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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Telomerase activity is present in most malignant tumors and provides a mechanism for unlimited replication of neoplastic cells. Expression of the gene encoding human telomerase reverse transcriptase (hTERT), the telomerase catalytic subunit gene, is associated with telomerase activity, and it is overexpressed in most colorectal carcinomas. In the present study we assayed telomerase activity by the telomeric repeat amplification protocol (TRAP) and used in situ hybridization (ISH) and the reverse transcription polymerase chain reaction (RT-PCR) to study hTERT expression in colorectal carcinomas and adjacent normal tissues. Telomerase activity was found in 30/35 (85.7%) of normal mucosae and 35/35 (100%) of adenocarcinomas, and RT-PCR detected hTERT in 33/35 (94.3%) of the carcinomas. ISH, on the other hand, detected weak but significant expression of hTERT in a significant percentage of lymphocytes infiltrating normal colorectal mucosa. hTERT gene expression was detected in the nuclei of adenocarcinoma cells in 27/35 (77.1%) of the lesions. The results of our comparison of telomerase activity and hTERT gene expression by RT-PCR-based ISH appeared contradictory, but a careful review suggested that the discrepancy was attributable to contamination by infiltrating lymphocytes. Our findings suggest that ISH-based analysis of hTERT gene expression is superior to both TRAP telomerase activity and hTERT mRNA RT-PCR analysis as a means of determining telomerase status during carcinogenesis.
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PMID:Demonstration of human telomerase reverse transcriptase in human colorectal carcinomas by in situ hybridization. 1174 37

A new cancer gene, HIC-1 (Hypermethylated in Cancer) telomeric to p53 on chromosome 17p may be of clinical importance in sporadic breast cancer. Regional DNA hypermethylation of 17p13.3 resulting in suppression of gene expression has been shown to precede 17p structural changes in human carcinogenesis. In addition, loss of heterozygosity studies have suggested clinically significant involvement of a gene on 17p13.3 associated with poor prognosis in breast cancer. Using RT-PCR analysis, we demonstrate that the MCF7 (wild type p53) cell line expressed HIC-1 transcripts but the MDAMB231 (mutant p53) cell line did not, suggesting loss of HIC-1 expression and p53 malfunction may be synergistic events in sporadic breast cancer. HIC-1 expression was examined using RT-PCR on RNA extracted from 50 primary untreated, human breast cancers and was detected in only 7/50 (14%) cancers. All seven patients with HIC-1 expression were alive without disease recurrence after 8 years follow-up and 5/7 had detectable p53 wild type mRNA expression. This suggests that retained HIC-1 expression may offer a survival advantage. However the seven cancers had 17p13.3 loss of heterozygosity (LOH; four patients), a feature previously associated with poor prognosis, or were homozygous (three patients) suggesting there may be two genes at 17p13.3 involved in breast carcinogenesis. Using a demethylating drug 5-aza-2'-deoxycytidine (DeoxyC), HIC-1 expression was restored in the MDAMB231 cells, also suggesting restoration of HIC-1 function by reversing HIC-1 hypermethylation may offer a therapeutic avenue in breast cancer.
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PMID:Expression of the Hypermethylated in Cancer gene (HIC-1) is associated with good outcome in human breast cancer. 1174 29

Telomerase is a ribonucleoprotein reverse transcriptase that synthesizes telomeric DNA onto chromosome ends, and is not detected in most normal cells. It has been clarified that some bronchial squamous cell carcinomas may arise through the metaplasia and dysplasia sequence accompanied by accumulation of genetic mutations in metaplastic cells. Recently a highly sensitive polymerase chain reaction (PCR)-based telomerase assay (TRAP assay) was developed for the detection of telomerase activity. Telomerase activity has been found in most malignant neoplasms, including lung cancer. The objective of this study was to determine whether telomerase RNA might increase in precancerous lesions of the bronchi. Bronchial-brushing extracts were analyzed for telomerase activity (F-TRAP) and in situ telomerase activity using a fluorescence-based TRAP assay (in situ TRAP) and compared to cytological features. The fluorescence-based semi-quantitative TRAP assay detected telomerase activity in 8 out of 12 lung cancer cases (66.7%). In squamous cell carcinoma, 6 out of 9 cases (66.7%) showed telomerase activity. On the other hand, in normal and precancerous lesions of the bronchi, telomerase activity was not detected using either the F-TRAP method or in situ TRAP method. We concluded that dysplastic cells might not contain immortalized cells, and that the increase of telomerase activity is a relatively late event during the bronchial carcinogenesis. It is difficult to distinguish between dysplasia and in situ carcinoma of the bronchus morphologically, but the measurement of telomerase activity is clinically valuable for the determination of treatment.
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PMID:Telomerase activity during carcinogenesis in the bronchus. 1174 53

