Measurement of X-ray-induced DNA double-strand breaks at various stages of the cell cycle using the total fluorescence as a comet assay parameter

Measurement of X-ray-induced DNA double-strand breaks at various stages of the cell cycle using the total fluorescence as a comet assay parameter

The aim of the study was to develop a protocol for both estimating cell cycle position and the level of ionizing radiation-induced DNA dsb using the neutral comet assay. Using DNA histograms, cell cycle positions were determined for human dermal fibroblasts. The tail intensity was used to estimate t...

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Bibliographic Details
Published in:Radiation physics and chemistry (Oxford, England : 1993) Vol. 80; no. 11; pp. 1178 - 1185
Main Authors: Attia, Atef M.M., Nabil, Ghada M., Frankenberg, Dieter, Frankenberg-Schwager, M.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2011
Subjects:
Cell Cycle
Comet assay
DNA
Ionizing radiation
X-ray
Ionizing radiation
X-ray
Cell Cycle
DNA
Comet assay
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Summary:The aim of the study was to develop a protocol for both estimating cell cycle position and the level of ionizing radiation-induced DNA dsb using the neutral comet assay. Using DNA histograms, cell cycle positions were determined for human dermal fibroblasts. The tail intensity was used to estimate the level of DNA damage induced by X-rays, at different positions of the cell cycle. The results of tail intensity versus DNA content bivariate analysis of exponentially growing cells showed a remarkable decrease in tail intensity with transition of cells from G1 to S-phase and increases slightly with transition to G2/M phase. This effect is observed at all doses including unirradiated cells, indicating that the effect is not caused by X-rays and the comet assay based on the current tail parameters is not relevant to measure DNA damage at various stages of the cell cycle. The results of dose response curves showed a linear decrease in the comet fluorescence with the X-ray dose. This observation provides a basis for estimating the fraction of damaged DNA, based on the fluorescence decrement induced by ionizing radiation. The results of this new approach showed a linear increase in DNA damage with dose, at various stages of the cell cycle, with rates, which vary in the following order G0>G2/M>S/G1 cells. These results suggest that G0 and G2/M cells are the most sensitive to X-rays among all phases of the cell cycle and suggest synchronization of cells at these phases to increase the cellular radiosensitivity during radiotherapy. [Display omitted] ► Increase in DNA damage with dose. ► Introduction of a new technique for measuring DNA damage using a new approach of the neutral comet assay. ► Estimation of DNA damage in mammalian cells.
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ISSN:0969-806X
1879-0895
DOI:10.1016/j.radphyschem.2011.06.010