UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cutaneous melanoma is a highly aggressive tumor that is relatively resistant to chemotherapy and radiotherapy. This resistance may be in part due to inhibition of apoptosis. Apoptotic protease activating factor-1(APAF-1), a candidate tumor suppressor gene, mediates p53-induced apoptosis, and its loss promotes oncogenic transformation. To determine whether loss of the APAF-1 locus influences tumor progression, we assessed loss of heterozygosity microsatellites on the APAF-1 locus (12q22-23) in 62 primary and 112 metastatic melanomas. We discovered that frequency of allelic imbalance was significantly higher in metastatic tumors (n = 36 of 98; 37%) than in primary melanomas (n = 10 of 54; 19%; P = 0.02). In metastatic melanomas, APAF-1 loss significantly correlated with a worse prognosis (P < 0.05) in the patients, and its loss during melanoma tumor progression suggests that APAF-1 is a tumor suppressor gene. Furthermore, loss of heterozygosity was frequent in the 12q22-23 chromosome region centromeric to the APAF-1 locus suggesting that other tumor-related genes may be present in the 12q22-23 region. In summary, the study demonstrates that allelic imbalance in the 12q22-23 region is a genomic surrogate of poor disease outcome for cutaneous melanoma patients.
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PMID:Allelic imbalance of 12q22-23 associated with APAF-1 locus correlates with poor disease outcome in cutaneous melanoma. 1502 69

Recent advances in molecular genetics have led to a better understanding of the biological underpinnings of skin cancer formation. As with most cancers, the RB, p53, and RAS pathways appear to play prominent roles in the pathogenesis of several skin cancer types. Although various components of these pathways may be differentially altered in squamous cell carcinoma (SCC), basal cell carcinoma (BCC), and cutaneous melanoma, the final biochemical expression of these defects may be the same. With the unraveling of these genetic mechanisms, a more targeted approach to diagnosis and treatment may be possible in the near future.
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PMID:The genetics of skin cancer. 1546 70

Cutaneous malignant melanoma is an aggressive form of skin cancer, characterized by strong chemoresistance and poor patient prognosis. The molecular mechanisms underlying its resistance to chemotherapy remain unclear but are speculated to involve the dysregulation of apoptotic pathways. In this study, we sought to determine whether PUMA (p53 upregulated modulator of apoptosis) contributes to human melanoma formation, tumor progression, and survival. We used tissue microarray and immunohistochemistry to examine PUMA expression in 107 primary melanomas, 51 metastatic melanomas, and 64 dysplastic nevi. Here we report that PUMA expression is significantly weaker in primary melanomas compared to dysplastic nevi (P<0.0001), and is further reduced in metastatic melanomas compared to primary tumors (P=0.001). We show that weak PUMA expression in melanoma correlates with poorer overall and disease-specific 5-year survival (P<0.005 and P<0.001, respectively) of melanoma patients and that PUMA expression in tumor tissue is an independent predictor of both overall and disease-specific 5-year survival (P=0.05). Additionally, we show that exogenous PUMA expression in human melanoma cell lines (both wild type and mutant p53) results in significant apoptotic cell death. Our results suggest that PUMA expression may be an important prognostic marker for human melanoma and that adenoviral delivery of PUMA sensitizes melanoma cells to apoptosis.
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PMID:PUMA expression is significantly reduced in human cutaneous melanomas. 1569 57

Because skin lesions are visible and easily accessible, skin cancers provide us with an excellent in vivo model to study the development of cancers. Cutaneous malignant melanoma and squamous cell carcinoma (SCC) both arise from the epidermis and have an initial progression stage in which proliferation of the neoplastic cells is confined to the epidermis. This stage is called melanoma in situ or SCC in situ. Molecular analyses of melanoma in situ and of solar keratosis, a prototype of early SCC in situ, show that loss of p16(INK4a)/p14(ARF) and dysfunction of p53 play a critical role, respectively. Furthermore, there seems to be potential precursor cells to these in situ lesions, which are not discernible with conventional hematoxylin and eosin-stained sections. The precursor cells have minimal but critical genetic alterations, such as cyclin D1 amplification and p53 mutation, and can be identified using fluorescent in situ hybridization and immunostaining with p53 antibodies, respectively. These precursor cells may be defective in repair response to DNA damage, and would have proliferative or survival advantages over their normal neighboring counterparts in the presence of growth factor stimulation or genotoxic events, such as ultraviolet irradiation. Such precursor clones may be induced at a rather young age, and their number and size increase with accumulating carcinogenic stimuli. If these lesions acquire additional mutations, they could progress to clinically visible lesions of in situ carcinoma. Precise molecular analyses of early stages of skin cancers may have a strong impact on our understanding of in vivo development of cancers in other human organs.
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PMID:Early cancers of the skin: clinical, histopathological, and molecular characteristics. 1636 42

