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)

Thymidine phosphorylase (Th.P) is an angiogenic factor shown to induce endothelial cell migration and proliferation. On the other hand, loss of wild type p53 function leads to down-regulation of thrombospondin-1, an inhibitor of angiogenesis. In this immunohistochemical study we investigated the intratumoural angiogenesis and thymidine phosphorylase (Th.P) expression in paraffin-embedded bioptical material from 104 locally advanced squamous cell head and neck cancers. The nuclear accumulation of mutant p53 protein and the cytoplasmic expression of bcl-2 protein was also assessed. High vascular grade was observed in 56% and high Th.P tumour cell reactivity in 48% of cases. High microvessel score was associated with an increased percentage of cancer cells expressing thymidine phosphorylase (P = 0.001). Increased p53 nuclear accumulation also correlated with high vascular grade (P = 0.001). High histological grade and absence of bcl-2 overexpression were associated with lymph node involvement (P = 0.002 and P = 0.02 respectively). No correlation of clinically detected lymphadenopathy with angiogenesis and p53 was observed. We conclude that intense neo-angiogenesis in locally advanced squamous cell head neck cancer is a frequent event, which is associated with nuclear p53 accumulation and thymidine phosphorylase overexpression.
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PMID:Neo-angiogenesis in locally advanced squamous cell head and neck cancer correlates with thymidine phosphorylase expression and p53 nuclear oncoprotein accumulation. 993 13

The normal function of the p53 tumor suppressor protein can be perturbed by non-mutational mechanisms. The E6 protein encoded by high risk strains of human papilloma virus (HPV) targets the p53 protein resulting in enhanced degradation via the ubiquitin pathway. We have used nested PCR for detecting the presence of HPV DNA in 58 primary head and neck tumors and 15 metastatic lymph nodes, which had been prescreened for p53 mutations in exons 5 to 8. HPV DNA sequences were detected in 12 tumors (20.6%) and 4 metastatic lymph nodes (21%). HPV type 16 DNA was predominantly found in tumors (n = 11) and lymph nodes (n = 4), one tumor was positive for HPV type 18 sequences. Five of 12 HPV-positive tumors (41%) carried a p53 mutation. Of 46 HPV-negative tumors, 16 (34.8%) carried a p53 mutation. Thus, HPV positivity and p53 mutations were not mutually exclusive in head-and-neck cancer. Three of 6 normal tissues adjacent to the tumor were positive for HPV type 16, while no viral DNA was found in the corresponding tumors. Thus, the presence of HPV type 16 DNA did not directly confer a growth advantage on the population of emerging tumor cells. Instead, these tumors lack normal p53 function due to mutation.
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PMID:Prevalence of human papilloma virus DNA in head and neck cancers carrying wild-type or mutant p53 tumor suppressor genes. 1022 17

Head-and-neck cancer (HNC) patients have a high risk of developing second primary tumors of the upper aerodigestive tract, the main cause of death. Although the roles of tobacco and diet in multiple head-and-neck carcinogenesis have been thoroughly investigated, little is known about individual genetic susceptibility factors involved in this process. Genomic instability, reflecting the propensity and the susceptibility of the genome to acquire multiple alterations, could be considered a driving force behind multiple carcinogenesis. Mutation of the p53 tumor-suppressor gene has been proposed to play an important role in this process. Therefore, we evaluated the incidence of inherited p53 germ-line alteration(s) in a population of 24 consecutive HNC patients and their first-degree relatives affected by multiple malignancies as well as the occurrence of p53 somatic acquired mutation(s) in 16 cancers, including first and second primaries from 5 HNCs of the same group. Mutations in exons 4-11 of the p53 gene were investigated using SSCP-PCR analysis and DNA sequencing. Analysis was extended to the peripheral blood and cancer biopsies available from first-degree relatives of cancer-prone families with p53 germ-line mutations. p53 germ-line mutations were identified in the peripheral blood and corresponding cancers of 3 HNC patients who had multiple malignancies. The only missense mutation detected was mapped in exon 6; it is a GTG to GAG substitution with an amino acid change from Val to Glu at codon 197. The remaining 2 p53 germ-line mutations were single-nucleotide substitutions without amino acid change in exon 6 (codon 213, CGA to CGG) and in exon 8 (codon 295, CCT to CCC), respectively. These mutations were found in HNC patients with a family history of cancer. Abnormal expression of wild-type p53 protein in normal and pathological tissues from patients with the same sense single-nucleotide substitutions was detected by immuno-histochemistry.
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PMID:Multiple primary tumors of the upper aerodigestive tract: is there a role for constitutional mutations in the p53 gene? 1038 49

