Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Mutations in p53 gene are the most frequent gene alterations in human cancer. In this study, we have used the monoclonal antibody (DO7) to evaluate the role of the p53 gene mutation in the progression of basal cell carcinomas towards invasion. We tested the positivity for p53 protein in tumor cells in six cases of basosquamous cell carcinoma (BSCC), in twelve cases of infiltrative basal cell carcinoma (IBCC) and twenty-four cases of non-infiltrative basal cell carcinoma (NIBCC) in order to evaluate its potential prognostic significance. We also tested the expression of p53 protein in normal epithelia adjacent to carcinomas in order to determine its role in tumor progression. p53 protein staining with some peripheral accentuation was identified in 42,9% of all groups. No correlation was found between the immunreactivity of p53 protein and recurrence, pattern of tumor, diameter of the tumors and sex. However, there were statistically significant differences in positivity of p53 protein in normal epithelia adjacent to carcinomas and age of patients (t value: 2,21; p: 0,034). Results of the study suggest that the increasein p53 mutation frequency of morphologically normal epidermis was related to age and was independent of the degree of differentiation of BCC.
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PMID:Value of p53 protein in biological behavior of basal cell carcinoma and in normal epithelia adjacent to carcinomas. 1117 59

UVB irradiation is known to produce DNA damage at mutation hotspots in the p53 tumor suppressor gene, leading to the development of skin cancers. Mutations in the PTCH tumor suppressor gene, which is known to be responsible for the development of nevoid basal cell carcinoma syndrome, have also been identified in sporadic basal cell carcinomas (BCCs). We describe the case of an 80-year-old welder in whom 3 novel p53 mutations, as well as UV-specific PTCH mutations, were detected in two BCC samples from sun-exposed skin. The simultaneous presence of UV-specific p53 and PTCH mutations in the same BCC sample has not previously been reported.
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PMID:UV-specific p53 and PTCH mutations in sporadic basal cell carcinoma of sun-exposed skin. 1117 90

Basal cell carcinoma, squamous cell carcinoma, and malignant melanoma are the most prevalent types of skin cancer. Recent developments in skin cancer research have made it possible to identify environmental factors involved in cutaneous carcinogenesis and to describe the molecular pathology of skin cancer. The alterations in the sonic hedgehog signalling pathway are responsible for the development of basal cell carcinoma, whereas deactivation of the p53 protein is an important step in the pathogenesis of squamous cell carcinoma. The pathogenesis of malignant melanoma remains to be elucidated. This article reviews the current understanding of the carcinogenic role of ultraviolet radiation and briefly summarises the importance of other possible aetiological factors, such as oxidative stress, oncoviruses, diet, or immune suppression.
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PMID:[Why skin cancer?]. 1118 33

The association between human papillomavirus (HPV)-associated cervical cancer and cutaneous squamous cell carcinoma and codon 72 polymorphism in the p53 gene is not unequivocal. Especially, it is not known whether carriers of the arginine form have an increased risk of cancer that necessitates screening. The alternative is that the polymorphism is a tumor marker instead of a risk factor. We set out a case-control study to determine the risk of squamous cell carcinoma of the skin in individuals with the p53 codon 72 arginine genotype in order to establish the possible need for screening. The distribution of the different p53 codon 72 genotypes was examined in 86 subjects with a history of cutaneous squamous cell carcinoma and in 168 controls. Additionally, 121 subjects who had had histologically proven basal cell carcinoma and 108 subjects who had had non-familial malignant melanoma were tested. p53 polymorphism was evaluated by polymerase chain reaction (PCR) using DNA samples from peripheral blood lymphocytes. In a subgroup of patients with squamous cell carcinoma and controls, the presence of epidermodyplasia verruciformis human papillomavirus (EV-HPV) DNA was determined in plucked eyebrow hair. Differences in the distributions of the genotypes among cases and controls were calculated, and univariate and multivariate analyses were performed to assess the risk to develop cutaneous squamous cell carcinoma in the presence of the p53 codon 72 arginine genotype. Frequency distributions of the three different genotypes (homozygous for the arginine allele, heterozygous for the two alleles, and homozygous for the proline allele) were similar among the squamous cell carcinoma group and the control group: 47.1%, 46.0% and 6.9% versus 47.8%, 45.8% and 6.4%, respectively. Statistical analysis showed no significant differences between these groups. In patients with squamous cell carcinoma and controls who harbored EV-HPV DNA in their plucked eyebrow hair, similar results were obtained. The distributions of the p53 codon 72 genotypes in the basal cell carcinoma and malignant melanoma group were also not significantly different from the control group. p53 codon 72 arginine homozygosity does not appear to represent a significant risk factor for cutaneous squamous cell carcinoma and screening seems not to be indicated. Mol. Carcinog. 30:56-61, 2001.
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PMID:Cutaneous squamous cell carcinoma and p53 codon 72 polymorphism: a need for screening? 1125 64