Carcinogenesis involves a multistep process whereby a normal healthy cell undergoes both immortalization and oncogenesis to become fully transformed. Immortalization results from the subversion of critical cell cycle regulatory checkpoints, thereby allowing a cell to extend its finite life span and to maintain telomeric length. Oncogenesis is the manifestation of additional genetic events that are capable of conferring upon the cell an actual growth advantage. Such an advantage may relieve a cell of its normal requirements for a particular growth factor or may enhance the ability of a cell to proliferate outside of its normal microenvironment. To further investigate this multistep process, we developed an immortalized mammary epithelial cell line by overexpressing the catalytic subunit of telomerase (human telomerase reverse transcriptase) in primary human mammary epithelial cell lines. We present evidence that the overexpression of human telomerase reverse transcriptase was sufficient to extend the life span of the cells and allow for additional events that lead to immortalization. The result was the establishment of an IMEC line. Biochemical analysis of these cells indicates a basal epithelial phenotype with expression of high molecular weight cytokeratins. We show that continued growth of the IMECs is rigorously dependent upon both insulin and epidermal growth factor, and that the mitogenic effects of these factors on the IMECs are mediated in part by AKT. In addition, IMECs express the p53 family member DeltaN-p63-alpha, which is found in basal epithelial cells of many tissues and has been implicated as playing an essential role in normal epithelial development. Our studies suggest that the immortalization of basal epithelial cells of the mammary gland may be an early step in the initiation of a subset of breast cancers with a basal epithelial phenotype.
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PMID:Growth factor requirements and basal phenotype of an immortalized mammary epithelial cell line. 1178 64

AIM:To study the telomerase expression in gastric carcinoma and its clinical implications.METHODS:Telomerase activity was examined in gastric cancer and corresponding normal tissues using a modified TRAP (telomeric repeat amplify-cation protocol) assay (TRAP-eze) in tissue samples from 94 gastric carcinomas and 58 normal tissues, 12 gastric adenomas and 9 gastric ulcer lesions.RESULTS:Telomerase activity was present in 81 of the 94 (86.2%) gastric cancer tissues, whereas no telomerase activity was detected in any normal tissues.The incidence of telomerase activity in gastric cancer tissues was unrelated to the tumor diameter, histological grade, tumor invasion in depth, lymph node metastasis and TNM stage.CONCLUSION:Telomerase plays an important role in carcinogenesis and progression of gastric cancer, and it is suggested to be a useful tumor marker.
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PMID:Telomerase activity in gastric cancer and its clinical implications. 1181 56

