UNIPROT:P43146 - FACTA Search

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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The etiology of malignant melanoma has been intensely studied over the last decade. Much of the recent work focuses on oncongenes and tumour suppressor genes and the role of apoptosis in melanoma. Loss of tumour suppressor proteins such as p16 has been documented in melanoma and correlates with tumour progression. Mutations in the tumour suppressor p53 have also been documented in melanoma. The proto-oncongene Bcl-2 encodes a protein that inhibits apoptosis. Bcl-2 is found in normal melanocytes and benign nevi. However, lower levels are seen in melanoma. To investigate the relationship between melanoma and nevi, in our Basic and Clinical Science section, Dr. Radhi examines the expression of p53, p16, and Bcl in malignant melanoma arriving in benign nevi. P53 immunoreactivity was found only in the malignant component, with no expression being seen in the benign components of the lesion. This suggests that this tumour suppressor gene is involved in the pathogenesis of melanoma.
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PMID:The etiology of malignant melanoma. 1057 55

Acral lentiginous melanoma is a particularly aggressive melanocytic lesion but, due to its comparative rarity, biological investigations into the behaviour of this subtype of melanoma are lacking. The activity of the recently described p16 tumour suppressor gene, thought to be the 'familial melanoma gene', was studied in 24 patients with subungual melanoma and 44 patients with plantar melanoma. Lower levels of p16 oncoprotein were demonstrated than that found in other histogenetic types of melanoma. Stratification of patients of all disease stages revealed a poorer survival in patients with low p16 expression (log rank test, chi(2)= 3.9, P = 0. 05). These data suggest that p16 inactivation may play an important role in the development and progression of acral lentiginous melanomas. However, the level of p16 expression was not prognostic since survival analysis on stratification of stage I patients according to p16 level did not reach statistical significance for both survival and disease free interval.
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PMID:An analysis of p16 tumour suppressor gene expression in acral lentiginous melanoma. 1065 49

Skin cancer is the most commonly occurring cancer in humans. Solar keratoses are related benign tumours that are at least ten times commoner than skin cancers and photoageing of the skin is still more common. Descriptive studies show that incidence rates of the main types of skin cancer, basal cell carcinoma, squamous cell carcinoma and melanoma are maximal in populations in which ambient sun exposure is high and skin (epidermal) transmission of solar radiation is high, suggesting strong associations with sun exposure. Analytic epidemiological studies confirm that exposure to the UV component of sunlight is the major environmental determinant of skin cancers and associated skin conditions and evidence of a causal association between cumulative sun exposure and SCC, solar keratoses and photodamage is relatively straightforward. Results for BCC and melanoma are complicated by several factors including the existence of subgroups of these diseases which do not appear to be caused by sun exposure yet have been included in most aetiological studies to date. Complementary to epidemiological data is the molecular evidence of ultraviolet (UV) mechanisms of carcinogenesis such as UV-specific mutations in the DNA of tumour suppressor genes in skin tumours. With increased UV irradiation resulting from thinning of the ozone layer, skin cancer incidence rates have been predicted to increase in the future--unless, as is hoped, human behaviour to reduce sun exposure can offset these predicted rises.
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PMID:Sun exposure, skin cancers and related skin conditions. 1070 45

Recent studies have demonstrated that angiogenesis and suppressed cell-mediated immunity (CMI) play a central role in the pathogenesis of malignant disease facilitating tumour growth, invasion and metastasis. In the majority of tumours, the malignant process is preceded by a pathological condition or exposure to an irritant which itself is associated with the induction of angiogenesis and/or suppressed CMI. These include: cigarette smoking, chronic bronchitis and lung cancer; chronic oesophagitis and oesophageal cancer; chronic viral infections such as human papilloma virus and ano-genital cancers, chronic hepatitis B and C and hepatocellular carcinoma, and Epstein-Barr virus (EBV) and lymphomas; chronic inflammatory conditions such as Crohn's disease and ulcerative colitis and colorectal cancer; asbestos exposure and mesothelioma and excessive sunlight exposure/sunburn and malignant melanoma. Chronic exposure to growth factors (insulin-like growth factor-I in acromegaly), mutations in tumour suppressor genes (TP53 in Li Fraumeni syndrome) and long-term exposure to immunosuppressive agents (cyclosporin A) may also give rise to similar environments and are associated with the development of a range of solid tumours. The increased blood supply would facilitate the development and proliferation of an abnormal clone or clones of cells arising as the result of: (a) an inherited genetic abnormality; and/or (b) acquired somatic mutations, the latter due to local production and/or enhanced delivery of carcinogens and mutagenic growth factors. With progressive detrimental mutations and growth-induced tumour hypoxia, the transformed cell, to a lesser or greater extent, may amplify the angiogenic process and CMI suppression, thereby facilitating further tumour growth and metastasis. There is accumulating evidence that long-term treatment with cyclo-oxygenase inhibitors (aspirin and indomethacin), cytokines such as interferon-alpha, anti-oestrogens (tamoxifen and raloxifene) and captopril significantly reduces the incidence of solid tumours such as breast and colorectal cancer. These agents are anti-angiogenic and, in the case of aspirin, indomethacin and interferon-alpha have proven immunomodulatory effects. Collectively these observations indicate that angiogenesis and suppressed CMI play a central role in the development and progression of malignant disease.
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PMID:The relationship between angiogenesis and the immune response in carcinogenesis and the progression of malignant disease. 1074 Dec 73

