Spatial Organization, Dynamics, and Associations of Telomeres in Healthy, Telomerase-Positive and ALT Human Cell Lines

AMRICHOVÁ, Jana; Miroslav VAŘECHA; Daša MEDŘÍKOVÁ; Emilie LUKÁŠOVÁ; Jiří FAJKUS; Stanislav KOZUBEK and Michal KOZUBEK. Spatial Organization, Dynamics, and Associations of Telomeres in Healthy, Telomerase-Positive and ALT Human Cell Lines. In The Role of Telomeres and Telomerase in Cancer Research. 2007.

Basic information

Original name

Spatial Organization, Dynamics, and Associations of Telomeres in Healthy, Telomerase-Positive and ALT Human Cell Lines

Name in Czech

Prostorová organizace, dynamika a asociace telomer ve zdravých, telomerázových a ALT lidských buněčných liniích

Authors

AMRICHOVÁ, Jana (203 Czech Republic, guarantor); Miroslav VAŘECHA (203 Czech Republic); Daša MEDŘÍKOVÁ (703 Slovakia); Emilie LUKÁŠOVÁ (203 Czech Republic); Jiří FAJKUS ORCID (203 Czech Republic); Stanislav KOZUBEK (203 Czech Republic) and Michal KOZUBEK (203 Czech Republic)

Edition

The Role of Telomeres and Telomerase in Cancer Research, 2007

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Other information

Language

English

Type of outcome

Conference abstract

Field of Study

Genetics and molecular biology

Country of publisher

United States of America

Confidentiality degree

is not subject to a state or trade secret

RIV identification code

RIV/00216224:14330/07:00020821

Organization unit

Faculty of Informatics

Keywords in English

telomere; chromosome; spatial organization; telomerase; ALT mechanism

Tags

ALT mechanism, CHROMOSOME, spatial organization, Telomerase, telomere

Tags

International impact, Reviewed

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Abstract

In the original language

The main goal of this study was to compare the telomere localizations, dynamics, and occurrences of telomere associations (TAs) in healthy cells, in tumor cells with active telomerase, and in tumor cells with mechanism of alternative lengthening of telomeres (ALT). These objectives were pursued by time-lapse microscopy of living cells and by visualizing telomeres with subtelomere DNA probes in repeated double-color fluorescence in situ hybridization (FISH) on 2D fixed nuclei. Samples were observed by high-resolution cytometry, and followed by image and statistical analysis of acquired data. As models for in situ experiments were chosen following lung tissue cell lines: cell line WI-38 (healthy lung fibroblasts), tumor cell line HT-1080 with active telomerase, and cell line WI-38 VA-13/2RA (VA-13) with ALT mechanism. For these studies were chosen telomeres of all acrocentric chromosomes (13q, 14q, 15q, 21q a 22q) and also p- and q-telomeres of similarly sized chromosomes 18 a 19, that differ in their localization in cell nucleus and in content of transcriptionaly active genes. As models for living-cells experiments were chosen following cell lines: U-2 OS (osteosarcoma ALT cell line) and HeLa (cervical carcinoma cell line with active telomerase). Distributions of radial distances of all in situ analyzed telomeres for all assessed cell lines are comparable in most cases with only several exceptions. Among these exceptions belongs shift of localization of telomere of chromosome 13 towards nuclear periphery in cell line VA-13 or localization of telomere of chromosome 15 in cell line HT-1080, which radial distribution is significantly shifted into the interior of cell nucleus in comparison to other cell lines. All telomeres of chromosomes 18 and 19 were found to exhibit higher occurrence of telomere associations in cells with ALT mechanism in comparison to health cells or cells with active telomerase as was expected. This conclusion was not found to be valid for telomeres of acrocentric chromosomes, probably due to influence of binding of these chromosomes to nucleolus. After calculation of average occurrence of associations of certain telomere with other telomeres of acrocentric chromosomes was found that these average occurrences are the highest in tumor cells HT-1080 with active telomerase. We also analyzed and compared in unsurpassed detail the telomere dynamics in living U-2 OS and HeLa cell lines varying in mechanism of telomere length maintenance in 3D space by time-lapse fluorescent confocal microscopy.

In Czech

Prostorová organizace, dynamika a asociace telomer ve zdravých, telomerázových a ALT lidských buněčných liniích.

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Links

GP204/05/P090, research and development project	Name: Topografická a funkční charakteristika telomer v různých typech nádorových buněk stanovená in situ a in vivo Investor: Czech Science Foundation, Topographic and functional characterization of telomeres in various tumor cell lines determined in situ and in vivo
LC535, research and development project	Name: Dynamika a organizace chromosomů během buněčného cyklu v normě a patologii Investor: Ministry of Education, Youth and Sports of the CR, Dynamika a organizace chromosomů během buněčného cyklu v normě a patologii
MSM0021622419, plan (intention)	Name: Vysoce paralelní a distribuované výpočetní systémy Investor: Ministry of Education, Youth and Sports of the CR, Highly Parallel and Distributed Computing Systems