Rats of the inbred BD strains strongly differ in their susceptibility to the induction of tumors of the central (CNS) and peripheral nervous system (PNS) by N-ethyl-N-nitrosourea (EtNU). Malignant schwannomas induced in (BDIX x BDIV) and (BDIX x BDVI) rat hybrids were analyzed to identify genetic alterations associated with EtNU-induced tumorigenesis in the PNS. EtNU-induced schwannomas exclusively exhibit an A:T T:A transversion mutation of the neu/Erbb-2 gene located on chromosome 10, with subsequent loss of the wild-type neu/Erbb-2 allele at a post-initiation stage. Targeted allelic deletion mapping previously revealed losses of heterozygosity (LOH) at the distal end of chromosome 10 in a large majority of (BDIX x BDIV) schwannomas. The aims of the present study were (i) to scan the whole genome for further LOHs; (ii) to narrow down the consensus regions of frequently occurring allelic deletions using tumors from different crosses of BD rats; and (iii) to determine the sequence of genetic alterations during schwannoma development. A limited number of (BDIX x BDIV) F(1) tumors were initially screened for LOH and microsatellite instability (MI) by amplifying 58 microsatellite markers spanning the whole genome. LOHs on chromosome 5 were detected in 9/17 tumors, with random loss of the parental alleles. Ninety-two schwannomas from different BD rat-crosses were then analyzed to solidify these data and to determine the consensus region of frequent LOHs. The results indicate that LOHs on chromosomes 10 and 5 are required for the development of EtNU-induced malignant schwannomas from immature neu/Erbb-2 mutant glial cells, and that putative tumor suppressor genes are localized on chromosome 10q32.3, corresponding to human chromosome 17q25.3, and the telomeric region of mouse chromosome 11, and on the telomeric quarter of chromosome 5. MI was detected in <0.2% of cases.
Carcinogenesis 2002 Jun
PMID:Loss of heterozygosity in malignant rat schwannomas chemically induced in hybrids of inbred rat strains with differential tumor susceptibility. 1208 26

The aim is to review briefly the key questions related to aneuploidy/polyploidy and to compare the advantages and disadvantages of the in vitro micronucleus test to assess aneuploidy/polyploidy in vitro. The key questions that will be addressed, concern the importance of polyploidy for health, and cancer in particular, the mechanisms leading to aneuploidy and polyploidy, and the survival of aneuploid/polyploid cells. The recently recognised contribution of numerical chromosome changes to carcinogenesis triggered the development and the implementation of tests specifically aiming at the detection of aneugens in the test battery for mutagenicity and carcinogenicity. The validation of the in vitro micronucleus test in combination with the identification of in vitro divided cells with the cytokinesis-block methodology and of centromeres with pancentromeric or chromosome specific centromeric probes fluorescence in situ hybridisation (FISH) provides a sensitive, easy to score and powerful test which allows assessment of cell proliferation, the discrimination between chromosome breaks, chromosome loss and chromosome non-disjunction and polyploidy. Moreover, classic histology permits the estimation of necrosis and apoptosis on the same slide. The cytokinesis-blocked micronucleus assay could be considered as a multi-endpoint test for genotoxic responses to clastogens/aneugens. This methodology has also shown to be capable of identifying threshold values for the induction of chromosome loss and/or non-disjunction by microtubule inhibitors, data which are particularly important for risk calculations. Similar approaches were conducted in vivo on bone marrow in mice and rats (except for identification of chromosome non-disjunction), and are in development for gut in mice.
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PMID:Importance of detecting numerical versus structural chromosome aberrations. 1210 54

Telomerase activity and hTERT mRNA expression are upregulated in colorectal cancer. Whether they are inherent in colorectal adenomas, premalignant lesions to cancer, however, remains to be elucidated. We examined telomerase activity by the fluorescence-based telomeric repeat amplification protocol method and analyzed the level of hTERT mRNA by real-time polymerase chain reaction in 74 surgically obtained neoplasms from 29 patients. The specimens were divided into 6 categories according to the criteria of the Vienna Classification. The control comprising 29 non-pathological mucosa were classified into category 1, 6 adenomas indefinite for neoplasia into category 2, 21 non-invasive low grade adenomas into category 3, 23 high grade adenomas or non-invasive carcinomas into category 4, and 15 intramucosal or submucosal carcinomas into category 5. Carcinoma invading beyond the submucosa (9 samples) was referentially subdivided into category 6. Telomerase activity (mean +/- standard error) in 1 categories to 6 were 5.0+/-1.2, 1.8+/-1.7, 4.3+/-1.6, 20.2+/-2.1, 36.4+/-5.5, and 55.5+/-8.2 units/microg protein, respectively. There were no statistical differences between categories 1 and 2, 1 and 3, and 2 and 3. A significant statistical difference in the other two was observed by the multiple comparison test. The mean levels of hTERT mRNA was 103.1+/-102.4, 103.6+/-103.0, 103.6+/-102.9, 103.7+/-102.9, 104.0+/-103.4, and 104.4+/-104.0 copies/microg total RNA, respectively. There was a significant statistical difference only between category 6 and each of the other categories. These results suggest that telomerase activation occurs during the progression from low-grade to high-grade dysplasia in adenomas and increases steadily with the progression of the degree of dysplasia and invasion during colorectal carcinogenesis, and that hTERT mRNA expression is a feature of the late stage development of colorectal cancer.
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PMID:Telomerase activity and hTERT mRNA in development and progression of adenoma to colorectal cancer. 1211 60