Cutaneous malignant melanoma remains the leading cause of skin cancer death in industrialized countries. Melanoma progression is well defined in its clinical and histopathological aspects (Breslow's index, tumour size, ulceration, or vascular invasion), which also give hints to prognosis of the patient. Use of molecular markers should therefore give additional information which cannot be determined by routine histopathology. Markers showing only a correlation to Clark level or tumour size are not useful. Several molecules influencing invasiveness and metastatic dissemination of melanoma have been identified. Expression of these molecules has been studied in primary melanoma and correlated with prognosis. Moreover, several tumour suppressors and oncogenes have been shown to be involved in melanoma pathogenesis, including CDKN2A, PTEN, TP53, RAS and MYC, but have not been related to melanoma subtypes or validated as prognostic markers. In the past, in melanoma, an increase in the number of positive tumour cells for Ki67 (detected by Mib1), cyclin A, cyclin D, MMP-2, integrins beta1 and beta3 or osteonectin were considered as factors of poor prognosis as well as the decrease in p16, p27, and Melan A. However, only a small subset of these proteins has a prognostic value independent of tumour thickness. The recent development of high-throughput technologies analyzing global molecular profiles of cancer is bringing up previously unknown candidate genes involved in melanoma, such as Wnt-5A and B-raf. Here, recently published data related to new genes involved in melanoma pathogenesis, which may represent important biomarkers for the identification of genetic profiles or indication of progression of melanoma, are reviewed.
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PMID:Novel biomarkers in malignant melanoma. 1648 Jun 99

p16INK4a and p53 are tumor-suppressor genes frequently altered in various malignancies, including cutaneous melanoma. The purpose of the study was to establish the prognostic value of immunohistochemical expression of p16INK4a a and p53 in sporadic cutaneous melanoma (CM) in two regions with a high-risk for melanoma in Italy and Ecuador. Immunohistochemical staining of p16 and p53 was performed in samples of primary CM from 82 patients with Stage I and II melanoma according to the American Joint Committee on Cancer (AJCC) staging system. Survival differences between categories of p16 or p53 expression were analyzed using the product-limit procedure (Kaplan-Meier method, log-rank test). Clinical variables (gender, age, tumor location, Clark's level, thickness) were correlated with survival and p16 or p53 expression. p16 nuclear immunoreactivity was observed in 85% of Italian patients compared to 48.7% of Ecuadorians; a small number of cases showed p53 immunoreactivity in both populations. Only nuclear p16 expression exhibited a significant correlation with survival (Italians p=0.001, Ecuadorians p=0.017) but did not appear to correlate with any clinicopathological parameter. No significant difference was observed in survival with regard to p53 expression or cytoplasmic p16. Our results demonstrate that nuclear expression of p16 can be considered a molecular prognostic factor in patients with sporadic CM and indicate its importance as a clinical marker.
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PMID:Prognostic prediction of the immunohistochemical expression of p16 and p53 in cutaneous melanoma: a comparison of two populations from different geographical regions. 1692 Jun 42