Ultraviolet light exposure is the major risk factor for the development of squamous cell carcinoma in Caucasians. Mutations in the tumor suppressor gene p53 have been identified in both squamous cell carcinomas and basal cell carcinomas. The human homolog of the Drosophila patched gene, has been shown to be mutated in sporadic basal cell carcinomas; however, mutations in the patched gene have not been found in squamous cell carcinoma. In this study, we screened a total of 20 squamous cell carcinoma samples for mutations in the patched gene. Using polymerase chain reaction-single strand conformation polymorphism as an initial screening method, we identified one non-sense mutation, two mis-sense mutations and three silent mutations in five squamous cell carcinoma samples. In one squamous cell carcinoma sample, we identified a tandem GG-->AA transitional change at nucleotide 3152 in exon 18 of the patched gene that resulted in a premature stop codon at codon 1051. The three squamous cell carcinoma samples containing non-sense and mis-sense mutations were isolated from individuals with histories of multiple basal cell carcinoma. Sequence analysis of the p53 gene in these five squamous cell carcinoma samples identified one CC-->TT and three C-->T ultraviolet-specific nucleotide changes. Our study provides evidence that the patched gene is mutated in squamous cell carcinoma from individuals with a history of multiple basal cell carcinoma. The identification of ultraviolet-specific nucleotide changes in both tumor suppressor genes supports the notion that ultraviolet exposure plays an important part in the development of squamous cell carcinoma.
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PMID:PTCH mutations in squamous cell carcinoma of the skin. 1128 32

Basal cell carcinoma, the most frequent skin cancer in humans, is often linked to chronic sun exposure. In psoralen and ultraviolet A-treated psoriatic patients, basal cell carcinomas may occur even more frequently; however, the exact etiology and mechanisms of tumorigenesis in psoriatic patients are unclear because psoralen and ultraviolet A is not only a carcinogen but also an immunosuppressor and because psoralen and ultraviolet A-treated psoriatic patients often have other (co)carcinogenic risk factors (e.g, therapeutic exposure to ultraviolet B, X-ray radiation, arsenic, tar, and/or chemotherapeutic agents such as methotrexate). In this study, we analyzed the DNA of 13 basal cell carcinomas from five psoralen and ultraviolet A-treated psoriatic patients for mutations of the p53 tumor suppressor gene. DNA sequencing revealed a total of 11 mis-sense, two non-sense, and four silent mutations in seven of the 13 basal cell carcinomas (54%). Of the 13 total mis-sense or non-sense mutations, 12 (92%) occurred at dipyrimidine sites and nine (69%) were of the ultraviolet fingerprint type (eight C-->T transitions and one CC-->TT transition). Three of the C-->T transitions occurred at dipyrimidine sites opposite a 5'-TpG sequence (a potential psoralen-binding site and target for psoralen and ultraviolet A mutagenesis). Thus, whether these mutations were induced by ultraviolet or psoralen and ultraviolet A was not clear. In addition, two other mutations (15%) occurred at 5'-TpG sites, one (8%) occurred at a 5'-TpA site (the most frequent site of psoralen binding and mutagenesis in cell and murine studies), and one (8%) involved a G-->T transversion. These results suggest that (i) the major initiator of p53 mutations in basal cell carcinoma in psoralen and ultraviolet A-treated psoriasis patients is environmental and/or therapeutic ultraviolet(B) exposure, and that (ii) psoralen and ultraviolet A itself causes only a smaller portion of p53 mutations in psoralen and ultraviolet A-associated basal cell carcinomas.
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PMID:Ultraviolet exposure as the main initiator of p53 mutations in basal cell carcinomas from psoralen and ultraviolet A-treated patients with psoriasis. 1151 17

