Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
 685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cyclooxygenase-2 (COX-2) enzyme catalyzes the rate-limiting step of prostaglandin formation in pathogenic states. The molecular regulation of COX-2 gene expression is normally tightly regulated on transcriptional and post-transcriptional levels. However, loss of function at either level of COX-2 gene regulation promotes constitutive COX-2 overexpression which plays a key role in carcinogenesis, particularly colorectal tumorigenesis. Current work investigating the regulatory mechanisms of COX-2 expression has demonstrated post-transcriptional regulation to play a central role. Rapid COX-2 mRNA decay and translational inhibition is mediated through a conserved AU-rich element (ARE) present within the 3'-untranslated region (3'UTR). The COX-2 ARE exerts its control through association with ARE RNA-binding proteins. These trans-acting regulatory factors influence the fate of COX-2 mRNA by controlling mRNA degradation, stabilization, or translation. Recent evidence demonstrates the functional significance rapid mRNA decay and translational inhibition play in controlling COX-2 gene expression and that, if dysregulated, allow for overexpression of COX-2 and other associated angiogenic factors detected in neoplasia.
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PMID:Dysregulated post-transcriptional control of COX-2 gene expression in cancer. 1496 26

The BTB/POZ transcriptional repressor HIC1 (Hypermethylated in Cancer 1) is a tumor suppressor gene located at chromosome 17p13.3, a region frequently hypermethylated or deleted in human tumors and in a contiguous-gene syndrome, the Miller-Dieker syndrome. The human and murine HIC1 genes are composed of two alternative 5' exons, 1a and 1b fused to a large second coding exon 2. Exon 1a is a noncoding exon associated with a major G-C-rich promoter whereas exon 1b is a downstream coding exon associated with a minor TATA box promoter. By human-mouse genome comparison, we have identified a short upstream conserved sequence containing G-C boxes which were shown to be functional. Transcripts initiating from this new promoter were detected in various human and mouse tissues and contained a long 5'-UTR sequence, called 1c which encompass the G-C-rich promoter associated with exon 1a and uses the same splice donor site. RT-PCR analyses of two primary breast epithelial cell lines identified two other 5'-UTRs generated by alternative splicing within exon 1c. Our results thus highlight the existence of an unexpected complex transcriptional regulation of HIC1.
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PMID:Identification of a second G-C-rich promoter conserved in the human, murine and rat tumor suppressor genes HIC1. 1500 85

Methylation of promoter regions of CpG-rich sites is an important mechanism for silencing of tumor suppressor genes (TSG). To evaluate the role of tumor suppressor genes caspase-8 (CASP8), TIMP-3, E-cadherin (CDH1), p16INK4A, and MGMT in medulloblastoma tumorigenesis, 51 medulloblastomas (46 primary tumor specimens, 5 cell lines) were screened for methylation of promoter linked CpG-islands. For CASP8, we examined the 5' UTR region that has been shown to be associated with expression of CASP8. As detected by methylation specific PCR, methylation rate was low for TIMP-3 (3% of tumor samples; 1/5 cell lines), for MGMT (0% of tumor samples; 1/5 cell lines), for p16INK4A (2% of tumor samples; 2/5 cell lines) and for CDH1 (8% of tumor samples; 1/4 cell lines). CASP8, however, was methylated in 90% of tumor samples and 4/5 cell lines examined. Screening other tumor entities for CASP8 methylation, we found a similarly high level in 6 neuroblastoma cell lines in contrast to 5 osteosarcoma-, 4 Ewing's sarcoma- and 6 non-embryonic tumor cell lines without any increased promoter methylation. From our results we conclude that methylation of the CASP8 5' UTR region may play a role in inactivation of CASP8 in neural crest tumors.
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PMID:Promoter methylation pattern of caspase-8, P16INK4A, MGMT, TIMP-3, and E-cadherin in medulloblastoma. 1502 56

Malignant mesotheliomas (MMs) are aggressive tumors derived from mesothelial cells lining the lungs, pericardium and peritoneum, and are often associated with occupational asbestos exposure. Suppression subtractive hybridization was used to identify genes differentially expressed in MM cells compared to normal mesothelial cells. A gene, SEP15, encoding a 15-kDa selenium-containing protein was isolated using this approach and was subsequently shown to be downregulated in approximately 60% of MM cell lines and tumor specimens. A SEP15 polymorphic variant, 1125A, resides in the SECIS recognition element in the 3'-UTR and may influence the efficiency of Sec incorporation into the protein during translation. Since previous studies have implicated a potential role of the trace element selenium as a chemopreventive agent in animal models and in several types of human cancer, we investigated the effect of selenium on MM cells and its dependence on SEP15 genotype. Selenium was shown to inhibit cell growth and induce apoptosis in a dose-dependent manner in MM cells but had minimal effect on normal mesothelial cells. However, MM cells with downregulated SEP15 or the 1125A variant were somewhat less responsive to the growth inhibitory and apoptotic effects of selenium than MM cells expressing wild-type protein. RNAi-based knockdown studies demonstrated that SEP15 inhibition makes sensitive MM cells more resistant to selenium. These data imply that selenium may be useful as a chemopreventive agent in individuals at high risk of MM due to asbestos exposure, although those with the 1125A polymorphism may be less responsive to the protective benefits of dietary selenium supplementation.
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PMID:Growth inhibition and induction of apoptosis in mesothelioma cells by selenium and dependence on selenoprotein SEP15 genotype. 1510 26

