Radiation Oncology
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Browsing Radiation Oncology by browse.metadata.advisor "Slabbert, J. P."
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- ItemExamination of irradiated neuroblastoma and neuroepithelial cell lines for the interrelationship between cell survival, micronucleation, apoptosis and DNA repair(Stellenbosch : Stellenbosch University, 2000-12) Akudugu, John Mbabuni; Bohm, E. L. J. F.; Slabbert, J. P.; Stellenbosch University. Faculty of Medicine and Health Sciences. Dept. of Medical Imaging and Clinical Oncology. Radiation Oncology.ENGLISH ABSTRACT: Predictive assays are of key importance in clinical radiotherapy, chemotherapy and toxicology. Prior to exposing malignant tissues to irradiation or drugs in the clinic, a good understanding of the damage response to the cytotoxic agent is required. Such information is necessary for effective planning and treatment. Regrettably however the methods which detect DNA damage, namely micronucleus, apoptosis and DNA repair assays do not rank cells according to their intrinsic survival response to cytotoxic agents. The application of predictive assays based on micronuclei and apoptosis in the clinic therefore remains unreliable. Using a panel of 7 neuroblastoma and 6 neuroepithelial cell lines, it is shown that damage assays also do not rank cell lines according to cell survival. However, radiosensitivity can be reconstructed from micronuclei formation and apoptosis, and a new parameter, cell death due to small deletions, chromosome aberrations and misrepair. The interrelationships between radiation-induced micronuclei, apoptosis and repair is complex and varies between cell lines. Micronuclei formation and apoptosis are exponentially interrelated. This suggests that these cell inactivation pathways are strongly correlated. Evidence exists to show that the expression of apoptosis and micronuclei is influenced by the extent of DNA double-strand break repair within the first 2 hours after irradiation. Cell lines which repair more damage in the first 2 hours express more micronuclei and less apoptosis. Micronuclei formation and apoptosis and are not significantly correlated with the 20 hours slow repair component. There is however a strong correlation between 20 hours of repair and radiosensitivity, with the more radioresistant cell lines being more repair proficient. This suggests that the 2 hours (fast) DNA repair component is more error prone, and that cells lines repairing more damage late after irradiation tend to show better survival. In conclusion, micronuclei formation, apoptosis and DNA repair are strictly cell type specific and are not suitable for predicting radiosensitivity in terms of cell survival. However, these assays are very useful for studies on the influences of dose modifying agents i.e. oxygen tension, radiation modality, pH, cytotoxic sensitisers and radiation protectors which alter cellular responses and provide insight into damage mechanisms.