Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0278883 (metastatic melanoma)
 6,224 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although homozygous deletions of the cyclin-dependent kinase inhibitor 2 gene p16INK4a on 9p21 have been reported frequently in metastatic melanoma cell lines, and intragenic mutations within the p16INK4a gene have been detected in familial melanoma kindreds, specific targeting of this gene in the development of sporadic melanoma in vivo remains controversial. Southern analyses were performed in this study to initially assess the frequency of hemi- or homozygous losses of p16INK4a, as well as its neighboring family member, p15INK4b, and other candidate regions within 9p21, in sporadic melanoma. Overall, 22 of 40 (55%) uncultured sporadic melanoma DNAs were determined to harbor deletions of 1-11 markers/genes located on 9p21. This included 10 tumors (25%; 10 of 40) with homozygous deletions limited to either the p16INK4a gene only (20%; 2 of 10), both the p16INK4a and p15INK4b genes (10%; 1 of 10), another novel 9p21 gene, FB19 (10%; 1 of 10), or all three of these genes plus surrounding markers (60%; 6 of 10). In subsequent single-strand conformation polymorphism and sequencing analyses, intragenic mutations in the p16INK4a gene were also revealed in two (10%; 2 of 21) melanoma DNAs that retained one copy of this locus. By comparison, the frequency of pl6INK4a and p15INK4b homozygous deletions, as well as p16INK4a mutations, in melanoma cell lines (analyzed in parallel) was 2-3-fold higher at 61 (23 of 38) and 24% (9 of 38), respectively. These findings indicate that (a) p16INK4a is inactivated in vivo in over one-fourth (27.5%; 11 of 40) of sporadic melanomas; (b) mutation/deletion of p16INK4a may confer a selective growth advantage in vitro; and (c) other 9p21 tumor suppressor genes could be targeted during the development of melanoma.
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PMID:Loss of the p16INK4a and p15INK4b genes, as well as neighboring 9p21 markers, in sporadic melanoma. 889 59

The biological and molecular characteristics of cell lines from metastatic melanomas have been extensively studied but less is known about cells from the biologically earliest stage of primary melanoma. The overall success rate of establishing permanent cell lines from such lesions is only 10% of that for biologically late primary or metastatic melanomas, although our laboratory now has eight cell lines available. The cells are immortal but show reduced or no proliferation in soft agar and immunodeficient mice when compared with primary melanomas from the biologically advanced vertical growth phase. Metastatic melanoma cell lines from patients with familial melanoma or xeroderma pigmentosum are biologically similar to those from patients with spontaneous melanomas. Irrespective of the malignant stages, deletions and mutations can occur in exons 1-3 of the p16INK4A gene. DNA fingerprinting was then employed to demonstrate the uniqueness of individual cell lines and to confirm the identity of cell lines derived from same patients. These cell lines are an excellent resource to investigate melanoma progression.
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PMID:Melanoma cell lines from different stages of progression and their biological and molecular analyses. 957 15

Transformation of melanocytes to metastatic melanoma cells is characterized by unrestricted proliferation under growth-factor-deprived conditions, genetic loss of cyclin dependent kinase (CDK) inhibitors (CKI, e.g. p16INK4A), and aberrant production of autocrine growth factors (e.g. basic fibroblast growth factor). The latter induces increased expression of positive CDK regulators (e.g. cyclin D1) and reduced expression of additional CKIs (e.g. p27KIP1). Combined, these events lead to sustained CDK activity and hyperphosphorylation/inactivation of the retinoblastoma tumor suppressor protein (Rb). The persistent Rb phosphorylation causes the accumulation of E2F and the transcription of its target genes whose products promote cell cycle progression.
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PMID:Melanomas, from the cell cycle point of view (Review). 985 45

Losses of heterozygosity involving chromosomes 9 and 10 are frequent events in the development and progression of cutaneous malignant melanoma. To investigate whether specifically deleted chromosomal regions encode tumor suppressor genes (TSGs), we introduced normal chromosome 10 into the tumorigenic human metastatic melanoma cell line UACC-903 by microcell fusion. In addition, two chromosome 9 derivatives that were microdeleted in the region of the p16INK4A/p15INK4B locus were transferred to determine whether an additional melanoma TSG or TSGs reside on chromosome 9p, as indicated by previous melanoma allele loss studies. In comparison to parental cells, microcell hybrids generated with chromosomes 9 (microdeleted) and 10 displayed reduced anchorage-independent growth in soft agar and markedly reduced tumorigenicity in athymic (nu/nu) mice. These data define a TSG or TSGs that function independently of p15/p16 on chromosome 9 and provide evidence for a TSG (or TSGs) on chromosome 10 that may be important in melanoma development.
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PMID:Functional evidence of novel tumor suppressor genes for cutaneous malignant melanoma. 997 91

