Your search keyword '"Hoare, Stacey F."' showing total 3 results

1. Detection of Telomerase hTERT Gene Expression and Its Splice Variants by RT-PCR.

Author

Walker, John M., Roulston, Joseph E., Bartlett, John M. S., Keith, W. Nicol, and Hoare, Stacey F.

Abstract

The finite growth potential of normal cells is termed "cellular senescence" and its regulation appears to involve specialized DNA structures known as telomeres that exist at the ends of all eukaryotic chromosomes (1). Human telomeres consist of tandem nucleotide repeats of 6 bp, TTAGGG. They act as protective caps, stabilizing the chromosomes and preventing their degradation and aberrant recombination during cell division. However, they also have the potential to act as a molecular counting mechanism, marking the number of cell divisions. As chromosomes are replicated during cell division, approx 50 bp of telomeric material are lost because of incomplete replication of the lagging strand, termed "the end-replication problem." In the telomeric clock model, after a certain number of cell divisions, the telomere becomes truncated to a critical level, generating a signal that results in cessation of cell division and senescence (1-3). [ABSTRACT FROM AUTHOR]

Published

2004

2. Cloning and characterization of human and mouse telomerase RNA gene promoter sequences.

Author

Zhao, Jiang-Qin, Hoare, Stacey F, McFarlane, Robert, Muir, Sharon, Parkinson, E Kenneth, Black, Donald M, and Keith, W Nicol

Subjects

*TELOMERASE, *CANCER invasiveness, *PROMOTERS (Genetics), *CANCER treatment

Abstract

Variation in telomerase activity is correlated with cellular senescence and tumour progression. However, although the enzymatic activity of telomerase has been well studied, very little is known about how expression of telomerase genes is regulated in mammalian cells. We have therefore cloned the promoter regions of the human (hTR), and mouse, (terc), telomerase RNA genes in order to identify the regulatory elements controlling telomerase RNA gene transcription. 1.76 kb encompassing the hTR gene promoter region was sequenced, as was 4 kb encompassing the terc promoter. No significant sequence similarity could be detected in comparisons between human and mouse 5′-regions, flanking the transcribed sequences. However, both the human and mouse telomerase RNA genes are within CpG islands and may therefore be under the regulation of DNA methylation. Transient expression of hTR-reporter gene constructs in HeLa and GM847 cells identified the elements responsible for promoter activity are contained in a 231 bp region upstream of the transcriptional start site. Transient expression of terc-reporter gene constructs in Swiss3T3 and A9 cells identified the elements responsible for promoter activity are contained in a 73 bp region upstream of the transcriptional start site. These studies have implications for novel transcription targeted cancer therapies. [ABSTRACT FROM AUTHOR]

Published

1998

3. Amplification, increased dosage and in situ expression of the telomerase RNA gene in human cancer.

Author

Soder, Anja I, Hoare, Stacey F, Muir, Sharon, Going, James J, Parkinson, E Kenneth, and Keith, W Nicol

Subjects

*TELOMERASE, *RNA, *CANCER, *GENE expression

Abstract

Telomere length is maintained by the enzyme, telomerase, which has been linked to cellular immortality and tumour progression. However, the reasons for the high levels of telomerase found in human tumours are unknown. We have mapped the human telomerase RNA gene, (hTR), to chromosome 3q26.3 and show the hTR gene to be amplified in four carcinomas, (2/33 cervix, 1/31 head and neck, 1/9 lung). In addition, increased copy numbers of the hTR locus was also observed in 97% of tumours. By in situ hybridisation, the histological distribution of high levels of hTR expression could be demonstrated in a lung tumour and its metastasis with hTR amplification. These results are the first report of genetic alterations involving a known component of telomerase in human cancer. Indeed, it is also the first report of the amplification of a specific locus within the chromosome 3q region frequently subject to copy number gains in human tumours. In addition, we also show for the first time the histological distribution of the RNA component of telomerase in human tumours. [ABSTRACT FROM AUTHOR]

Published

1997