Exposure to solar UVB radiation is involved in the development of cutaneous melanoma. We previously showed that human melanocytes and melanoma cells respond to UVB radiation via a p53-independent pathway involving GADD45A activation. Here, we determined that UVB-induction of Gadd45a is necessary for G(2) arrest and that Gadd45a and its partner p21(Waf1) colocalize in nuclear bodies called Nuclear Speckles. We further observed that UVB-induced G(2) arrest is associated with Cdc2 accumulation in these Nuclear Speckles. Knock-down of Gadd45a expression by RNA interference prevents both UVB-induced Cdc2 accumulation in Nuclear Speckles and G(2) arrest. Our results demonstrate that UVB-induced G(2) arrest of melanoma cells is Gadd45a-dependent. Furthermore, we show that Cdc2 sequestration by Gadd45a occurs in Nuclear Speckles, suggesting a new role for these nuclear bodies, so far only linked to RNA maturation.
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PMID:UVB-induced G2 arrest of human melanocytes involves Cdc2 sequestration by Gadd45a in nuclear speckles. 1693 8

The histologic differential diagnosis between a second primary cutaneous melanoma and cutaneous melanoma metastasis in a patient with a previous history of melanoma can be very difficult. This case report describes the first application of CDKN2A mutation analysis for discriminating a cutaneous melanoma metastasis from a new primary melanoma. In 2005, we received a skin excision of the right arm of a 38-year-old female patient for second opinion. Histologically, we considered the lesion to be a melanoma. The patient had a history of superficial spreading melanoma in the right subclavicular region, with a Breslow thickness of 1.1 mm, in 1998. The morphology showed resemblance to the present melanoma on the right arm, but the differential diagnosis between metastasis or second primary melanoma could not be made with certainty based on histology alone. We decided to perform TP53 and CDKN2A mutation analysis on both tumors. Molecular analysis revealed that both the melanoma of 1998 and of 2005 contained an identical CDKN2A mutation (a deletion in exon 1alpha, c.95_112del (p.Leu32_Leu37del)), which was absent in normal control tissue of the patient, thereby excluding a germline mutation. TP53 mutations were absent in both tumors and in normal skin. Based on these molecular findings the present melanoma on the right arm was diagnosed as a metastasis. Seven months later the patient died of widespread metastatic disease confirming the metastatic nature of the lesion. This case illustrates that molecular analysis can contribute to the sometimes-difficult differentiation between a second primary melanoma and a melanoma metastasis.
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PMID:CDKN2A (INK4A-ARF) mutation analysis to distinguish cutaneous melanoma metastasis from a second primary melanoma. 1741 13

Pseudoepitheliomatous hyperplasia (PEH) is a benign, reactive epithelial proliferation. PEH is characterized by hyperplasia of the epidermis or adnexal epithelium into irregular squamous strands that extend deep down into the subjacent dermis. PEH occurs in response to underlying infections, inflammatory or neoplastic conditions. The presence of PEH overlying cutaneous melanoma is rare. The clinical and histological features of PEH can closely mimic squamous cell carcinoma and could be misinterpreted. We report two cases of cutaneous primary melanoma associated with PEH and discuss differential diagnoses and potential role of p53 and bcl-2 in the pathogenesis of PEH.
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PMID:An unusual pattern of pseudoepitheliomatous hyperplasia associated with cutaneous primary melanoma: report of two cases with analysis of p53 and bcl-2 immunoreactivity. 1763 84

The deregulation of apoptosis is characteristic of human carcinogenesis. Survivin, an inhibitor of apoptosis, p53 and p16, two tumour suppressor proteins involved in cell cycle control, play a central role in apoptosis. The aim of this study was to investigate, in primary cutaneous melanoma from 68 patients, the expression of survivin with respect to p53 or p16; the association of these proteins, alone or in combination with clinicopathological features; and, most importantly, to elucidate the role of these markers in predicting survival. The level of survivin expression was significantly higher in the p53 positive group of melanomas compared with the p53 negative one, suggesting a cooperative effect in favouring the progression of melanoma, while no correlation was found between survivin and p16. Moreover, the altered expression of nuclear survivin, p53 and p16 were all associated with poor survival, as demonstrated by univariate analysis. However, these biomarkers have been shown to have superior predictive value when studied in combination (P<0.0001) rather than alone, while the risk of mortality grew progressively with increasing the number of altered biomarkers. These data suggest that the assessment of the combined marker status and number of altered markers in patients with melanoma provides important additional prognostic information that may help in patient selection for adjuvant therapies.
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PMID:Combinations of apoptosis and cell-cycle control biomarkers predict the outcome of human melanoma. 1863 86

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