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Human Telomerase (human + telomerase)
Terms modified by Human Telomerase Selected AbstractshTERT expression in sporadic renal cell carcinomasTHE JOURNAL OF PATHOLOGY, Issue 2 2001Valérie Paradis Abstract Human telomerase is a specialized reverse transcriptase that catalyses telomeric repeat addition at the ends of chromosomes. Activation of this enzyme is one of the key steps in cell immortalization and carcinogenesis, and one of its components, hTERT, is considered as the rate-limiting factor. While telomerase activity was found to be prognostically relevant in various cancers, results obtained from renal cell carcinomas (RCC) failed to show any correlation with the usual prognostic factors. The aim of the study was to reassess the role of telomerase and its hTERT component in the biological behaviour of RCC using new quantitative techniques, such as the quantitative evaluation of hTERT mRNA level by a real-time RT-PCR procedure and the mesuring of telomerase activity by an ELISA TRAP assay. Since experimental evidence supports a relationship between cell proliferation or c-myc expression and telomerase, the proliferation index and c-myc mRNA levels were also studied. Forty-one RCC (29 conventional renal cell carcinomas (CRCC), 10 papillary RCC and two urothelial carcinomas) were studied. In 73% of cases, normalized hTERT mRNA expression was significantly higher in the tumour sample than in the normal tissue. Telomerase activity was detected in 63% of RCC, while corresponding normal tissue was always negative. Analysis of correlations showed firstly that both telomerase activity and hTERT mRNA level were lower in the group of CRCC versus non-CRCC (TRAP: 0.3±0.1 versus 0.6±0.2, p<0.05; hTERT/PO mRNA: 5±3 versus 37±8, p<0.001, respectively); secondly, that in the group of CRCC, hTERT mRNA expression level was correlated with the stage of the tumour (p=0.01); and thirdly, that no correlation was observed between c-myc mRNA level and hTERT mRNA level. In conclusion, these results support the involvement of telomerase in RCC and the potential interest of hTERT mRNA quantification. Copyright © 2001 John Wiley & Sons, Ltd. [source] Expression of Epstein-Barr virus-encoded LMP1 and hTERT extends the life span and immortalizes primary cultures of nasopharyngeal epithelial cells,JOURNAL OF MEDICAL VIROLOGY, Issue 10 2010Yim-Ling Yip Abstract Cell immortalization is regarded as an early and pre-requisite step in tumor development. Defining the specific genetic events involved in cell immortalization may provide insights into the early events of carcinogenesis. Nasopharyngeal carcinoma is common among the Southern Chinese population. Epstein-Barr virus (EBV) infection is associated closely with nasopharyngeal carcinoma. The involvement of LMP1 (an EBV-encoded oncogene) has been implicated in the pathogenesis of nasopharyngeal carcinoma. In this study, LMP1 expression, in combination with ectopic expression of hTERT (catalytic unit of human telomerase), was shown to extend the life span of primary cultures of nasopharyngeal epithelial cells and facilitate the immortalization of one of the cell lines (NP446). This is the first report on the successful immortalization of nasopharyngeal epithelial cells involving LMP1. The events associated with the immortalization of nasopharyngeal epithelial cells by LMP1/hTERT were characterized. Expression of c-Myc, Bmi-1, and Id-1 were upregulated at an early stage of immortalization. At a later stage of immortalization, downregulation of p21 and p16 expression were observed. Upregulation of EGFR expression and activation of MAPK signaling pathway were observed in LMP1/hTERT -immortalized nasopharyngeal epithelial cells. The LMP1/hTERT -immortalized NP446 cells were non-tumorigenic in immunosuppressed nude mice and retained anchorage-dependent growth, suggesting that additional events are required for tumorigenic transformation. The ability of the EBV-encoded LMP1, in the presence of hTERT expression, to extend the life span and immortalize primary cultures of nasopharyngeal epithelial cells supports the involvement of EBV infection and its viral products in the early stage of pathogenesis of nasopharyngeal carcinoma. J. Med. Virol. 82:1711,1723, 2010. © 2010 Wiley-Liss, Inc. [source] Purification and identification of a transcription factor, USF-2, binding to E-box element in the promoter of human telomerase reverse transcriptase (hTERT)PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 2 2010Shoulei Jiang Abstract Controversy remains about the identity of the transcription factor(s) (TFs), which bind to the two E-box elements (CACGTG, proximal and distal) of the human telomerase (hTERT) gene promoter, the essential elements in the regulation of telomerase. Here, systematic oligonucleotide trapping supplemented with 2-DE and proteomic methods was used to identify E-box binding TFs. Although insufficient purity was obtained from the proximal E-box element trapping, further fractionation provided by 2-DE and specific identification from Southwestern blotting analysis allow us to clearly identify an E-box binding TF. The protein spot was cut from 2-DE and in-gel digested with trypsin for LC-nanospray ESI-MS/MS analysis. This identified upstream stimulatory factor 2 (USF2). Western blotting analysis with specific antibodies clearly shows USF2 present in the purified fraction and USF2 antibody supershifts the specific DNA-binding complex on non-denaturing gels. Furthermore, a novel method was developed in which the specific DNA-TF complex was separated on a non-denaturing gel, the band was cut and applied to SDS-PAGE for a second dimension. Western blots of this second gel also confirmed the presence of USF2. [source] Oligonucleotide N3,,P5, Phosphoramidates and Thio -Phoshoramidates as Potential Therapeutic AgentsCHEMISTRY & BIODIVERSITY, Issue 3 2010Sergei Abstract Nucleic acids analogues, i.e., oligonucleotide N3,,P5, phosphoramidates and N3,,P5, thio -phosphoramidates, containing 3,-amino-3,-deoxy nucleosides with various 2,-substituents were synthesized and extensively studied. These compounds resist nuclease hydrolysis and form stable duplexes with complementary native phosphodiester DNA and, particularly, RNA strands. An increase in duplexes' melting temperature, ,Tm, relative to their phosphodiester counterparts, reaches 2.2,4.0° per modified nucleoside. 2,-OH- (RNA-like), 2,- O -Me-, and 2,- ribo -F-nucleoside substitutions result in the highest degree of duplex stabilization. Moreover, under close to physiological salt and pH conditions, the 2,-deoxy- and 2,-fluoro-phosphoramidate compounds form extremely stable triple-stranded complexes with either single- or double-stranded phosphodiester DNA oligonucleotides. Melting temperature, Tm, of these triplexes exceeds Tm values for the isosequential phosphodiester counterparts by up to 35°. 2,-Deoxy-N3,,P5, phosphoramidates adopt RNA-like C3,- endo or N -type nucleoside sugar-ring conformations and hence can be used as stable RNA mimetics. Duplexes formed by 2,-deoxy phosphoramidates with complementary RNA strands are not substrates for RNase H-mediated cleavage in vitro. Oligonucleotide phosphoramidates and especially thio -phosphoramidates conjugated with lipid groups are cell-permeable and demonstrate high biological target specific activity in vitro. In vivo, these compounds show good bioavailability and efficient biodistribution to all major organs, while exerting acceptable toxicity at therapeutically relevant doses. Short oligonucleotide N3,,P5, thio -phosphoramidate conjugated to 5,-palmitoyl group, designated as GRN163L (Imetelstat), was recently introduced as a potent human telomerase inhibitor. GRN163L is not an antisense agent; it is a direct competitive inhibitor of human telomerase, which directly binds to the active site of the enzyme and thus inhibits its activity. This compound is currently in multiple Phase-I and Phase-I/II clinical trials as potential broad-spectrum anticancer agent. 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