Small aquarium fishes become increasingly important in the study of normal vertebrate development and disease. Differential DNA methylation might play a role in these processes. In the teleost Xiphophorus, a well-established animal model for melanoma formation, tumour-specific hypomethylation of the melanoma-inducing gene ONC-Xmrk has been observed. We have isolated a cDNA for the DNA-(cytosine-5)-methyltransferase XDNMT-1 from this organism, which encodes the first full-length protein from a fish species. Linkage analysis showed that Xdnmt-1 is different from the Xiphophorus tumour suppressor R, which is involved in the transcriptional repression of the ONC-Xmrk melanoma oncogene in healthy fish. As methylation has been implicated in the regulation of ONC-Xmrk expression, XDNMT-1 might play a role by acting up- or downstream of R. Expression analysis demonstrated that the Xdnmt-1 transcript is present in all adult tissues and cell lines tested. However, developing embryos show a spatially and temporally regulated expression pattern suggesting that the enzyme might play a role during development in fish.
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PMID:Primary structure and expression of the xiphophorus DNA-(cytosine-5)-methyltransferase XDNMT-1. 1083 40

Tumour development and progression involves the expression of oncogenes and inactivation of tumour suppressor genes, leading to the appearance of multiple malignant characteristics. Malignant melanoma cells express different growth factors and cytokines and their receptors in respective stages of tumour progression, which by autocrine and paracrine effects enable them to grow autonomously and confer competence to metastasis. Autocrine growth factors (bFGF, MGSA/GRO, IL-8 and sometimes IL-6, PDGF-A, IL-10) produced by melanoma cells stimulate proliferation of the producing cell itself, while paracrine growth factors (for example PDGF, EGF, TGF-beta, IL-1, GM-CSF, IGF-I, NGF, VEGF) modulate the microenvironment to the benefit of tumour growth and invasion. Paracrine effects include angiogenesis, stroma formation, modulation of host immune response, activation of proteolytic enzymes, adhesion or motility and metastasis formation. Some growth factors have inhibitory effects on melanocytes and early lesions (IL-1, IL-6, TGF-beta, OSM, TNF and IFN) but not on advanced stage melanomas, and in some cases they switch to autocrine stimulator (IL-6, TGF-beta). Understanding the involvement of different growth factors and cytokines in the molecular mechanism of melanoma progression will help to provide an insight into new future therapeutic approaches for melanoma.
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PMID:Autocrine and paracrine regulation by cytokines and growth factors in melanoma. 1084 28

