UMLS:C0005684 - FACTA Search

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Query: UMLS:C0005684 (bladder cancer)
16,431 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Loss of heterozygosity on 9p21, where the p16/CDKN2 tumor suppressor and the p15INK4B cell cycle regulator genes are located, is a common genetic alteration in bladder cancer. However, it has been difficult to demonstrate homozygous deletions and intragenic mutations in either of these two genes in primary transitional cell carcinomas (TCC) of the bladder. Similarly, colon cancer-derived cell lines have shown no homozygous deletions of the p16/CDKN2 locus in contrast to a wide variety of tumor-derived cell lines. We have investigated abnormal methylation of the 5' CpG islands of the p16/CDKN2 and p15INK4B genes as an alternative mechanism of inactivation of these genes in bladder and colon cancers. De novo methylation of the 5' CpG island of p16/CDKN2 was observed in 12 of 18 (67%) uncultured bladder TCCs and in 2 of 3 (67%) bladder cell lines. In contrast, only 1 of 10 (10%) colon carcinomas showed methylation of the 5' CpG island of p16/CDKN2. It was striking to find that this region was extensively methylated and the gene not expressed in the normal colonic mucosa of 6 of 10 (60%) patients with colon cancer, whereas 5 of the corresponding colon tumors showed no methylation and high levels of p16/CDKN2 expression. Our data show a significant correlation (P = 0.00001, two-sided) between the absence of p16/CDKN2 expression and methylation of its 5' CpG island in bladder tumors, cell lines, and normal colon mucosa. In contrast, no association was observed between expression and methylation status of the 5' CpG island of p15INK4B. Our results suggest that the p16/CDKN2 tumor suppressor gene may be inactivated by methylation of its 5' CpG island in TCCs of the bladder. We also present evidence of methylation of the 5' CpG island in this autosomal gene in normal colonic tissue.
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PMID:Methylation of the 5' CpG island of the p16/CDKN2 tumor suppressor gene in normal and transformed human tissues correlates with gene silencing. 755 22

p16Ink4 and p15Ink4B are cyclin-dependent kinase 4 inhibitors and link to the regulation of cell cycle in mammalian cells. The genes encoding these inhibitors are located at 9p21, which is a frequent site of allelic loss in various types of tumors. Twenty-five primary biliary tract cancers were examined for somatic mutations in p16Ink4/CDKN2, p15Ink4B/MTS2, p53, and K-ras genes and allelic loss of 9p21 by microsatellite analysis. Four biliary tract cancer cell lines were analyzed for homozygous deletions and point mutations. We found frequent homozygous deletions in p16Ink4/CDKN2 and p15Ink4B/MTS2 genes in the biliary tract cancer cell lines. Each cancer cell line had alteration of either p16Ink4/CDKN2, p15Ink4B/MTS2, or p53 genes. In primary tumors, 16 of 25 (64%) biliary tract cancers had point mutations in the p16Ink4/CDKN2 gene. These include 14 missense and 2 silent mutations. The frequency of mutations in gall bladder cancer and hilar bile duct cancer were 80% (8 of 10) and 63% (5 of 8), respectively. Each of codons 1, 80, and 111 was changed in two cases of these cancers. One of three intrahepatic bile duct cancers, one of two common bile duct cancers, and one of two ampullary cancers had mutations in the p16Ink4/CDKN2 gene. In contrast, no mutation in the p15Ink4B/MTS2 gene, one base change in the K-ras gene, and one loss of heterozygosity at the IFN alpha locus in 25 cancers and one base change in the p53 gene in 19 cancers were observed. These results suggest that p16Ink4/CDKN2, rather than p15Ink4B/MTS2 or p53 genes, and its inactivation may be important in biliary tract carcinogenesis.
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PMID:Mutations of p16Ink4/CDKN2 and p15Ink4B/MTS2 genes in biliary tract cancers. 779