Hepatocyte growth factor (HGF)-stimulated Met signaling influences tumor survival, growth and progression, all processes involving the transcription factor NF-kappaB. NF-kappaB plays a complex role in the control of survival due to the influence of cellular factors acting downstream. We undertook a comparative investigation of two human breast carcinoma cells with different grades of malignancy and HepG2 hepatoma cells, which present a biphasic response to HGF (proliferation followed by apoptosis). We found evidence that HGF induced gene patterns characteristic of survival rather than apoptosis depending on the cell type. The ability of NF-kappaB to regulate expression of hypoxia-inducible factor-1alpha (HIF-1alpha), a survival/anti-apoptotic gene in cancer, seemed to be critical. In the HepG2 and MCF-7 (low invasive breast carcinoma) cell lines increased transcription and translation were responsible for HIF-1alpha induction after HGF. The regulation by NF-kappaB was mainly at the level of the 5'-UTR of the HIF-1alpha message. HIF-1 (alpha/beta heterodimer) was likely to transactivate Mcl-1, another anti-apoptotic gene. Opposite results were observed in MDA-MB-231 cells (highly invasive breast carcinoma), which have high NF-kappaB activity, further inducible by HGF, because HIF-1alpha mRNA expression and HIF-1 transactivating capacity were HGF-insensitive while the alpha subunit seemed to be degraded after HGF. However, ornithine decarboxylase (ODC) and heme oxygenase mRNA expression persistently increased. By transiently transfecting two ODC gene reporters we demonstrated that ODC is a target gene of NF-kappaB in HGF-treated tumor cells. By regulating HIF-1 activity and specific gene expression downstream, NF-kappaB may influence the survival threshold, with an impact on the fate of carcinoma cells after prolonged HGF treatment.
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PMID:Hepatocyte growth factor-activated NF-kappaB regulates HIF-1 activity and ODC expression, implicated in survival, differently in different carcinoma cell lines. 1524 May 10

Urokinase is thought to be involved in the formation of oral cancer, although there is a lack of genetic evidence. Our aim was to study single nucleotide polymorphisms in order to investigate the possibility. A total of 130 oral cancer patients and 105 controls were studied. Polymerase chain reaction (PCR) based restriction analysis was used to identify the C/T polymorphism of the urokinase gene, which is located on the 3'-untranslated region (3'-UTR) of chromosome 10. There was a significant difference in the distribution of the urokinase gene 3'-UTR C/T polymorphism frequency between cancer patients and the normal control group (P < 0.05). The "T" allele was prominent in the cancer group. The odds ratio for the risk of the "T" allele in cancer patients was 2.71 (95% CI = 1.325 approximately 5.562). The cancer patients were further categorized according to gender and whether or not they were habitual smokers or betel nut chewers. These clinical parameters were then compared with tumor cell differentiation and tumor progression. No significant differences were found. Therefore, the urokinase gene 3'-UTR "T" allele is associated with oral cancer and may play a role in oral cancer formation. However, we did not find the relationship between tumor progression and this polymorphism.
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PMID:Urokinase gene 3'-UTR T/C polymorphism is associated with oral cancer. 1535 78

A natural antisense transcript (aHIF), which sequence is strictly complementary to the 3' untranslated region (3'UTR) of HIF-1alpha mRNA, has been identified in human and shown to be overexpressed in renal carcinomas. We searched for aHIF in different rodent tissues. Two candidate expressed sequence tag (EST) were identified in silico and their PCR products (1.1 and 1.0 kb) were cloned and sequenced in mouse and rat, respectively. These transcripts were rigorously complementary to the 3'UTR of rodent HIF-1alpha mRNA and were broadly expressed in all mouse and rat tissues we tested. The conservation of aHIF in rodents underlined its potential importance in cell regulations. Therefore the responses of aHIF and HIF-1alpha transcripts were investigated in various types of hypoxic conditions. In freshly isolated rat renal tubules, aHIF RNA level was increased by acute hypoxia and low in normal supply of oxygen. In a rat strain raised in chronic hypobaric altitude hypoxia, aHIF transcript was greatly induced in the oxidative-type soleus and heart muscles of 3 month-old animals. By contrast, in the glycolytic-type extensor digitorum longus muscle aHIF transcript amount was lowered by hypoxia whereas HIF-1alpha transcript was highly expressed. In brain, where oxidative glycolysis takes place, HIF-1alpha mRNA and its antisense transcript levels were high and not significantly changed by altitude. Tumour cell lines cultured for 6 h in conditions mimicking hypoxia expressed lower amounts of HIF-1alpha mRNA. In two rat cell lines, aHIF transcript levels were greatly augmented after a 6-h incubation in these conditions, whereas in a mouse cell line, aHIF level was significantly reduced.
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PMID:Natural antisense transcripts of HIF-1alpha are conserved in rodents. 1536 52

