Dose- and time-response relationships for lethal mutations and chromosomal instability induced by ionizing radiation in an immortalized human keratinocyte cell line

Dose- and time-response relationships for lethal mutations and chromosomal instability induced by ionizing radiation in an immortalized human keratinocyte cell line

Purpose : To investigate the relationship between two well-established delayed effects of ionizing radiation, experiments were conducted to determine the induction and expression of lethal mutations (delayed reproductive death) and chromosomal instability with respect to dose and time in a human imm...

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Bibliographic Details
Published in:International journal of radiation biology Vol. 76; no. 6; pp. 799 - 806
Main Author: Mothersill, M. A. Kadhim, S. O'Reilly, D. Papworth, S. J. Marsden, C. B. Seymour, E. G. Wright, C.
Format: Journal Article
Language:English
Published: London Informa UK Ltd 2000
Taylor & Francis
Subjects:
Alpha Particles - adverse effects
Apoptosis - drug effects
Biological and medical sciences
Cell Line
Chromosome Aberrations
Dose-Response Relationship, Radiation
Fundamental and applied biological sciences. Psychology
Gamma Rays - adverse effects
Humans
Keratinocytes - cytology
Keratinocytes - metabolism
Keratinocytes - radiation effects
Molecular and cellular biology
Molecular genetics
Mutagenesis. Repair
Mutation
Chromosomal aberration
Ionizing radiation
Cell line
Cytogenetics
Chromosome
Instability
Keratinocyte
Lethal radiodamage
Time response relation
Mutation
Linear energy transfer
Dose activity relation
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Summary:Purpose : To investigate the relationship between two well-established delayed effects of ionizing radiation, experiments were conducted to determine the induction and expression of lethal mutations (delayed reproductive death) and chromosomal instability with respect to dose and time in a human immortalized keratinocyte cell line. Methods : HPV-G cells were γ- or α -irradiated and maintained in culture for up to 72 population doublings. At intervals, measurements were made of cloning efficiency and the cells examined for apoptosis and cytogenetic aberrations. Results : The descendants of cells surviving 1 or 3 Gy γ-irradiation, but not 0.5 Gy γ-irradiation, exhibited a reduced colony-forming efficiency. The reduction persisted at a constant rate of 15-20% clonogenic cell loss per population doubling for up to 72 population doublings. Apoptosis was demonstrated in all colonies in the 1 and 3 Gy groups at 30 and 72 population doublings post-irradiation but not in the 0.5 Gy group. A significant persistent reduction in colony-forming ability (~80%) was demonstrated in the progeny of cells irradiated with 0.5 Gy α -particles. After 30 population doublings, the proportion of chromosomally aberrant cells was significantly greater than control values for all doses of both high- and low-LET radiations. The major cytogenetic aberrations (chromatid breaks, chromosome fragments and minutes) were consistent with the transmission of chromosomal instability. The expression of instability declined between 30 and 72 population doublings in the 0.5Gy and 3 Gy gamma-irradiation groups, but persisted up to 72 population doublings in the 1 Gy group. The expression of chromosomal instability was greater in the descendants of alpha-irradiated cells and showed little evidence of reduction with time. Conclusions : Unstable aberrations characteristic of radiation-induced chromosomal instability may commonly result in apoptosis and account for a component of the delayed reproductive death/lethal mutation phenotype in HPV-G cells. However, the absence of lethal mutations in the descendants of 0.5 Gy γ-irradiated cells indicates a low-LET threshold effect for this particular endpoint. Overall, and particularly at low doses, there is no direct correlation between the two endpoints, indicating the absence of a simple relationship between these manifestations of radiation-induced genomic instability.
ISSN:0955-3002
1362-3095
DOI:10.1080/09553000050028959