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

Gene amplifications are common in many different tumor types and may confer diagnostic, prognostic, or therapeutic information for patient management. Tedious experiments are often required to determine which tumor types have amplifications of a specific oncogene. To facilitate rapid screening for molecular alterations in many different malignancies, a tissue microarray consisting of samples from 17 different tumor types was generated. Altogether, 397 individual tumors were arrayed in a single paraffin block. To determine whether results from the literature can be reproduced on minute tissue samples (diameter, 0.6 mm), amplification of three extensively studied oncogenes (CCND1, CMYC, and ERBB2) was analyzed in three fluorescence in situ hybridization experiments from consecutive sections cut from the tissue microarray. Amplification of CCND1 was found in breast, lung, head and neck, and bladder cancer, as well as in melanoma. ERBB2 was amplified in bladder, breast, colon, stomach, testis, and lung cancer. CMYC was amplified in breast, colon, kidney, lung, ovary, bladder, head and neck, and endometrial cancer. These results confirm and even extend existing data in the literature on such amplifications. In summary, we applied three fluorescence in situ hybridization experiments to analyze amplifications of three oncogenes in three x 397 tumors within a week. This demonstrates the power of using minute arrayed tissue specimens for tumor screening.
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PMID:Tissue microarrays for gene amplification surveys in many different tumor types. 1047 73

Detrusor muscle invasive transitional cell carcinoma is associated with poor prognosis and is responsible for the majority of bladder cancer related deaths. Amplifications of c-myc and CCND1 are associated with detrusor-muscle-invasive transitional cell carcinoma, however, their precise role in driving disease progression is unclear. Fluorescence in situ hybridisation on archival tissue from 16 patients with primary diagnosis of > or = pT2 transitional cell carcinoma and 15 cases with primary pTa/pT1 disease subsequently progressing to detrusor-muscle-invasion was performed, in the latter group both pre and post muscle invasive events were studied. No patients presenting with >/=pT2 had amplification of c-myc, two out of 16 (12.5%) had CCND1 amplification. Of patients who developed > or = pT2, two out of 15 (13.3%) had amplification of c-myc, both in > or = pT2, five out of 15 (33.3%) had CCND1 amplification, two in pTa/pT1 tumours, three in > or = pT2 transitional cell carcinomas. In total, two out of 31 (6.5%) of patients' > or = pT2 TCCs were amplified for c-myc and six out of 31 (19%) were amplified for CCND1. Eighty-seven per cent (40 out of 46) of tumours were polysomic for chromosome 8 and 80% (37 out of 46) were polysomic for chromosome 11 and this reflected the high copy numbers of c-myc and CCND1 observed. In almost all cases an increase in c-myc/CCND1 copy number occurred prior to invasion and persisted in advanced disease. Amplification of CCND1 or alterations in c-myc/CCND1 early in bladder cancer may have clinical relevance in promoting and predicting progression to detrusor-muscle-invasive transitional cell carcinoma.
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PMID:Genetic aberrations of c-myc and CCND1 in the development of invasive bladder cancer. 1223 76

Bladder cancer is the most common urinary tumors in China. Carcinogenesis of bladder is a multistep process. Accumulation of abnormal genotypes in a long period leads to malignant phenotypes. The genes associated with bladder carcinogenesis include oncogenes (such as H-ras, FGFR3, erbB2, CCND1, mdm2), tumor suppressor genes (such as INK4A/ARF, Rb, TP53, PTEN, TSC1, PTCH, DBCCR1), and DNA mismatch repair genes, etc. In this review, the authors discussed the recent research advances on the genes associated with bladder carcinoma.
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PMID:[Research advances on bladder cancer associated genes]. 1256 47

Expression of cyclin D1 is believed to lead to progression through the G1-S cell cycle checkpoint, and both experimental and pathological evidence suggest that over-expression of this protein may increase the risk of several cancers, including transition cell carcinoma of the bladder. Two major transcripts have been described for CCND1, the gene encoding cyclin D1. CCND1 870A-->G, a common single nucleotide polymorphism in the splice donor region of exon 4, may modulate expression of these transcripts, with the A variant resulting in an increased pool of the isozyme encoded by transcript form b. A statistically significant 1.8-fold increased risk for bladder cancer among individuals possessing the A/A genotype was recently reported in a hospital-based case-control study conducted among native Japanese. We conducted a population-based case-control study of incidence of bladder cancer among non-Hispanic whites in Los Angeles County to examine the relationship between CCND1 870A-->G genotypes and bladder cancer risk. No association between the A/A genotype and risk was observed (odds ratio = 0.90, 95% confidence interval 0.60-1.33). The null association was not appreciably modified by bladder cancer risk factors, including lifetime smoking history, or by histopathologic classification.
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PMID:A case-control study of cyclin D1 CCND1 870A-->G polymorphism and bladder cancer. 1289 8