Molecular studies have revealed that microsatellite instability and loss of heterozygosity occurred in head-and-neck cancer, suggesting the involvement both of suppressor and of mutator pathways in head-and-neck carcinogenesis. There is evidence for relations between tumor phenotype and clinical parameters. Indeed, replication-error phenotype, characterized by microsatellite instability, was associated with decreased sensitivity to chemotherapeutic agents in cell lines. Loss of heterozygosity is a frequent mechanism of inactivation of tumor-suppressor genes, which might be implicated in resistance to chemotherapy. In head-and-neck cancer, chemosensitivity is inconstant, and no marker is available to predict response to treatment. In order to evaluate the role of tumor phenotype on resistance to chemotherapy, we analyzed 56 primary head-and-neck squamous-cell carcinomas collected at time of diagnosis and a sub-group of 23 resistant tumors collected after chemotherapy at 22 microsatellite loci. At time of diagnosis, only one tumor showed MSI-H phenotype. Loss of heterozygosity (LOH) was observed in 75% of tumors, indicating the dominant role of the suppressor in comparison with the mutator pathway in HNSCC carcinogenesis. No change in microsatellite patterns was observed after treatment, suggesting that chemotherapy did not select mismatch-repair-deficient clones. Univariate analyses showed that LOH at 9p or 17p was significantly associated with drug resistance. In a multivariate analysis, only LOH at 17p remains predictive of low response to chemotherapy, with a relative risk of 3.7 and 95% CI of 1.1-13, indicating that p53 alterations could play a role in chemotherapy resistance in HNSCC. Int. J. Cancer (Pred. Oncol.) 84:410-415, 1999.
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PMID:Microsatellite analysis and response to chemotherapy in head-and-neck squamous-cell carcinoma. 1040 95

Chemopreventives are chemicals that prevent the formation of cancers such as oral cancer. They can take the form of nutrients or synthetic molecules, and their fundamental characteristic is that they do not produce disease processes that would result in debilitating symptoms. Current evidence indicates that they function by modifying the oxidative state of transforming cells. Biomarkers can take the form of genetic and molecular indicators, which characterize the function of chemopreventives and cancer processes such as oral carcinogenesis. Biomarkers cannot provide all the required information for risk assessment or possible activity of the chemopreventives. Other methods, such as epidemiological analyses and techniques, must be used to enhance our understanding of the risk for oral cancer in human populations. One common epidemiologic method, the questionnaire, helps to determine the use and carcinogenic potential of tobacco and alcohol during oral carcinogenesis. Genetic and molecular changes in human patient populations may result in a reduction in the number and function of tumor suppressor genes. If these changes are to be assessed, the tissues (e.g., buccal mucosa) must be accessible and harvested in a reliable and consistent manner for the acquisition of DNA, mRNA, and protein. Oral tissues provide sufficient quantities of these molecules and, under stringent conditions, the quality required for the isolation of these molecular constituents. In conjunction with epidemiologic techniques, various genotypic polymorphisms, such as glutathione-S-transferase (GSTM1) or cytochrome P450 (CYP450A1), have indicated a loss in carcinogen detoxification or the processing of internal growth control signals. Biomarkers are composed of a large diverse group of genetic and molecular structures. Some of these biomarkers are indicators for programmed cell death (PCD), while others describe malignant tumor growth. Many of these classes of molecules are oxidative-responsive (e.g., tumor suppressor p53, Bcl-2, growth factors, immune-derived proteins, and death-inducing molecules) and induce PCD by triggering a cascade of cysteine proteases and regulators (e.g., caspases, death receptors). This pathway results in cell-cycle alterations and DNA fragmentation. It is hoped that a detailed knowledge of the processes involved in malignant transformation will better define the biomarker-screening tools for oral cancer. These tools will enhance our ability to predict the incidence of cancer, detect early malignant change, and quantitate chemoprevention during oral carcinogenesis. Chemopreventives such as the retinoids have already demonstrated their ability to suppress potential malignant changes in pre-malignant oral leukoplakias and decrease the incidence of second head-and-neck cancer primaries. It is our hope that this review will increase investigators' interest in developing new screening and detection systems for oral cancer.
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PMID:Biomarkers and molecular epidemiology and chemoprevention of oral carcinogenesis. 1068 2