Telomeres of a specific length are essential for continuous cell proliferation. The length of telomeres must be maintained by telomerase action and the telomeric DNA-repeat binding protein must be protected. Therefore, there seems to be a relationship between cell immortality due to telomerase activity and telomeric DNA-repeat binding protein. We examined telomerase activity and the expression of telomeric-repeat binding factor 1 and 2 (TRF1 and TRF2) in gastric cancer. Telomerase activity was semi-quantified using the f-TRAP technique in 53 cancerous and non-cancerous gastric tissue specimens. TRF1 and TRF2 were also studied using an immunohistochemical method to determine the frequency of these factors in cell nuclei. Telomerase activity was observed in 79.2% of the cancerous tissue and in 39.6% of the non-cancerous tissue. The average semi-quantitative values for telomerase activity were 67.3 total product generated (TPG) unit/microg protein in cancerous tissue and 6.0 TPG unit/microg protein in non-cancerous tissue. Moreover, T0/1 tumor had the same incidence of telomerase activity as T2 or deeper tumors. These results indicated that the activation of telomerase begins at an early stage of carcinogenesis. TRF1 and TRF2 were detected in 45.1% and 42.9% of the cancerous tissue and in 70.6% and 65.6% of the non-cancerous tissue, respectively. In addition, low positive staining ratios were found for TRF1 and TRF2 when cancer had more deeply invaded. However, telomerase activity did not correlate with either TRF1 or TRF2. These findings suggest that optimal conditions for efficient telomerase are produced as cancer progresses, via suppression of TRFs.
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PMID:Correlation between telomerase activity and telomeric-repeat binding factors in gastric cancer. 1214 88

Inadequate attention has been paid to the frequent and often extensive cancer-associated DNA hypomethylation. This hypomethylation usually includes undermethylation of certain DNA repeats in constitutive heterochromatin, although it is not limited to such sequences. Many cancers display an overall deficiency in the levels of genomic 5-methylcytosine compared to a variety of normal postnatal somatic tissues. The immunodeficiency, centromeric region instability, facial anomalies (ICF) syndrome, a rare recessive DNA methyltransferase deficiency disease, results in a small decrease in the extent of global genomic methylation. In ICF, DNA hypomethylation is targeted to the satellite DNA in juxtacentromeric (centromere-adjacent) heterochromatin of chromosomes 1 and 16 (1qh and 16qh), which are prone to rearrangements in ICF lymphoid cells. Also, 1qh and 16qh DNA sequences frequently are hypomethylated in human cancers and rearrangements in their vicinity are overrepresented in cancers. These often lead to chromosome arm imbalances and gene dosage imbalances that could participate in carcinogenesis. Studies of ICF cells suggest that hypomethylation in the normally highly methylated 1qh and 16qh regions predisposes to heterochromatin decondensation in these regions, which in turn leads to elevated levels of rearrangements. Studies of ICF cells also suggest that some of these rearrangements, namely multiradial chromosomes with multiple arms joined in the pericentromeric region, may be unstable intermediates in formation of more stable pericentromeric rearrangements in cancer. Microarray gene expression analysis on ICF and normal lymphoblastoid cell lines suggests that this hypomethylation also may affect gene expression elsewhere in the genome.
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PMID:DNA hypomethylation, cancer, the immunodeficiency, centromeric region instability, facial anomalies syndrome and chromosomal rearrangements. 1216 5


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