Abstract
Hyperthermia has been studied as a noninvasive cancer treatment. Cancer cells show stronger thermal cytotoxicity than normal cells, which is exploited in hyperthermia. However, the absence of methods evaluating the thermal cytotoxicity in cells prevents the development of hyperthermia. To investigate the thermal cytotoxicity, culture temperature should be regulated. We, thus, developed a culture system regulating culture temperature immediately and accurately by employing metallic culture vessels. Michigan Cancer Foundation-7 cells and normal human dermal fibroblasts were used for models of cancer and normal cells. The findings showed cancer cells showed stronger thermal cytotoxicity than normal cells, which is quantitatively different from previous reports. This difference might be due to regulated culture temperature. The thermal stimulus condition (43 °C/30 min) was, further, focused for assays. The mRNA expression involving apoptosis changed dramatically in cancer cells, indicating the strong apoptotic trend. In contrast, the mRNA expression of heat shock protein (HSP) of normal cells upon the thermal stimulus was stronger than cancer cells. Furthermore, exclusively in normal cells, HSP localization to nucleus was confirmed. These movement of HSP confer thermotolerance to cells, which is consistent with the different thermal cytotoxicity between cancer and normal cells. In summary, our developed system can be used to develop hyperthermia treatment.
Highlights
Hyperthermia has been studied as a noninvasive cancer treatment
Several studies have applied thermal stimulus to cells in vitro to investigate effective conditions for hyperthermia[8]. Such studies demonstrated that the intensity and duration of thermal stimulus affect the viability of cells and that cancer cells are less thermotolerant than normal cells
The results showed the effective conditions of thermal stimulus for hyperthermia, which may be useful for improving hyperthermia treatment
Summary
Hyperthermia has been studied as a noninvasive cancer treatment. Cancer cells show stronger thermal cytotoxicity than normal cells, which is exploited in hyperthermia. The findings showed cancer cells showed stronger thermal cytotoxicity than normal cells, which is quantitatively different from previous reports This difference might be due to regulated culture temperature. It has been reported that normal cells and cancer cells differ in their tolerance of thermal stimulus[6] Hyperthermia exploits this difference, with the diseased area being exposed to thermal stimulus. In this study, we investigate the direct thermal cytotoxicity as a first step Against this background, several studies have applied thermal stimulus to cells in vitro to investigate effective conditions for hyperthermia[8]. Despite these reports, hyperthermia treatment remains of limited use in a clinical context for treating cancer. Thermal stimulus was applied to cells by controlling the set temperature of an incubator where plastic culture vessels were located[8, 10] or of a water bath into which culture vessels were
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