Glucose deprivation increases nuclear DNA repair protein Ku and resistance to radiation induced oxidative stress in human cancer cells

Recent studies have indicated that nutrient deprivation particularly glucose may play a major role in tumor cell tolerance to a generally oxidative stress environment in solid tumors. Here, we studied the impact of glucose deprivation on the response of human colon (HT29) and prostate (DU145) cancer...

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Bibliographic Details
Published in:Cell biochemistry and function 2009-03, Vol.27 (2), p.93-101
Main Authors: Li, Jie, Ayene, Roashan, Ward, Kathleen M., Dayanandam, Eswarkumar, Ayene, Iraimoudi S.
Format: Article
Language:English
Subjects:
Animals
Cell Line, Tumor - radiation effects
Cell Survival
DNA Damage
DNA Helicases - genetics
DNA Helicases - metabolism
DNA Repair
Glucose - metabolism
glucose deprivation
glutathione
GRP78
Humans
Ku Autoantigen
Ku protein
Neoplasms - metabolism
Neoplasms - pathology
Oxidative Stress
Radiation Tolerance - physiology
Sulfhydryl Compounds - metabolism
tumor microenvironment
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Summary:Recent studies have indicated that nutrient deprivation particularly glucose may play a major role in tumor cell tolerance to a generally oxidative stress environment in solid tumors. Here, we studied the impact of glucose deprivation on the response of human colon (HT29) and prostate (DU145) cancer cells to γ radiation. A significant decrease in intracellular glucose level was observed in glucose deprived cells as measured by bioreductive assay. The survival of HT29 and DU145 were increased by 30 and 100% respectively when these cells were exposed to γ radiation in the absence of glucose compared to that in the presence of glucose. In glucose depleted medium, glutathione (GSH), a free radical scavenger, content remained the same, and showed no correlation with the radiation resistance induced by glucose deprivation. Glucose regulated protein78 (GRP78), a stress response survival protein, was not significantly increased in cells deprived of glucose for 4 h compared to those cells in glucose. DNA repair protein Ku, which is known to play a major role in cellular resistance to radiation, was significantly increased in glucose deprived cancer cells that showed enhanced radiation resistance. These results have demonstrated, for the first time, that glucose deprivation mediated stress increased the expression of nuclear Ku and resistance to radiation induced oxidative stress in human cancer cells. The additional resistance caused by glucose deprivation in cancer cells has clinical significance since solid tumors are known to have low level of glucose due to diffusion limited blood supply and higher metabolic activity. Copyright © 2009 John Wiley & Sons, Ltd.
ISSN:0263-6484
1099-0844
DOI:10.1002/cbf.1541