Literature DB >> 12759234

hTERT gene amplification and increased mRNA expression in central nervous system embryonal tumors.

Xing Fan1, Yunyue Wang, John Kratz, Dan J Brat, Yves Robitaille, Albert Moghrabi, Elizabeth J Perlman, Chi V Dang, Peter C Burger, Charles G Eberhart.   

Abstract

High-level gains at 5p15, a chromosomal region including the human telomerase catalytic protein subunit (hTERT) gene, have been documented in several medulloblastomas. We therefore analyzed hTERT gene dosage in a group of medulloblastomas and other embryonal brain tumors using differential PCR. Amplification of the hTERT locus was detected in 15 of 36 (42%) tumors examined. To correlate gene amplification with message level, we used real-time quantitative PCR to measure hTERT mRNA in 50 embryonal brain tumors. hTERT mRNA was detected in all but one of these cases, and mRNA level correlated significantly with gene dosage (r = 0.82). Log-rank analysis of survival data revealed a trend toward poor clinical outcomes in patients with medulloblastomas containing high hTERT mRNA levels, but clinical follow-up was relatively short and the association was not statistically significant (P = 0.078). Comparative genomic hybridization was used to further analyze the tumor with the greatest hTERT gene dosage and mRNA level, a recurrent medulloepithelioma. hTERT was amplified in the recurrent tumor but not in the primary lesion, suggesting this locus can be involved in tumor progression. Our data indicate that hTERT gene amplification is relatively common in embryonal brain tumors, and that increased expression of hTERT mRNA may be associated with biologically aggressive tumor behavior.

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Year:  2003        PMID: 12759234      PMCID: PMC1868122          DOI: 10.1016/S0002-9440(10)64311-8

Source DB:  PubMed          Journal:  Am J Pathol        ISSN: 0002-9440            Impact factor:   4.307


  34 in total

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2.  Extensive genomic abnormalities in childhood medulloblastoma by comparative genomic hybridization.

Authors:  D A Reardon; E Michalkiewicz; J M Boyett; J E Sublett; R E Entrekin; S T Ragsdale; M B Valentine; F G Behm; H Li; R L Heideman; L E Kun; D N Shapiro; A T Look
Journal:  Cancer Res       Date:  1997-09-15       Impact factor: 12.701

3.  Comparative genomic hybridization analysis of hepatoblastomas.

Authors:  J Hu; M Wills; B A Baker; E J Perlman
Journal:  Genes Chromosomes Cancer       Date:  2000-02       Impact factor: 5.006

4.  A mammalian telomerase-associated protein.

Authors:  L Harrington; T McPhail; V Mar; W Zhou; R Oulton; M B Bass; I Arruda; M O Robinson
Journal:  Science       Date:  1997-02-14       Impact factor: 47.728

5.  Expression of human telomerase subunits and correlation with telomerase activity in cervical cancer.

Authors:  M Takakura; S Kyo; T Kanaya; M Tanaka; M Inoue
Journal:  Cancer Res       Date:  1998-04-01       Impact factor: 12.701

6.  Direct activation of TERT transcription by c-MYC.

Authors:  K J Wu; C Grandori; M Amacker; N Simon-Vermot; A Polack; J Lingner; R Dalla-Favera
Journal:  Nat Genet       Date:  1999-02       Impact factor: 38.330

7.  Amplification of the cyclin-dependent kinase 4 (CDK4) gene is associated with high cdk4 protein levels in glioblastoma multiforme.

Authors:  B Rollbrocker; A Waha; D N Louis; O D Wiestler; A von Deimling
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8.  Telomerase activity in microdissected human gliomas.

Authors:  R J Weil; Y Y Wu; A O Vortmeyer; Y W Moon; R M Delgado; B G Fuller; R R Lonser; A T Remaley; Z Zhuang
Journal:  Mod Pathol       Date:  1999-01       Impact factor: 7.842

9.  Myc activates telomerase.

Authors:  J Wang; L Y Xie; S Allan; D Beach; G J Hannon
Journal:  Genes Dev       Date:  1998-06-15       Impact factor: 11.361

10.  Telomerase expression in gliomas including the nonastrocytic tumors.

Authors:  E Y Chong; P Y Lam; W S Poon; H K Ng
Journal:  Hum Pathol       Date:  1998-06       Impact factor: 3.466
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  18 in total

1.  Novel cell lines established from pediatric brain tumors.

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2.  DiSCoVERing Innovative Therapies for Rare Tumors: Combining Genetically Accurate Disease Models with In Silico Analysis to Identify Novel Therapeutic Targets.

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Journal:  Clin Cancer Res       Date:  2016-03-24       Impact factor: 12.531

Review 3.  Recent advances in embryonal tumours of the central nervous system.

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Journal:  Childs Nerv Syst       Date:  2005-01-29       Impact factor: 1.475

Review 4.  Molecular diagnostics of CNS embryonal tumors.

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5.  NOTCH pathway blockade depletes CD133-positive glioblastoma cells and inhibits growth of tumor neurospheres and xenografts.

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Journal:  Stem Cells       Date:  2010-01       Impact factor: 6.277

Review 6.  Biological background of pediatric medulloblastoma and ependymoma: a review from a translational research perspective.

Authors:  Judith M de Bont; Roger J Packer; Erna M Michiels; Monique L den Boer; Rob Pieters
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Review 7.  Telomeres and telomerase in prostate cancer development and therapy.

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Review 8.  The role of mRNA in the development, diagnosis, treatment and prognosis of neural tumors.

Authors:  Yiyang Zheng; Yanyan Luo; Xixi Chen; Huiting Li; Baojun Huang; Baofeng Zhou; Liqing Zhu; Xianhui Kang; Wujun Geng
Journal:  Mol Cancer       Date:  2021-03-05       Impact factor: 27.401

9.  Amplification of telomerase (hTERT) gene is a poor prognostic marker in non-small-cell lung cancer.

Authors:  C-Q Zhu; J-C Cutz; N Liu; D Lau; F A Shepherd; J A Squire; M-S Tsao
Journal:  Br J Cancer       Date:  2006-05-22       Impact factor: 7.640

10.  Infratentorial medulloepithelioma with divergent differentiation: Possibly a predictor of poor outcome.

Authors:  Indranil Chakrabarti; Kaushik Majumdar; Amita Giri
Journal:  J Pediatr Neurosci       Date:  2012-05
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