The loss of transcription factor AP-2alpha expression has been shown to associate with tumourigenicity of melanoma cell lines and poor prognosis in primary cutaneous melanoma. Altogether these findings suggest that the gene encoding AP-2alpha (TFAP2A) acts as a tumour suppressor in melanoma. To learn more of AP-2alpha's down-regulation mechanisms, we compared the immunohistochemical AP-2alpha protein expression patterns with the corresponding mRNA expression detected by in situ hybridization in 52 primary melanomas. Of the 25 samples with AP-2alpha protein negative areas, 16 (64%) expressed mRNA throughout the consecutive section. Nine specimens (36%) contained equally mRNA- and protein-negative areas, suggesting that the loss of AP-2alpha protein associated with lack of the mRNA transcript. The highly AP-2alpha protein-positive tumours (n = 27) were concordantly mRNA positive in 25 (92.6%) cases. Thirteen primary tumours were further analysed using microsatellite markers D6S470 and D6S263 for loss of heterozygosity (LOH) of a locus harbouring TFAP2A. LOHs or chromosome 6 monosomy were found in four out of five (80%) informative AP-2alpha mRNA- and protein-negative tumour areas, but also within five out of 13 (38%) informative AP-2alpha mRNA-positive tumour areas. This chromosome region is thus suggestive of harbouring a putative tumour suppressor gene of cutaneous melanoma, but this referring specifically to TFAP2A could not be completely verified in this analysis. We conclude that a failure in post-transcriptional processing of AP-2alpha is a possible inactivation mechanism of AP-2alpha in cutaneous melanoma.
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PMID:Failure in post-transcriptional processing is a possible inactivation mechanism of AP-2alpha in cutaneous melanoma. 1086 11

The INK4a/ARF locus encodes two distinct tumour suppressors, p16INK4a and p14ARF, that regulate cell cycle progression via the pRB and p53 pathways, respectively. The ARF protein inhibits hdm2 activity, leading to the stabilization of the p53 tumour suppressor and cell cycle inhibition. The amino-terminal domain of human p14ARF and of the mouse homologue, p19ARF, is sufficient for these effects. This domain is also sufficient for the nucleolar localization of the mouse ARF protein. In contrast, we show that the human ARF protein requires two arginine rich domains, one in the amino- and the other in the carboxy-terminus, for nucleolar targeting. The amino-terminal nucleolar-targeting domain of p14ARF is also important for ARF-hdm2 binding and cell cycle inhibition. The carboxy-terminal p14ARF nucleolar localization domain lies within the shared INK4a/ARF exon 2, and is mutated in a small number of melanoma-prone kindreds. The INK4a/ARF exon2-mutations could affect the function of both the p16INK4a and p14ARF tumour suppressors. Oncogene (2000).
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PMID:Two arginine rich domains in the p14ARF tumour suppressor mediate nucleolar localization. 1087 49

Malignant melanomas frequently show loss of alleles on the long arm of chromosome 10. The PTEN (MMAC1) gene has been identified as a tumour suppressor gene at 10q23.3 that is mutated in various types of advanced human cancers. We have investigated a series of 40 sporadic melanomas from 37 patients (15 primary cutaneous melanomas and 25 melanoma metastases) for allelic losses on chromosome 10, as well as for deletion and mutation of the PTEN gene. Microsatellite analysis revealed loss of heterozygosity at loci located on 10q in tumours from 15 of 34 patients investigated (44%). Somatic PTEN mutations were identified in melanomas from 4 of 37 patients (11%), all of whom had metastatic disease. In two of these patients, the tumours had additionally lost one PTEN allele, indicating complete loss of wild-type PTEN in the tumour cells. Our findings corroborate that loss of heterozygosity on chromosome 10 is a frequent aberration in malignant melanomas and implicate PTEN as a tumour suppressor gene inactivated by somatic mutation in a fraction of these tumours.
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PMID:Allelic losses on chromosome arm 10q and mutation of the PTEN (MMAC1) tumour suppressor gene in primary and metastatic malignant melanomas. 1088 43

Germline mutations in the p16 (CDKN2A) tumour suppressor gene have been linked to inherited predisposition to malignant melanoma (MM). Variable frequencies of p16 germline mutations were reported in different collections of melanoma families but it can be as high as 50%. Here we describe the results of p16 mutation screening in 30 melanoma kindreds in Israel. The entire coding region of the p16 gene, including exons 1, 2 and 3, flanking exon/intron junctions, and a portion of the 3' untranslated (UTR) region of the gene were examined by single-stranded conformation polymorphism (SSCP) analysis and direct sequencing. Two p16 germline mutations were identified: G101W, which has been previously observed in a number of melanoma kindreds, and G122V, a novel missense mutation. Thus, the frequency of mutations identified in this collection of Israeli families was 7%. Functional analysis indicated that the novel G122V variant retained some capacity to interact with cyclin dependent kinases (CDKs) in vitro, yet it was significantly impaired in its ability to cause a G1 cell cycle arrest in human diploid fibroblasts. This partial loss of function is consistent with the predicted impact of G122V substitution on the 3-dimensional structure of the p16 protein.
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PMID:Two p16 (CDKN2A) germline mutations in 30 Israeli melanoma families. 1095 21

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