Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent investigations revealed that the 9p arm and 17q arm of human chromosomes harbour tumour suppressor genes (TSGs) with an important role in multistage carcinogenesis. At the 9p arm is located the p16 (MTS1) TSG and probably others with an effect on various human tumours such as acute lymphoblastic leukaemia, bladder cancer, gliomas, malignant mesotheliomas, melanomas and non-small cell lung carcinomas. In addition, the 17q arm harbours BRCA1 TSG which is responsible for approximately 80% of the familial breast/ovarian cancer cases. In order to investigate the implication of these performed a loss of heterozygosity (LOH) analysis with 10 polymorphic microsatellite markers (three at the 17q arm surrounding the BRCA1 region and seven at the 9p arm). Fourteen of the 17 (82%) tumours exhibited deletions at 9p. The highest incidence of LOH (6/13, 46%) was found for the marker D9S157 at 9p22. One sample exhibited deletion of all the informative markers tested indicating deletion of the complete 9p arm. No homozygous deletions were found. LOH at the 17q arm near the BRCA1 locus was found in 6 (35%) among 17 specimens. The results of this study indicate that allelic deletions at 9p are frequent in the development of laryngeal tumours. The highest incidence of LOH was found for the marker D9S157 which is near, but distinct from the location of p16 (MTS1) tumour suppressor gene, indicating the presence of multiple tumour suppressor genes within this chromosomal region. In addition, BRCA1 TSG is implicated in the development of laryngeal tumours.
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PMID:Loss of heterozygosity at 9p and 17q in human laryngeal tumors. 758 72

Although patients with superficial bladder cancer (Ta, T1) have a generally good prognosis, those of them who have tumours invading muscle or metastatic disease will have a poor clinical prognosis. In the current study, 41 patients undergoing complete transurethral resection for superficial transitional cell cancer of the bladder were investigated for different clinical and biological characteristics as possible prognostic factors: age, sex, previous instillation therapy, immunohistochemical determination of mutational inactivation of p53 tumour suppressor gene (monoclonal antibody pAb 1801) and proliferation rate determined immunohistochemically by staining for PCNA (proliferating cell nuclear antigen; monoclonal antibody PC 10). After a median follow-up of 54 months 7 of 8 patients (87.5%) with more than 20% of cells positive for p53 had disease recurrence, as against only 1 of 33 patients (3%) negative for p53 detection (P < 0.01; Chi-square test). During univariate analysis histological grade (G1 vs G2; P = 0.007), positivity for PCNA (> 60% of cells; P = 0.003) and positivity for p53 (P = 0.001) were significant prognostic factors for disease progression (log rank test), while during multivariate analysis only positivity for p53 was a significant predictor for relapse of bladder cancer (P = 0.0035; multivariate Cox regression analysis).
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PMID:[Value of the proliferation status (PCNA) and p53 immunohistochemistry as a prognostic factor for the clinical course of superficial cancer of the urinary bladder]. 775 87

Although the occurrence of bladder cancer is common, the molecular events underlying the pathogenesis of this cancer remain ill-defined. A loss of heterozygosity (LOH) at specific chromosomal loci may predispose individuals to the development of bladder cancer but this has not been examined in detail. Furthermore, the role that deletion or inactivation of putative tumour suppressor genes might play in the genesis of bladder cancer has not been established. In this study, allelic deletion analysis on the short arm of chromosome 17 of patients with primary bladder tumours failed to show deletion at 17p13 (0/7), a region known to contain the p53 tumour suppressor gene. Chromosome 11p15 showed allelic deletion at the IGF2 locus (2/7: 29%) and the PTH locus (1/11: 9%). However, no deletion was observed at the CALCA locus (0/6). LOH at 11p13, a region containing the Wilm's tumour suppressor gene (WT1), was also studied. Analysis of LOH at 11p13 showed deletion at the CAT locus (13/18: 72%), the delta J/D11S414 locus (5/15: 33%), the WT1 locus (7/14: 50%) and the FSHB locus (6/16: 38%). The significance of these findings is discussed.
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PMID:Loss of heterozygosity on chromosome 11p13 in primary bladder carcinoma. 810 Feb 10

