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  • Title: Temperature-dependent influence of thiols upon glutathione levels in Chinese hamster ovary cells at cytotoxic concentrations.
    Author: Issels RD, Bourier S, Biaglow JE, Gerweck LE, Wilmanns W.
    Journal: Cancer Res; 1985 Dec; 45(12 Pt 1):6219-24. PubMed ID: 3840720.
    Abstract:
    Chinese hamster ovary cells were exposed to the sulfhydryl compound cysteamine at different temperatures (5 degrees C, 37 degrees C, 44 degrees C) at concentrations known to generate activated oxygen species. At 37 degrees C, the cellular glutathione (GSH) content increased linearly over the time of drug exposure (2 h) as compared to untreated cells or to cells kept at 5 degrees C during drug treatment. The 2-4-fold increase in GSH induced by cysteamine was more rapid at 44 degrees C than at 37 degrees C and showed a saturation effect at the higher temperature. The elevation of GSH could be completely blocked by DL-buthionine-S,R-sulfoximine, an inhibitor of gamma-glutamylcysteine synthetase, or by incubation in a cystine-free medium during the period of drug treatment. The increased cellular GSH content induced by cysteamine alone at 37 degrees C or combined with heat at 44 degrees C decreased to the range of control values within 22 h after either treatment. Other thiols like cysteamine, namely cysteine, N-acetylcysteine, and dithiothreitol, were found to be similar in their potential to induce GSH elevation in Chinese hamster ovary cells. Cytotoxic effects of these sulfhydryl compounds were observed in the same concentration range as that for cysteamine (0-2 mM), but only if cells were plated at low densities (10(2)-10(4) cells/flask), and were completely blocked by the addition of catalase (50 micrograms/ml). In contrast, the elevation of GSH after thiol treatment (0.8 mM) was not modified by catalase. The data suggest that thiol treatment combined with hyperthermia leads to a rapid increase of GSH biosynthesis in Chinese hamster ovary cells which seems to be independent of the simultaneous generation of activated oxygen species by thiol autoxidation.
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