Head and neck cancer develops in a multistep process and is associated with increasing frequencies of p53 alterations and with increasing genomic instability. To study the relationship of p53 alterations and genomic instability during head and neck tumorigenesis, we analyzed p53 protein expression and chromosome 9 and 17 polysomy in 48 squamous cell carcinomas of the head and neck and their adjacent normal epithelium (31 sites), hyperplastic (24 sites), and dysplastic lesions (26 sites). Normal oral epithelium obtained from seven nonsmoking, cancer-free individuals served as negative controls. Six (19%) of 31 lesions in adjacent normal epithelium, 7 (29%) of 24 hyperplastic lesions, 12 (46%) of 26 dysplastic lesions, and 28 (58%) of 48 squamous cell carcinomas expressed p53. In contrast, no normal control epithelium had detectable p53 expression. To determine the relationship between dysregulated p53 expression and genomic instability during tumorigenesis, we compared p53 immunohistochemistry distributions and chromosome polysomy levels (by chromosome in situ hybridization) in different histological groups associated with tissue progression. Although the degree of chromosome polysomy increased for all of the groups during histological progression, lesions with dysregulated p53 expression showed nearly 2-4-fold increased levels of chromosome polysomy. This trend was significant for dysplastic lesions (P = 0.005 and P = 0.002 for chromosomes 9 and 17, respectively) and for squamous cell carcinoma (P = 0.005 and P = 0.002 for chromosomes 9 and 17, respectively). Image analysis studies for 28 p53-expressing tumors and their adjacent premalignant lesions demonstrated a strong spatial correlation between stepwise transitions from low to high p53 expression and increased chromosome polysomy frequencies in 13 (46%) of 28 cases. These findings suggest that altered p53 expression is associated with increased genetic instability in preneoplastic epithelium and may play a driving force for increasing the rate of accumulation of genetic events during head and neck tumorigenesis.
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PMID:p53 protein accumulation and genomic instability in head and neck multistep tumorigenesis. 1140 9

Head and neck cancer is an important health problem around the world, accounting for approximately 500,000 new cases each year of head and neck squamous cell carcinoma (HNSCC). Carcinogenesis of head and neck results from a dysregulation of cellular proliferation, differentiation, and cell death. The major etiologic agents are tobacco and alcohol consumption and for some cases, human papilloma virus (HPV) infection. All three factors are associated with the disruption of a cellular pathway essential for the maintenance of cellular integrity, the p53 pathway. The objective of this review is to point out the specificity of p53 gene (TP53) alterations in head and neck cancer in relation with chemocarcinogenesis and to discuss whether or not the determination of p53 alterations will be of clinical relevance in the management of head and neck cancer in terms of prognosis and response to treatments.
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PMID:TP53 and head and neck neoplasms. 1261 10