To see whether genetic alterations follow a sequence of events leading to bladder cancer progression, 60 paired bladder tumours and normal tissues were analysed with polymorphic DNA markers, correlating loss of heterozygosity (LOH) at candidate tumour suppressor gene sites with pathological indices of poor clinical outcome. Distinct genotypic patterns were associated with early and late stages of bladder cancer. 9q deletions were observed in all superficial papillary tumours (Ta) and almost all tumours invading the lamina propria (T1), suggesting that this event associates with the development of superficial bladder tumours. However, 3p, 5q, and 17p deletions were absent in the Ta tumours but were identified in invasive bladder cancers. Two genetic pathways characterise the evolution of superficial bladder tumours. 9qLOH was detected in most Ta tumours, but in only 43% of muscle invasive neoplasms. Our hypothesis is that certain chromosomal abnormalities have a defined role in bladder tumour development, whereas others correlate with pathological indices of poor clinical outcome.
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PMID:Genetic alterations in bladder cancer. 790 18

The p16 gene has been identified as a candidate tumour suppressor gene at 9p21, a region commonly deleted in bladder cancer. We screened 140 bladder tumours and 16 cell lines for deletions and sequence variants of p16. Eight cell lines showed homozygous deletion of p16 and two had small sequence variations. All 13 tumours with small defined deletions of 9p21, 18/31 (58%) of tumours with monosomy 9 and 9/91 (10%) of tumours with no chromosome 9 loss of heterozygosity had homozygous deletion of p16. No tumour-specific sequence variants were identified. Deletion mapping revealed a nested set of deletions focused on p16. Six deletions involved p16 but not the related and adjacent gene p15 and one tumour had an intragenic deletion of p16. All other deletions involved both p16 and p15. We conclude that p16 represents the major target for deletion at 9p21 in bladder cancer.
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PMID:p16 (CDKN2) is a major deletion target at 9p21 in bladder cancer. 854 41

An allelotype analysis of transitional cell carcinoma of the bladder identified loss of heterozygosity (LOH) on chromosome arm 4p in 22% of tumours. In a more detailed LOH study of 178 bladder carcinomas, a 750 kb common region of deletion was identified between the markers D4S43 and D4S127 just telomeric to the Huntington disease locus. To refine this region of deletion at 4p16.3, we have carried out detailed fluorescence in situ hybridisation (FISH) analysis of 12 bladder cancer cell lines by using a chromosome 4 centromeric probe combined with a series of cosmid probes from contigs spanning the 750 kb region of deletion. A common 30 kb region of deletion was identified at 4p16.3 in over one-third of the bladder cancer cell lines analysed. The present study has refined the localisation of the critical region of deletion from 750 kb to approximately 30 kb, providing a precise starting point for positional cloning of the gene(s) involved in bladder cancer from within a very gene-rich region on chromosome band 4p16.3. This study demonstrates that FISH can be used for fine deletion mapping of potential tumour suppressor gene regions. The utilisation of FISH analysis to map chromosomal deletions should facilitate positional cloning of other genes as bacterial artificial chromosome (BAC) and yeast artificial chromosome (YAC) contigs of the human genome are established.
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PMID:Fluorescence in situ hybridization deletion mapping at 4p16.3 in bladder cancer cell lines refines the localisation of the critical interval to 30 kb. 1106 86