Gene amplification is a common mechanism for oncogene overexpression. High-level amplifications at 11q13 have been repeatedly found in bladder cancer by comparative genomic hybridization (CGH) and other techniques. Putative candidate oncogenes located in this region are CCND1 (PRAD1, bcl-1), EMS1, FGF3 (Int-2), and FGF4 (hst1, hstf1). To evaluate the involvement of these genes in bladder cancer, a tissue microarray (TMA) containing 2317 samples was screened by fluorescence in situ hybridization (FISH). The frequency of gains and amplifications of all genes increased significantly from stage pTa to pT1-4 and from low to high grade. In addition, amplification was associated with patient survival and progression of pT1 tumours. Among 123 tumours with amplifications, 68.3% showed amplification of all four genes; 19.5% amplification of CCND1, FGF4, and FGF3; and 0.8% co-amplification of FGF4, FGF3, and EMS1. Amplification of CCND1 alone was found in 9% of the tumours, while EMS1 alone was amplified in 1.6% and FGF4 in 0.8%. Overall, the amplification frequency decreased with increasing genomic distance from CCND1, suggesting that, among the genes examined, CCND1 is the major target gene in the 11q13 amplicon in bladder cancer.
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PMID:High-throughput tissue microarray analysis of 11q13 gene amplification (CCND1, FGF3, FGF4, EMS1) in urinary bladder cancer. 1464 64

The aim of this study was to establish the frequency of combinatorial and separate copy number changes of INK4A (9p21), erbB-1 (7p11), erbB-2 (17q17-21), CMYC (8q24), CCND1 (11q13) and ZNF217 (20q13) in urothelial tumors; a tissue microarray of 159 urothelial bladder tumors was analyzed by fluorescence in situ hybridization. A total of 38 invasive tumors were successfully analyzed for all 6 loci. Normal gene copy numbers of all loci were established in 13 tumors (34.2%). In 25 tumors (65.8%), at least one aberration was found. Single abnormalities were detected in 16 tumors (64%), while double or higher abnormalities were found in 9 tumors (39%). The most frequent genetic change was deletion of INK4A (60% of aberrant tumors), followed by increased copy number changes of ZNF217 (36%), CCND1 (28%), CMYC (12%) and erbB-1 (4%). It was significantly more frequent in pT1 than in pT2-4 tumors and was predominantly found separately, while oncogene copy number increases were usually combined with another aberration and were not associated with the tumor stage. We concluded that INK4A loss is usually found as a single aberration in bladder cancer, which is more frequent in pT1 than in pT2-4 tumors. Overrepresentations of putative oncogenes are present in these two groups with similar frequency and are rarely found as single abnormality.
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PMID:Coexistence of copy number changes of different genes (INK4A, erbB-1, erbB-2, CMYC, CCND1 and ZNF217) in urothelial tumors. 1589 88

Transitional cell carcinoma of the bladder is a common tumor. While most patients presenting superficial disease can be expected to do well following treatment, still many patients will return to our office with muscle invasive and metastatic disease. Survival in advanced bladder cancer is less than 50%. Tumors of similar histologic grade and stage have variable behavior, suggesting that genetic alterations must be present to explain the diverse behavior of bladder cancer. It is hoped that through the study of the subtle genetic alterations in bladder cancer, important prognostic and therapeutic targets can be exploited. Many new diagnostic tests and gene therapy approaches rely on the identification and targeting of these unique genetic alterations. A review of literature published on the molecular genetics of bladder cancer from 1970 to the present was conducted. A variety of molecular genetic alterations have been identified in bladder cancer. Oncogenes (H-ras, erbB-2, EGFR, MDM2, C-MYC, CCND1), tumor suppressor genes (p53, Rb, p21, p27/KIP1, p16, PTEN, STK15, FHIT, FEZ1/LZTS1, bc10), telomerase, and methylation have all been studied in bladder cancer. Several have proven to be potentially useful clinical targets in the prognosis and therapy of bladder cancer such as staining for p53 and gene therapy strategies such as p53 and fez1. Clinical trials targeting HER2/neu and the EGFR pathways are underway. The UroVysion bladder cancer assay relies on FISH to detect genetic alterations in this disease. Continuing identification of the molecular genetic alterations in bladder cancer will enhance future diagnostic and therapeutic approaches to bladder cancer. Capitalizing on these alterations will allow early detection, providing important prognostic information and unique targets for gene therapy and other therapeutic approaches.
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PMID:Molecular genetics of bladder cancer: targets for diagnosis and therapy. 1691 24