The human homolog of KET, p63, bears strong homology to the tumor suppressor p53 and plays an essential role in epithelial development. CUSP, the most abundant cutaneous product of p63, has been identified as an autoantigen in chronic ulcerative stomatitis (CUS). The original report of KET expression at least partially contradicts p63 expression subsequently reported by many different groups. We have examined p63 expression by Northern analysis of RNA from multiple human tissues and by indirect immunofluorescence of rat tissue with CUS patient sera. Northern analysis reveals p63 RNA in skin, thymus, placenta, skeletal muscle, kidney, and lung, with non-transactivating p63 RNA in skin, thymus, and placenta. Reverse transcriptase polymerase chain reaction (rtPCR) assays show abundant non-transactivating p63 RNA, and little to no transactivating p63 RNA, in human basal cell carcinoma as well as in normal skin adjacent to the tumors. p63 RNA expression was not detected in brain, heart, colon, spleen, liver, or small intestine. Immunofluorescence reveals p63 expression in skin, oral epithelium, tongue, kidney, and trachea, but not in liver, large intestine, testis, skeletal muscle, or heart. Focal p63 expression within tissues, the complex array of isoforms encoded by the gene, and the specificity of the probes and antibodies utilized, may all contribute to contradictory accounts of CUSP/p63 expression.
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PMID:CUSP/p63 expression in rat and human tissues. 1153 71

Repair of UV induced DNA damage is of key importance to UV-induced skin carcinogenesis. Specific signal transduction pathways that regulate cell cycling, differentiation and apoptosis are found to be corrupted in skin cancers, e.g., the epidermal growth-stimulating Hedgehog pathway in basal cell carcinomas (BCCs). Mutations in genes coding for proteins in these pathways lead to persistent disturbances that are passed along to daughter cells, e.g., mutations in the gene for the Patched (PTCH) protein in the Hedgehog pathway. Thus far only the point mutations in the P53 gene from squamous cell carcinomas and BCCs, and in PTCH gene from BCC of xeroderma pigmentosum (XP) patients appear to be unambiguously attributable to solar UV radiation. Solar UVB radiation is most effective in causing these point mutations. Other forms of UV-induced genetic changes (e.g., deletions) may, however, contribute to skin carcinogenesis with different wavelength dependencies.
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PMID:UV-induced DNA damage, repair, mutations and oncogenic pathways in skin cancer. 1168 48

Circulating anti-p53 antibodies have been described and used as tumoural markers in patients with various cancers and strongly correlate with the p53 mutated status of the tumours. No study has yet looked at the prevalence of such antibodies in skin carcinoma patients although these tumours have been shown to be frequently p53 mutated. Most skin carcinoma can be diagnosed by examination or biopsy, but aggressive, recurrent and/or non-surgical cases' follow up would be helped by a biological marker of residual disease. We performed a prospective study looking at the prevalence of anti-p53 antibodies using an ELISA technique in a series of 105 skin carcinoma patients in comparison with a sex- and age-matched control skin carcinoma-free group (n = 130). Additionally, p53 accumulation was studied by immunohistochemistry to confirm p53 protein altered expression in a sample of tumours. Anti-p53 antibodies were detected in 2.9% of the cases, with a higher prevalence in patients suffering from the more aggressive squamous cell type (SCC) of skin carcinoma (8%) than for the more common and slowly growing basal cell carcinoma type or BCC (1.5%). p53 protein stabilization could be confirmed in 80% of tumours studied by IHC. This low level of anti-p53 antibody detection contrasts with the high rate of p53 mutations reported in these tumours. This observation shows that the anti-p53 humoral response is a complex and tissue-specific mechanism.
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PMID:Divergence between the high rate of p53 mutations in skin carcinomas and the low prevalence of anti-p53 antibodies. 1174 30

Signet ring cells are cells in which the nucleus is crescentically compressed to the cellular border so that the cells look like signet rings. Due to the pluripotential nature of the basal cells of the epidermis, basal cell carcinoma displays many histopathological variants. We herein report the rare case of a middle-aged woman who had a basal cell carcinoma on the skin of the upper lip. The neoplasm was predominantly composed of cells with signet ring configuration. Histochemically, the latter were mucin-negative. Immunohistochemistry demonstrated intracytoplasmic reactivity for cytokeratin MNF116 with strong staining intensity, as well as for smooth muscle actin. The signet ring tumor cells were S100 protein-negative and carcinoembryonic antigen-negative. The lack of ploidy abnormality as well as of molecular alterations in K-ras and p53 genes may explain in part the non-aggressive biological behavior of the present tumor. Because of potential diagnostic difficulties, the pathologist should be aware of this unusual form of basal cell carcinoma. A brief review of the literature on the differential diagnosis of signet ring cell cutaneous tumors is presented.
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PMID:Signet ring basal cell carcinoma. A case study emphasizing the differential diagnosis of neoplasms with signet ring cell formation. 1179 35


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