Mutations in the p53 tumour suppressor gene are found at high frequency in bladder cancer. There is strong evidence that p53 plays an important role in controlling the cell cycle after DNA damage by ionizing radiation. However, the effect of loss of p53 function on radiosensitivity is not yet clear. Radiotherapy combined with chemotherapy is the most common treatment for patients with invasive bladder cancer. Recently three bladder cancer cell lines have been established and this paper investigates the p53 status and clonogenic survival of these cell lines following irradiation. It was found that one line expresses wt p53 (UCRU-BL-13) and two lines contain a codon 72 polymorphism (UCRU-BL-17 and UCRU-BL-28). UCRU-BL-17 cells also contain a point mutation affecting codon 280. The level of p53 expression in the cell lines is clearly different, with UCRU-BL-17 expressing a higher level of p53 compared with UCRU-BL-13; UCRU-BL-28 expressed intermediate levels. The clonogenic survival of these cell lines has been determined. It was found that the line expressing a p53 mutation was more sensitive than those with wild type p53, providing support for a model in which loss of p53 function is associated with increased radiosensitivity, possibly due to reduced p53-dependent DNA repair.
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PMID:Relationship between radiation response and p53 status in human bladder cancer cells. 924 90

The most frequent genetic aberration found in transitional cell carcinoma (TCC) of the bladder involves chromosome 9. Loss of heterozygosity (LOH) analyses show deletions of both chromosome 9p and 9q, while in situ hybridization studies suggest a significant percentage of tumours with monosomy 9. To investigate the types of chromosome 9 losses that occur in bladder cancer, we have studied 40 tumours with different techniques such as in situ hybridization (ISH), flow cytometry and LOH analysis. LOH for one or more markers was found in 43% of the tumours. This percentage does not differ from previous reports. With ISH, complete monosomy for chromosome 9 was observed in only 1 of the 40 tumours. Four other tumours had monosomic subpopulations, representing 23-40% of the cells. In 18 cases, an underrepresentation of the chromosome 9 centromere relative to chromosome 6 or to the ploidy of the tumour was observed, including the cases with monosomy. In 5 of these 18 cases, the relative loss could not be confirmed by LOH. In addition, when LOH and a relative underrepresentation were observed in the same tumour, the extent of LOH as measured by the intensity of allele loss, was often not related to the extent of underrepresentation. We therefore conclude that complete monosomy of chromosome 9 is rare in TCCs of the bladder and that a relative loss of centromere signal may not be related to a loss compatible with inactivation of a tumour suppressor gene. LOH was found in TCCs of all stages and grades. Our results suggest that loss of tumour suppressor genes on chromosome 9 is an early event in the pathogenesis of bladder cancer.
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PMID:Loss of heterozygosity on chromosome 9 and loss of chromosome 9 copy number are separate events in the pathogenesis of transitional cell carcinoma of the bladder. 942 83

Bladder cancers display different forms from superficial to aggressive tumours with muscle invasion. Many studies on this disease have been carried out in order to better understand the molecular mechanisms involved in its progression. Two loci are frequently associated with bladder tumorigenesis. The chromosome 9 lesions seem to be earlier involved in carcinogenesis, and suggest the presence of a tumour suppressor gene, and on the other hand the TP53 gene mutations (17q13.1) are later but take place in tumour progression. These alterations could be used as early diagnosis tool in bladder tumours and orientate the search for the bladder cancer gatekeeper gene(s).
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PMID:[Tracking the gatekeeper gene in the stages of carcinogenesis in the bladder]. 943 99

In France, invasive bladder cancer is the most frequent urologic malignancy after prostate carcinoma. The standard treatment of bladder cancer is radical cystectomy. New therapeutic approaches such as chemoradiation combination for a conservative procedure, neoadjuvant or adjuvant chemotherapy are still in development. In this prospect, a rigorous selection of patients is needed. This selection is based on prognostic criteria which could be divided into four groups: 1) the volume of the tumour including the tumour infiltration depth, the nodal status, the presence or not of hydronephrosis and the residual tumour burden after transuretral resection; 2) the histologic aspects including histologic grading, the presence or not of an epidermoid metaplasia, of in situ carcinoma or of thrombi; 3) the expression of circulating tumour cell biological markers; 4) the biologic characteristics of the tumour such as ploidy, presence of cytogenetic abnormalities, expression of Ki67, expression of oncogenes or tumour suppressor genes, expression of telomerase, expression of tumour antigens or growth factor receptors. This paper reviews the prognostic value of these different parameters.
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PMID:[Prognostic factors of infiltrating bladder tumors]. 986 91


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