulated by the AP-2 transcription factor. Moreover, we have observed a loss of AP-2 expression in metastatic melanoma cells. Re-expression of AP-2 in the highly metastatic A375SM cells decreased their tumorigenicity and inhibited their metastatic potential in nude mice. MCAM/MUC18 mRNA and protein expression was significantly down-regulated while c-KIT expression was up-regulated in the AP-2-transfected cells. To further investigate the role of AP-2 in the progression of human melanoma, we attempted to inactivate AP-2 in primary cutaneous melanoma by using a dominant-negative AP-2, or the AP-2B gene. Expression of AP-2B in SB-2 cells augmented their tumorigenicity in nude mice, and upregulated MMP-2 expression and activity. As AP-2 also regulates other genes that are involved in the progression of human melanoma such as E-cadherin, p21/WAF-1, HER2/neu, Bcl-2, FAS/APO-1, IGF-R-1, VEGF and the thrombin receptor (PAR-1), we therefore propose that loss of AP-2 is a crucial event in the development of malignant melanoma. In addition, the transition of melanoma cells from RGP to VGP is also associated with over-expression of the transcription factors CREB and ATF-1. The notion that the balance between AP-2 and CREB/ATF-1 expression determines the progression of melanoma cells towards the metastatic phenotype will be discussed.
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PMID:Gene regulation in melanoma progression by the AP-2 transcription factor. 1131 Jul 95

Melanoma begins with benign nevi and progresses to radial growth phase (RGP) and to vertical growth phase [(VGP), metastatic phenotype]. The molecular changes associated with these transitions are not yet well defined. However, transcriptional regulation of some genes that are critical in melanoma progression is beginning to be elucidated. The first part of this review will focus on our recent studies demonstrating that progression of human melanoma is associated with loss of expression of the transcription factor AP-2. In metastatic melanoma cells, this loss resulted in overexpression of MCAM/MUC18 and MMP-2, and lack of expression of c-KIT. In further investigations, we inactivated AP-2 in SB-2 primary cutaneous melanoma cells by using a dominant-negative AP-2, the AP-2B gene. Expression of AP-2B in SB-2 cells augmented their tumorigenicity in nude mice and upregulated MMP-2 expression and activity. We have also recently demonstrated that loss of AP-2 expression in metastatic melanoma cells resulted in overproduction of the thrombin receptor, PAR-1. Other studies have shown that AP-2 regulates additional genes involved in melanoma development and progression, including E-cadherin, p21/WAF-1, HER2, Bcl-2, FAS/APO-1, IGF-R-1, and VEGF. We propose that loss of AP-2 is crucial in the development of malignant melanoma. Additionally, the transition of melanoma cells from RGP to VGP is associated with overexpression of two transcription factors, CREB and ATF-1, both of which may act as survival factors for human melanoma cells. The second part of the review will briefly discuss the role of other transcription factors, including ATF-2, SNAIL, MITF, and NFkappaB in the progression of human melanoma and will summarize recent knowledge on how changes in the expression of these transcription factors contribute to acquisition of the metastatic phenotype in human melanoma.
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PMID:Transcriptional regulation of metastasis-related genes in human melanoma. 1274 83

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