Urinary bladder cancer is a heterogeneous disease with tumors ranging from papillary noninvasive (stage Ta) to solid muscle infiltrating tumors (stage T2+). The risk of progression and death for the most frequent diagnosed type, Ta, is low, but the high incidence of recurrences has a significant effect on the patients' quality of life and poses substantial costs for health care systems. Consequently, the purpose of this study was to search for predictive factors of recurrence on the basis of genetic profiling. A clinically well characterized cohort of Ta bladder carcinomas, selected by the presence or absence of recurrences, was evaluated by an integrated analysis of DNA copy number changes and gene expression (clone-based 32K, respectively, U133Plus2.0 arrays). Only a few chromosomal aberrations have previously been defined in superficial bladder cancer. Surprisingly, the profiling of Ta tumors with a high-resolution array showed that DNA copy alterations are relatively common in this tumor type. Furthermore, we observed an overrepresentation of focal amplifications within high-grade and recurrent cases. Known (FGFR3, CCND1, MYC, MDM2) and novel candidate genes were identified within the loci. For example, MYBL2, a nuclear transcription factor involved in cell-cycle progression; YWHAB, an antiapoptotic protein; and SDC4, an important component of focal adhesions represent interesting candidates detected within two amplicons on chromosome 20, for which DNA amplification correlated with transcript up-regulation. The observed overrepresentation of amplicons within high-grade and recurrent cases may be clinically useful for the identification of patients who will benefit from a more aggressive therapy.
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PMID:Focal amplifications are associated with high grade and recurrences in stage Ta bladder carcinoma. 1982 90

A number of histone demethylases have been identified and biochemically characterized, yet their biological functions largely remain uncharacterized, particularly in the context of human diseases such as cancer. In this study, we describe important roles for the histone demethylase KDM3A, also known as JMJD1A, in human carcinogenesis. Expression levels of KDM3A were significantly elevated in human bladder carcinomas compared with nonneoplastic bladder tissues (p < 0.0001), when assessed by real-time PCR. We confirmed that some other cancers including lung cancer also overexpressed KDM3A, using cDNA microarray analysis. Treatment of cancer cell lines with small interfering RNA targeting KDM3A significantly knocked down its expression and resulted in the suppression of proliferation. Importantly, we found that KDM3A activates transcription of the HOXA1 gene through demethylating histone H3 at lysine 9 di-methylation by binding to its promoter region. Indeed, expression levels of KDM3A and HOXA1 in several types of cancer cell lines and bladder cancer samples were statistically correlated. We observed the down-regulation of HOXA1 as well as CCND1 after treatment with KDM3A siRNA, indicating G(1) arrest of cancer cells. Together, our results suggest that elevated expression of KDM3A plays a critical role in the growth of cancer cells, and further studies may reveal a cancer therapeutic potential in KDM3A inhibition.
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PMID:The JmjC domain-containing histone demethylase KDM3A is a positive regulator of the G1/S transition in cancer cells via transcriptional regulation of the HOXA1 gene. 2202 Aug 99

We performed a genome wide analysis of 164 urothelial carcinoma samples and 27 bladder cancer cell lines to identify copy number changes associated with disease characteristics, and examined the association of amplification events with stage and grade of disease. Multiplex inversion probe (MIP) analysis, a recently developed genomic technique, was used to study 80 urothelial carcinomas to identify mutations and copy number changes. Selected amplification events were then analyzed in a validation cohort of 84 bladder cancers by multiplex ligation-dependent probe assay (MLPA). In the MIP analysis, 44 regions of significant copy number change were identified using GISTIC. Nine gene-containing regions of amplification were selected for validation in the second cohort by MLPA. Amplification events at these 9 genomic regions were found to correlate strongly with stage, being seen in only 2 of 23 (9%) Ta grade 1 or 1-2 cancers, in contrast to 31 of 61 (51%) Ta grade 3 and T2 grade 2 cancers, p<0.001. These observations suggest that analysis of genomic amplification of these 9 regions might help distinguish non-invasive from invasive urothelial carcinoma, although further study is required. Both MIP and MLPA methods perform well on formalin-fixed paraffin-embedded DNA, enhancing their potential clinical use. Furthermore several of the amplified genes identified here (ERBB2, MDM2, CCND1) are potential therapeutic targets.
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PMID:Identification of nine genomic regions of amplification in urothelial carcinoma, correlation with stage, and potential prognostic and therapeutic value. 2359 48


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