Document Type
Article
Rights
Available under a Creative Commons Attribution Non-Commercial Share Alike 4.0 International Licence
Disciplines
3.4 HEALTH BIOTECHNOLOGY
Abstract
Exposure of unirradiated human keratinocytes to irradiated cell conditioned medium (ICCM) is known to cause a cascade of events that leads to reproductive death and apoptosis. This study investigates the effect of ICCM on clonogenic survival, mitochondrial mass and BCL2 expression in unirradiated keratinocytes. Exposure to 5 mGy, 0.5 Gy and 5 Gy ICCM resulted in a significant decrease in clonogenic survival. Human keratinocytes incubated with ICCM containing an antioxidant, N-acetylcysteine, showed no significant decrease in clonogenic survival. HPV-G cells incubated with ICCM containing a caspase 9 inhibitor showed no significant decrease in clonogenic survival when the ICCM dose was #0.5 Gy. A significant increase in mitochondrial mass per cell was observed after exposure to 5 mGy and 0.5 Gy ICCM. A change in the distribution of the mitochondria from a diffuse cytoplasmic distribution to a more densely concentrated perinuclear distribution was also observed at these doses. No significant increase in mitochondrial mass or change in distribution of the mitochondria was found for 5 Gy ICCM. Low BCL2 expression was observed in HPV-G cells exposed to 5 mGy or 0.5 Gy ICCM, whereas a large significant increase in BCL2 expression was observed in cells exposed to 5 Gy ICCM. This study has shown that low-dose irradiation can cause cells to produce medium-borne signals that can cause mitochondrial changes and the induction of BCL2 expression in unirradiated HPV-G cells. The dose dependence of the mitochondrial changes and BCL2 expression suggests that the mechanisms may be aimed at control of response to radiation at the population level through signaling pathways
DOI
https://doi.org/10.1667/RR3325
Recommended Citation
Maguire, P. et al. (2005) Medium from Irradiated Cells Induces a Dose Dependent Expression of Mitochondrial Changes and BCL2 Responses in Unirradiated Human Keratinocytes. Radiation Research, Vol. 163, 2005, pp.384-390. doi:10.1667/RR3325
Funder
Science Foundation Ireland
Publication Details
Radiation Research, Vol. 163, 2005, pp.384-390.