Cytogenetic damages from iododeoxyuridine-induced radiosensitivity with and without methoxyamine in human glioblastoma spheroids

lododeoxyuridine-induced Radiosensitivityi [IUdR] is a halogenated thymidine analogue recognized to be effective in vitro and in vivo radioserisitizer in human cancers. It is reported that Methoxyamine [MX] potentiates DNA damages in cancer cells with blocking the repair pathway of lUdR damages. But studies, entirely, are restricted on monolayer culture cells from human colon cancer cells. Spheroids are 3D form of cells that aggregate and grow together which resemble in vivo tumor models in several aspects and the results of such studies can be extended to tumor in vivo. The aim of the current study was to evaluate DNA damages from IUdR and gamma rays with and without Methoxyamine in human Glioblastoma spheroids. The DNA induced damages in U87MG cell line were compared using alkaline comet assay method. Experiments were performed with two different sizes of spheroids [100omicrom and 300microm]. Evaluation of the effects of IUdR with and without MX pretreatment on spheroids following ionizing radiation showed that MX increased the cell damages of lUdR with and without irradiation in both diameters spheroids. The damages were further increased in 100microm compared with 300microm diameter. Comparisons of tail moments in spheroids with 100 and 300microm diameter showed that cell damages in larger spheroids, 300microm, are lesser than smaller one, 100microm. This could be due to existence of G[0] cells and cells with longer cycle which lUdR was less incorporated into them. Thus, decrease in lUdR radiosensitization and base wxcision repair [BER], results in reduction of MX activities. Using agents for Inhibiting the activities of proteins which are responsible for carrying the cells to G[0] may be beneficial in solving such problems

Diethylhydroxylamine given in vivo inhibits lipid peroxidation and lipofuscin formation in the nervous tissues of rat.

In vivo effects of diethylhydroxylamine (DEHA) on lipid peroxidation and lipofuscin formation in the nervous tissues of rat have been investigated. Rats were fed DEHA for 30, 60 and 90 days and lipid peroxidation levels and lipofuscin concentration measured in cerebellum, brain stem and spinal cord. Lipofuscin contents were also assessed histochemically. The results showed that the drug caused a significant reduction in lipid peroxidation level and lipofuscin concentration related to ageing.