SELECTIVE KILLING OF GLUCOSE AND OXYGEN-DEPRIVED HELA-CELLS BY HYPERTHERMIA
- 1 January 1980
- journal article
- research article
- Vol. 40 (10) , 3459-3462
Abstract
Glucose deprivation specifically enhances cell killing by hyperthermia in the absence of oxygen. The interplay of glucose and oxygen on cell killing by hyperthermia (37-42.degree. C) for up to 4 h under varying concentrations of glucose (0-1 mg/ml) and oxygen (0-21%) were evaluated. pH 7.4 was maintained in all trials. In the absence of oxygen, enhanced cell killing at 40 and 42.degree. C was seen with glucose concentrations below 0.1 and 0.25 mg/ml of media, respectively. In the absence of glucose, enhanced killing was seen when oxygen concentrations were below 1 and 2% at 40 and 42.degree. C, respectively. The radiosensitivity of the cells was influenced only by the oxygen concentration during irradiation and not by glucose. Oxygen and glucose are important modifying factors of cell lethality by hyperthermia.This publication has 13 references indexed in Scilit:
- The Influence of Hypoxia and Acidity on the Hyperthermic Response of Malignant CellsIn VitroRadiology, 1977
- Modification of Cell Lethality at Elevated Temperatures The pH EffectRadiation Research, 1977
- Cytotoxic and Radiosensitizing Effects of 5-Thio-d-Glucose on Hypoxic CellsRadiology, 1977
- Preferential Cytotoxicity of 5-Thio-d-glucose Against Hypoxic Tumor Cells2JNCI Journal of the National Cancer Institute, 1976
- Influence of Extracellular pH on the Viability and Morphology of Tumor Cells Exposed to HyperthermiaJNCI Journal of the National Cancer Institute, 1976
- Comparison of some response to hyperthermia by normal human diploid cells and neoplastic cells from the same originPublished by Elsevier ,1976
- The Enhanced Killing of Irradiated HeLa Cells in Synchronous Culture by HyperthermiaRadiation Research, 1976
- SELECTIVE LETHAL EFFECT OF SUPRANORMAL TEMPERATURES ON HUMAN NEOPLASTIC-CELLS1976
- Selective heat sensitivity of cancer cells. Biochemical and clinical studiesCancer, 1967
- Cell viability and nucleic acid metabolism after exposure of HeLa cells to excess thymidine and deoxyadenosineBiochemical Pharmacology, 1965