Transformation of normal melanocytes to metastatic melanoma cells is characterized by loss of dependency on external growth factors required for the viability and proliferation of normal melanocytes. The molecular events that lead to melanoma cell autonomous growth are not well defined, but are likely to include sustained activity of cyclin-dependent kinases (CDK2, CDK4 and CDK6) as a result of loss of CDK inhibitors (such as p16INK4a and possibly p27KIP1), and persistent upregulation of several cyclins (cyclin D1, cyclin A and cyclin E), the positive regulators of CDKs. CDKs phosphorylate, and consequently, inactivate the retinoblastoma family of tumor suppressor proteins (pRb, p107 and p130), termed pocket proteins. The inactivation of pocket proteins liberates E2F transcription factors from suppressive complexes ('free' E2F) that, in turn, induces the continuous expression of target genes whose products promote cell cycle progression. In normal melanocytes, external growth factors suppress the activity of all three pocket proteins, allowing E2F activity to accumulate and sustain transcription of target genes required for cell proliferation. In contrast, in melanoma cells from advanced lesions, all three pocket proteins are highly phosphorylated and inactive, even in the absence of environmental mitogens, and free E2F activity is constitutively high. Manipulations of normal mouse melanocytes in vitro, and in vivo in transgenic mouse expressing ectopic genes, further support the notion that growth rate, and release from dependency on external mitogens, positively correlate with inactivation of pocket proteins. The latter has been accomplished by sustained cell surface receptor stimulation, such as constitutive high expression of a growth factor, or by sequestration with dominantly acting viral proteins. Taken together, chronic hyperphosphorlyation/inactivation of pRb, p107 and p130 is probably one of the key events in converting growth-factor dependent normal melanocytes, to autonomously growing melanoma cells. Since all pocket proteins are regulated by CDKs activity, it is likely that agents that inhibit this class of enzymes will be effective in treating melanoma patients.
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PMID:Melanoma cell autonomous growth: the Rb/E2F pathway. 1072 88

Malignant melanoma is a notoriously aggressive disease that can affect relatively young individuals and whose incidence is rising at an alarming rate. Unlike many cancers, metastatic melanoma is poorly responsive to current therapies and mutations affecting p53, the retinoblastoma gene product or Ras which occur frequently in many other cancer types, appear to be rare or at least relatively late events in the progression of the disease. Recent advances in our understanding of the disease at the molecular level have indicated that in addition to the loss of cell cycle checkpoints which may be common to all cancers, malignant melanoma shares many characteristics in common with developmental precursors to melanocytes, the mature pigment producing cells of the skin and hair follicles which are responsible for skin and hair colour. This review therefore focuses on the signalling pathways that play a crucial role in the development of the melanocyte lineage which are subject to deregulation in malignant melanoma namely signalling by receptor tyrosine kinases, the Wnt signalling pathway, as well as loss of the p16INK4a cyclin-dependent kinase inhibitor. Intriguingly all three pathways impact on the expression or function of the microphthalmia-associated transcription factor which plays an essential role in melanocyte development.
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PMID:Melanocyte development and malignant melanoma. 1100 28

Lack of p14ARF expression or its functional inactivation has been observed in human and murine carcinomas. Although very few mutations of p14ARF have been detected in some cancer types, changes in expression seem to play an important role in the development of other human cancers such as mesotheliomas. To examine the p14ARF gene and expression of p14ARF protein in melanomas, we screened eight human melanoma cell lines and primary human melanocytes by RT-PCR, sequencing and immunoblotting. All melanoma cell lines analyzed expressed wild-type p14ARF mRNA as well as protein. P14ARF expression was investigated by immunohistochemical staining of 32 tissue samples of benign melanocytic nevi (n=14), melanomas (n=12) and melanoma metastases (n=6). In contrast to the results obtained from cell lines in vitro the immunohistochemical stainings revealed a correlation between the progression of melanoma and the lack of the p14ARF protein expression. Positive p14ARF protein staining was observed in 11 of 14 benign nevi, in 3 of 12 melanomas and in 0 of 6 melanoma metastases. In summary, we demonstrated a significant inverse correlation between p14ARF protein expression and progression of melanocytic tumors since the amount of p14ARF protein staining decreased from benign melanocytic nevi to metastatic melanoma in situ. These results suggest that p14ARF inactivation is important in the development of melanomas.
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PMID:Loss of p14ARF expression in melanoma. 1187 22