The inheritance of a G allele in position 61 in the 5'UTR of the epidermal growth factor (EGF) gene has been reported to increase melanoma susceptibility, a finding we have investigated in this study. The most potent phenotypic risk factor for melanoma is the atypical mole syndrome (AMS) phenotype. Our hypothesis is that the AMS is genetically determined and that nevus genes are also low penetrance melanoma susceptibility genes. We report that the G allele frequencies were the same in 697 healthy women and 380 melanoma cases (OR 0.97, 95% CI 0.8-1.2 p=0.76). We therefore found no evidence that this polymorphism is a melanoma susceptibility gene. Furthermore, we found no evidence that the polymorphism controls the nevus phenotype (nevus number, number atypical nevi or AMS phenotype). We did find some evidence that the G allele may be associated with decreased tumor Breslow thickness (OR 0.5, 95% CI 0.3-0.9) for the A/A genotype versus A/G and G/G combined in tumors of thickness >3.5 vs < or =3.5 mm and may therefore act as a predictor of survival, although this finding is not in accord with the original report. This is the second study to find no association between EGF +61 and melanoma susceptibility.
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PMID:The relationship between the epidermal growth factor (EGF) 5'UTR variant A61G and melanoma/nevus susceptibility. 1537 2

A common single nucleotide polymorphism (SNP) in the 5' untranslated region (5'UTR) of the epidermal growth factor (EGF) gene modulates the level of transcription of this gene and hence is associated with serum levels of EGF. This variant may be associated with melanoma risk, but conflicting findings have been reported. An Australian melanoma case-control sample was typed for the EGF+61A>G transversion (rs4444903). The sample comprised 753 melanoma cases from 738 families stratified by family history of melanoma and 2387 controls from 645 unselected twin families. Ancestry of the cases and controls was recorded, and the twins had undergone skin examination to assess total body nevus count, degree of freckling and pigmentation phenotype. SNP genotyping was carried out via primer extension followed by matrix-assisted laser desorption time of flight (MALDI-TOF) mass spectroscopy. The EGF+61 SNP was not found to be significantly associated with melanoma status or with development of nevi or freckles. Among melanoma cases, however, G homozygotes had thicker tumors (p=0.05), in keeping with two previous studies. The EGF polymorphism does not appear to predispose to melanoma or nevus development, but its significant association with tumor thickness implies that it may be a useful marker of prognosis.
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PMID:Epidermal growth factor gene (EGF) polymorphism and risk of melanocytic neoplasia. 1537 2

Studies focusing on the transcriptional regulation of MRP7 (multidrug resistance associated protein 7) gene expression in human tumor cells are described. As shown by real-time RT-PCR, expression of the MRP7 gene compared to the expression of the MRP1, 2 and 3 genes was less variable among the different cell types. MRP1, 2, 3 and 7 gene expression was highest in HepG2 cells compared to expression in CWR22Rv1 and TSU-PR1 cells. MRP7 gene expression was less than expression of the MRP1 and 2 genes in HepG2 cells but similar to MRP3 gene expression in this cell type and similar to or greater than expression of the MRP1, 2 and 3 genes in CWR22Rv1 and TSU-PR1 cells. Functional deletion analysis, in situ mutagenesis and electromobility shift assays (EMSA) showed that basal MRP7 promoter activity relied upon a proximal segment of the 5' flanking region 169 to 257 nt in length bearing an E2F site acting cooperatively with two closely positioned Sp1 sites. Two additional Sp1 sites further downstream were of secondary importance. The sequence of the E2F site was noncanonical and its interaction with E2F protein was confirmed by a competitive EMSA using a consensus E2F oligonucleotide probe and by demonstrating a supershift with the antibody against the E2F4 and E2F5 pocket protein, p107. 5' RACE carried out with CWR22Rv1 and HepG2 cells detected a single transcription start site (tsp) distal to the basal promoter and identified two new MRP7 transcripts with very short 5' UTR sequences compared to transcripts found by others in nontumorous human tissue. This 5' end heterogeneity infers a more complex intron-exon composition than hitherto shown.
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PMID:Regulation of transcription of the human MRP7 gene. Characteristics of the basal promoter and identification of tumor-derived transcripts encoding additional 5' end heterogeneity. 1547 96


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