Head and neck cancer is believed to arise after accumulation of genetic alterations resulting at least partially from chronic exposure of the upper aerodigestive tract to tobacco carcinogens. Accumulation of somatic genetic events in genes implicated in cell growth and differentiation lead to cell transformation and to the acquisition of cancer phenotype. The most frequent alterations in head and neck cancer results from chromosomal instability with amplification and deletion of recurrent chromosome arms. Among the genes that drives head and neck carcinogenesis, TP53 mutations, p16 deletion or hypermethylation, amplification of cyclinD1 and overexpression of the epidermal growth factor receptor are of the most importance and will be discuss in this review. Correlation between genetic alterations and clinical parameters will be underlined. Indeed, the identification of molecular alterations linked to specific tumor parameters may be of help in the management of head and neck cancer patients or useful in the development of new therapeutic strategies. Finally, studies have shown that in some part, constitutional genetic background could also interfere with the development of head and neck cancer through the existence of polymorphisms in carcinogens metabolizing enzymes and/or DNA repair enzymes. Individuals with low carcinogens elimination or DNA repair capacities could therefore be at risk of head and neck cancer. In this review both aspects of head and neck carcinogenesis will be discuss and relation between fundamental research and clinical practice will be mentioned.
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PMID:[Cellular and neoplastic otorhinolaryngologic changes, molecular markers and therapeutic potential]. 1284 84

Genetic alterations of p53, which monitors DNA damage and operates cellular checkpoints, is a major factor in the development of many types of cancer in human. PUMA, a direct mediator of p53-associated apoptosis, was recently identified. The PUMA gene was mapped to chromosomal arm 19q, a region frequently deleted in head/neck and lung cancers. We analyzed 30 primary tumors (15 head/neck and 15 lung) for loss of heterozygosity (LOH) at 19q using seven widely spaced microsatellite markers. LOH in at least one marker was present in 8 (56%) of the head/neck and 4 (26.6%) of the lung cancer samples. Overall, D19S408 and D19S412, showed the highest rates of allelic loss (23.3 and 16.6%, respectively). We then sequenced the entire coding region of the PUMA gene in all the 30 primary tumors and in 10 head/neck cancer cell lines. No mutations of PUMA were detected in any samples examined, regardless of the mutational status of the p53 gene. Forced expression of wild-type PUMA in JHU-012 and JHU-013 head/neck cancer cell lines significantly inhibited colony formation. Although PUMA suppresses tumor cell growth in head/neck cancer, it does not appear to be a direct target of inactivation in head and neck tumorigenesis.
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PMID:PUMA in head and neck cancer. 1296 26

Head and neck cancer belongs to the most common types of cancer in both males and females with a mortality rate of approximately 50%. More than 90% of head and neck cancers are squamous cell carcinoma (HNSCC). Carcinogenesis of this disease involves activation of proto-oncogenes and inactivation of tumor suppressor genes. Among them, aberrations of p53 tumor suppressor gene are common events. The aim of this study was to assess the frequency of the tumor suppressor p53 aberrations in Czech population by using a functional test in yeast (FASAY) and by two immunochemical methods. We compared results of the methods and assessed the relationship between the presence of p53 aberration and some clinico-pathological parameters. The following observations were made: i) the accumulated p53 protein was detected in 33 of 50 tested samples (66%) by immunohistochemical analysis and in 27 of 49 tested samples (55.1%) by immunoblotting; ii) the presence of p53 mutation was detected in 36 of 50 tested samples (72%); iii) 6 of 36 p53 mutations detected by FASAY were temperature sensitive (16.7%); iv) 2 independent p53 mutations were found in at least 2 of the 36 positive cases; v) no statistically significant relationship was found between p53 aberration and overall survival.
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PMID:Analysis of tumor suppressor p53 status in head and neck squamous cell carcinoma. 1501 Aug 96


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