Deletions of chromosomal band 9p21 have been detected in various tumor types including melanoma, glioma, lung cancer, mesothelioma, and bladder cancer. Recently, the CDKN2 gene (p16INK4A, MTS I, CDK41) has been proposed as a candidate tumor suppressor gene because it is frequently deleted in cell lines derived from multiple tumor types. We performed fluorescence in situ hybridization (FISH) with interphase cells using yeast artificial chromosome clones and a cosmid contig of the CDKN2 region. In 10 cell lines (4 glioma, 2 melanoma, 2 non-small cell lung cancer, 2 bladder cancer) with 9p alterations detected by molecular or cytogenetic analysis, interphase FISH with the CDKN2 cosmid contig detected all 9p deletions previously identified by molecular analysis. Using this probe, FISH analysis of primary glioblastoma tumors revealed homozygous deletions of the CDKN2 region in 6 of 9 tumors (67%) whereas a yeast artificial chromosome probe containing the interferon type I (IFN) gene cluster was deleted in only 4 cases (44%). Thus, it is likely that the CDKN2 region is the target of 9p deletions in gliomas. Interphase FISH will play an important role in defining the clinical significance of 9p deletions in primary tumors because it is especially applicable to clinical samples which may be contaminated by normal cells.
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PMID:Detection of CDKN2 deletions in tumor cell lines and primary glioma by interphase fluorescence in situ hybridization. 786 8

Homozygous and hemizygous deletions of 9p21 are the earliest and most common genetic alteration in bladder cancer. The identification of two cell cycle regulators, CDKN2 and CDKN2B, that map to the common region of deletion has prompted the hypothesis that they are critical tumor suppressor genes in this malignancy. However, controversy as to whether these genes are the only or even the most important target in bladder cancer oncogenesis remains. To more clearly determine the effect of these 9p21 alterations, we mapped the homozygous deletions and performed a detailed mutational and expression analysis for CDKN2, CDKN2B and a closely linked gene, methylthioadenoside phosphorylase (MTAP), in 16 established bladder cancer cell lines. Nine of the 16 lines exhibit large (30 to > 2000 kb) homozygous deletions on 9p21. All deletions include at least one exon of CDKN2, eight of nine include CDKN2B, and six of nine include MTAP. MTAP function correlates with the genomic deletions. SSCP and sequence analysis does not reveal any inactivating point mutations of CDKN2 or of CDKN2B in any of the cell lines without homozygous deletions, and all express the CDKN2 and the CDKN2B mRNA as well as the encoded p16 protein. The p16 protein levels vary widely and are correlated with absent pRb expression. We conclude that the 9p21 deletions in bladder cancer usually inactivate the CDKN2. CDKN2B, and MTAP genes but that CDKN2 is the most common target. Other mechanisms for inactivating this gene in bladder cancer appear to be uncommon.
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PMID:The 9p21 region in bladder cancer cell lines: large homozygous deletion inactivate the CDKN2, CDKN2B and MTAP genes. 887 83

An understanding of the biological significance of the multiple genetic alterations identified in clinical bladder cancers to the stepwise pathogenesis of the disease is evolving. Alterations in p53 and pRb, products of the chromosomes 17p13 TP53 and 13q14 RB tumor suppressor genes, occur in approximately 50% and approximately 33% of bladder cancers respectively, and are associated with later stage, higher grade disease. p53 and pRb alterations are also known to occur in early stage bladder carcinoma in situ where they are thought to represent a poor prognosis for tumor progression. Allelic loss of genes on 9p21 occurs in approximately 50% of bladder cancers, but whether the only critical gene in this region is the CDKN2/p16 cyclin/CDK inhibitor is at present uncertain. Amplification and/or overexpression of the oncogenes epidermal growth factor receptor and erbB2 are associated with later stage disease. Finally, recent findings generated using in vitro transformation systems with human uroepithelial cells provide strong evidence that loss of genes on 3p, which occurs in approximately 20% of bladder cancers, and/or gain of genes on 20q play an important role in blocking HUC cellular senescence. This latter phenotype should represent a critical step in oncogenesis, as cells that do not senesce can survive to accumulate the multiple genetic alterations associated with invasive and metastatic bladder cancers. Further understanding of the biochemical mechanisms underlying these genetic changes will provide the additional information needed to design better strategies for bladder cancer intervention and treatment.
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PMID:A molecular genetic model of human bladder cancer pathogenesis. 889 68