p16INK4a gene mapped at chromosome 9p21 region encodes a tumor suppressor protein p16 which is frequently inactivated in human cancers, including skin melanoma. In order to clarify the importance of p16 alterations in melanoma, we examined the deletions of p16INK4a and expression of p16 protein in eight unselected primary and metastatic melanoma cell lines from human skin melanomas. Normal skin melanocytes were used as controls. Deletions of entire exons in the p16INK4a gene were detected by PCR technique and expression of the p16 protein was examined by Western blotting and immunocytochemistry. Results showed that the fragments from exons 2A, 2C and 3 in p16INK4a gene were totally deleted in the metastatic melanoma cell line, FM28.7 and the fragment from exon 3 was deleted in the metastatic melanoma cell line, FM55M2. P16 protein was strongly expressed in two of the primary melanomas cell lines (FM55P and RaH3). The p16 protein was weakly expressed in one of the metastatic melanoma cell lines (FM55M1) and negative in the other metastasis (FM55M2) as compared to their matched primary melanoma cells (FM55P). The p16 protein was strongly expressed in normal skin melanocytes. Immunocytochemistry showed that p16 protein was mainly localized in the nuclei of the melanoma cells and normal melanocytes, if it was expressed. Deletions of p16INK4a gene was uncommon and loss of p16 protein expression was common event in melanoma, especially in the later stages of melanoma.
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PMID:Deletion in p16INK4a and loss of p16 expression in human skin primary and metastatic melanoma cells. 1471 9

The dramatic tumor regression observed following adoptive T cell transfer in some patients has led to attempts to identify novel Ags to understand the nature of these responses. Nearly complete regression of multiple metastatic melanoma lesions was observed in patient 1913 following adoptive transfer of autologous tumor-infiltrating lymphocytes. The autologous 1913 melanoma cell line expressed a mutated HLA-A11 class I gene product that was recognized by the bulk tumor-infiltrating lymphocytes as well as a dominant T cell clone derived from this line. A second dominant T cell clone, T1D1, did not recognize the mutated HLA-A11 product, but recognized an allogeneic melanoma cell line that shared expression of HLA-A11 with the parental tumor cell line. Screening of an autologous melanoma cDNA library with clone T1D1 T cells in a cell line expressing the mutated HLA-A11 gene product resulted in the isolation of a p14ARF transcript containing a 2-bp deletion in exon 2. The T cell epitope recognized by T1D1, which was encoded within the frameshifted region of the deleted p14ARF transcript, was also generated from frameshifted p14ARF or p16INK4a transcripts that were isolated from two additional melanoma cell lines. The results of monitoring studies indicated that T cell clones reactive with the mutated HLA-A11 gene product and the mutated p14ARF product were highly represented in the peripheral blood of patient 1913 1 wk following adoptive transfer, indicating that they may have played a role in the nearly complete tumor regression that was observed following this treatment.
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PMID:T cells associated with tumor regression recognize frameshifted products of the CDKN2A tumor suppressor gene locus and a mutated HLA class I gene product. 1512 89

Melanoma accounts for only about 4% of all skin cancer cases but most of skin cancer-related deaths. Standard systemic therapies such as interferon (IFN) have not been adequately effective in the management of melanoma. Therefore, novel approaches are needed for prevention and treatment of this disease. Chemoprevention by naturally occurring agents present in food and beverages has shown benefits in certain cancers including nonmelanoma skin cancers. Here, employing 2 human melanoma cell lines (A-375 amelanotic malignant melanoma and Hs-294T metastatic melanoma) and normal human epidermal melanocytes (NHEM), we studied the antiproliferative effects of epigallocatechin-3-gallate (EGCG), the major polyphenolic antioxidant present in green tea. EGCG treatment was found to result in a dose-dependent decrease in the viability and growth of both melanoma cell lines. Interestingly, at similar EGCG concentrations, the normal melanocytes were not affected. EGCG treatment of the melanoma cell lines resulted in decreased cell proliferation (as assessed by Ki-67 and PCNA protein levels) and induction of apoptosis (as assessed cleavage of PARP, TUNEL assay and JC-1 assay). EGCG also significantly inhibited the colony formation ability of the melanoma cells studied. EGCG treatment of melanoma cells resulted in a downmodulation of anti-apoptotic protein Bcl2, upregulation of proapoptotic Bax and activation of caspases -3, -7 and -9. Furthermore, our data demonstrated that EGCG treatment resulted in a significant, dose-dependent decrease in cyclin D1 and cdk2 protein levels and induction of cyclin kinase inhibitors (ckis) p16INK4a, p21WAF1/CIP1 and p27KIP1. Our data suggest that EGCG causes significant induction of cell cycle arrest and apoptosis of melanoma cells that is mediated via modulations in the cki-cyclin-cdk network and Bcl2 family proteins. Thus, EGCG, alone or in conjunction with current therapies, could be useful for the management of melanoma.
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PMID:Anti-proliferative and proapoptotic effects of (-)-epigallocatechin-3-gallate on human melanoma: possible implications for the chemoprevention of melanoma. 1560 35


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