Deletion of all or part of chromosome 9 is a well-described genetic alteration in bladder tumors. It has been proposed that inactivation of a tumor-suppressor gene on chromosome 9 is an important event in tumor development. Recent reports have supported cyclin-dependent kinase inhibitor 2 (CDKN2, also known as MTS1, INK4, p16) at 9p21 as a candidate tumor-suppressor gene in solid tumors. However, the prevalence of CDKN2 mutations in primary bladder tumors has been controversial. Therefore, we applied gene-specific probes for CDKN2 and the interferon alpha gene (IFNA), also located at 9p21, to characterize further the genomic deletions at this locus in bladder cancer. Seventeen superficial (pTa or pT1) bladder tumor specimens were examined for gene deletion by fluorescence in situ hybridization. Dual-labeling hybridization with a repetitive pericentromeric probe for chromosome 9 and a gene-specific probe for CDKN2 was performed to characterize the gene copy number in relation to the chromosome 9 copy number on a cell-by-cell basis. Homozygous deletion for CDKN2 without homozygous IFNA deletion was found in 5 of 17 tumors tested. Both genes were deleted in one additional case, and one tumor showed deletion of IFNA without deletion of CDKN2. Homozygous deletion at the 9p21 locus was found only in tumors having monosomy for the chromosome 9 centromeric signal. These results indicate that the homozygous deletion of the CDKN2 gene is a frequent and early event in superficial bladder cancer.
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PMID:Frequent homozygous deletion of cyclin-dependent kinase inhibitor 2 (MTS1, p16) in superficial bladder cancer detected by fluorescence in situ hybridization. 917 98

Elevation of p16, the CDKN2/p16 tumor suppressor gene (TSG) product, occurs at senescence in normal human uroepithelial cells (HUC). Immortal HUCs and bladder cancer cell lines show either alteration of p16 or pRb, the product of the retinoblastoma (RB) TSG. In addition, many human cancers show p16 or pRb alteration along with other genetic alterations that we associated with immortalization, including +20q and -3p. These observations led us to hypothesize that p16 elevation plays a critical role in senescence cell cycle arrest and that overcoming this block is an important step in tumorigenesis in vivo, as well as immortalization in vitro. Using a novel approach, we tested these hypotheses in the present study by examining p16 and pRb status in primary culture (P0) and after passage in vitro of transitional cell carcinoma (TCC) biopsies that represented both superficial bladder tumors and invasive bladder cancers. We demonstrated that all superficial TCCs showed elevated p16 after limited passage in vitro and then senesced, like normal HUCs. In contrast, all muscle invasive TCCs contained either a p16 or a pRb alteration at P0 and all spontaneously bypassed senescence (P = 0.001). Comparative genomic hybridization (CGH) was used to identify regions of chromosome loss or gain in all TCC samples. The application of a statistical model to the CGH data showed a high probability of elevated alteration rates of +20q11-q12 (0.99) and +8p22-pter (0.94) in the immortal muscle invasive TCCs, and of -9q (0.99) in the superficial TCCs. Three myoinvasive TCCs lost 3p13-p14. In this study, four of six myoinvasive TCCs also showed TP53 mutation that associated well with genome instability (P = 0.001), as previously hypothesized. Notably, TP53 mutation, which has been used as a marker of tumor progression in many human cancers, was less significant in associating with progression in this study (P = 0.04) than was p16 or pRb alteration (P = 0.001). Thus, these data support a new model in which overcoming senescence plays a critical role in human cancer pathogenesis and requires at least two genetic changes that occur in several combinations that can include either p16 or pRb loss and at least one additional alteration, such as +20q11-q12, -3p13-p14, or -8p21-pter.
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PMID:Overcoming cellular senescence in human cancer pathogenesis. 943 77

In Egypt and other regions of the Middle East where the trematode Schistosoma haematobium is endemic, bladder cancer is the most common adult cancer. Unlike bladder cancers in Western countries, which are predominantly transitional-cell carcinoma (TCC), these schistosomiasis-associated bladder cancers are predominantly squamous-cell carcinoma (SCC). Our aim was to assess a large series of schistosomiasis-associated bladder tumours for genetic alterations commonly found in TCC in the United Kingdom and the United States. We have carried out a partial allelotype of 70 tumours from patients with schistosomiasis. LOH was found on all chromosome arms studied (3p, 4p, 4q, 8p, 9p, 9q, 11p, 11q, 13q, 14q, 17p, 18q). The most frequent regions of LOH were 9p (65%), 17p (58%), 3p (40%), 9q (39%) and 8p (37%). LOH on 17p, where the TP53 gene is located, was more common in Egyptian TCC than in SCC. Similarly, 8p LOH was more common in TCC than SCC. The most striking difference between this group of tumours and TCCs from the United Kingdom and the United States was the high frequency of 9p LOH in the region of the CDKN2 gene (65%) and the relatively low frequency of 9q LOH (39%); 15 of 43 tumours with LOH of at least one marker on chromosome 9 showed LOH of 9p only. This suggests that a 9p gene, possibly CDKN2, may contribute to the development of the majority of schistosomiasis-associated bladder tumours but that genes on 9q play a much less important role.
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PMID:Partial allelotype of schistosomiasis-associated bladder cancer. 1004 62

Early cytogenetic studies in bladder cancer identify regions of chromosomal gain or loss that can be candidate loci for oncogenes and tumor suppressor genes. Oncogenes with potential prognostic significance identified in bladder cancer the RAS family, epidermal growth factor receptor, ERBB-2, MDM2, and cyclin D1. The TP53 gene has been the most thoroughly characterized tumor suppressor gene in bladder cancer, with correlation of TP53 alterations with type of carcinogenic exposure, tumor stage and grade, as well as prognosis. Studies evaluating alterations of the retinoblastoma pathway have identified the retinoblastoma gene, RB, p161NK4A/CDKN2, and E2F-1 as tumor suppressor genes with potential prognostic significance in patients with bladder cancer. Better understanding of the genetic mechanisms underlying bladder tumor development and progression will allow better prevention, diagnosis, and treatment strategies.
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PMID:Mutation of cell cycle regulators and their impact on superficial bladder cancer. 1069 48

Cyclin-dependent kinase inhibitors (CKIs) prevent cyclin-dependent kinases from phosphorylating critical substrates such as retinoblastoma gene protein (pRb), hence blocking the cascade of events leading to cell proliferation. Currently, the list of CKIs includes p21WAF1/Cip1, p27Kip1, p57Kip2 (the Cip/Kip family), p15/ INK4b, p16/INK4a, p18/INK4c, and p19/INK4d (the INK4 family). Among them, p27 plays a crucial role linking extracellular growth-regulatory signals to progression to or exit from the cell cycle. Unlike p53, p16, and Rb, mutations in Kip1 and WAF1 genes are distinctly rare in bladder cancer. We analyzed immunohistochemically the expression of p27 and other interacting G1 proteins (ie, p21, p16, pRb, p53) in 120 consecutive cases of transitional cell carcinomas (TCCs) and related it to proliferation rate, clinicopathologic parameters, and survival. p27 levels were significantly higher in low-grade (P = .001), superficial (Ta-T1) (P = .001), papillary (P < .001), and slowly proliferating TCCs (rs = -0.235, P = .05). p27 also positively correlated with p16 expression (rs = 0.212, P = .05). In univariate analysis, decreased p27 expression was associated with poor overall (P = .0109) and postrelapse (P = .0344) survival, especially if combined to increased Ki-67 expression (P = .0004 and P = .036, respectively). Furthermore, in multivariate analysis, Ki-67/p27 status had the strongest bearing on the overall survival of muscle-invasive TCCs (P = .0019). Our results indicate that low p27 expression is more common in poorly differentiated muscle-invasive TCCs and is a major player in cell cycle control in these neoplasms. More importantly, the combined Ki-67/p27 expression provides prognostic information beyond that provided by conventional parameters or other cell cycle-related proteins, concerning overall survival in muscle-invasive TCCs.
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PMID:Cell cycle regulators in bladder cancer: a multivariate survival study with emphasis on p27Kip1. 1087 71

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