Influence of hyperthermia and gamma radiation on ADP-ribosyl transferase, NAD+, and ATP pools in human mononuclear leukocytes

Effects of hyperthermia (42.5 degrees C) and gamma radiation (30 Gy) on ADP-ribosyl transferase, NAD+, and ATP pools in human mononuclear leukocytes have been investigated. It was found that the gamma-ray activation level of the enzyme was not influenced by this hyperthermia for 45 min. Following deprivation of ATP synthesis by 2,4-dinitrophenol, an uncoupler of the oxidative phosphorylation, and omitting glucose from the culture medium, the NAD+ pool was reduced to about 60% of control value. The potentiation of ATP production by exogenously supplied adenosine was reduced after a combined treatment of the cells with hyperthermia and gamma radiation. Mitochondrial and endoplasmic changes within the mononuclear leukocytes were also observed. Based on these findings a model for the hyperthermia effect is proposed.     

Enhanced cytotoxicity and suppression of glucose transport rate by combined treatment of recombinant human tumour necrosis factor-alpha and hyperthermia on L929 cells.

Combined treatment with human recombinant TNF-alpha (rhTNF-alpha) and hyperthermia at 43 degrees C arrested the growth of mouse fibrosarcoma L929 cells in vitro. The cytotoxic effect was enhanced in combined treatment compared with that following administration of rhTNF-alpha or hyperthermia alone. When the cells were subjected to hyperthermia at 43 degrees C for 3 hours and then incubated with 0.4 ng/ml rhTNF-alpha at 37 degrees C for 24 hours, a statistically significant 65% decrease in the rate of cellular glucose uptake was observed. This suppressive effect was synergistic in terms of effect achieved by rhTNF-alpha or hyperthermia individually. Since the growth of tumour cells depends mainly on catabolism of glucose, our findings indicate that one manner by which combined rhTNF-alpha and hyperthermia treatment inhibits L929 cell growth may be by reducing the supply of glucose to the cells.     

Increased thermoresistance developed during growth of small multicellular spheroids

Mammalian cells growing as multicell spheroids, an in vitro model of tumor microregions, have been shown previously to be more resistant than single cells from monolayer cultures to killing by ionizing radiation, hyperthermia, ultrasound, and chemotherapeutic drugs. Although the mechanisms by which cells in spheroids acquire these increased resistances are unknown, available evidence has indicated that intercellular contact mediates the process for ionizing radiation. This investigation was undertaken to evaluate the role of intercellular contact produced during growth of small spheroids on the sensitivity of EMT6/Ro mouse mammary tumor cells to moderate hyperthermia. Increased thermoresistance developed in small spheroids (approximately 70 micron diameter, 25 cells/spheroid), as measured by colony formation, after exposures to different temperatures in the range of 37 to 45 degrees C for periods less than or equal to 2 hr and at 42.5 degrees C for less than or equal to 8 hr. Experiments were performed to determine the relative contributions to this increased thermoresistance of 1) the extent of intercellular contact in spheroids of different cellular multiplicities, 2) differences in membrane damage influenced by trypsin heat treatment sequence, and 3) physiological changes associated with growth of cells as spheroids in suspension compared to monolayer culture. Treatment with trypsin prior to heating sensitized cells to killing by hyperthermia but did not account for the differential thermoresistance between cells from spheroids and monolayers. Spheroid multiplicity in the range of 1.16 to 76.2 cells/spheroid had no significant effect on cell survival after hyperthermia. However, cells grown in spinner suspension culture were more thermoresistant than cells from monolayer cultures and nearly as thermoresistant as cells in spheroids. From these data we conclude that the greater thermoresistance of EMT/Ro cells in spheroids is the result of cellular physiological changes associated with growth in suspension and is not mediated by intercellular contact.     

Evaluation of the effect of hyperthermia and electron radiation on prostate cancer stem cells

The aim of this study was to investigate the effect of hyperthermia, 6 MeV electron radiation and combination of these treatments on cancer cell line DU145 in both monolayer culture and spheroids enriched for prostate cancer stem cells (CSCs). Flowcytometric analysis of the expression of molecular markers CD133⁺/CD44⁺ was carried out to determine the prostate CSCs in cell line DU145 grown as spheroids in serum-free medium. Following monolayer and spheroid culture, DU145 cells were treated with different doses of hyperthermia, electron beam and combination of them. The survival and self-renewing of the cells were evaluated by colony formation assay (CFA) and spheroid formation assay (SFA). Flowcytometry results indicated that the percentage of CD133⁺/CD44⁺ cells in spheroid culture was 13.9-fold higher than in the monolayer culture. The SFA showed significant difference between monolayer and spheroid culture for radiation treatment (6 Gy) and hyperthermia (60 and 90 min). The CFA showed significantly enhanced radiosensitivity in DU145 cells grown as monolayer as compared to spheroids, but no effect of hyperthermia. In contrast, for the combination of radiation and hyperthermia the results of CFA and SFA showed a reduced survival fraction in both cultures, with larger effects in monolayer than in spheroid culture. Thus, hyperthermia may be a promising approach in prostate cancer treatment that enhances the cytotoxic effect of electron radiation. Furthermore, determination and characterization of radioresistance and thermoresistance of CSCs in the prostate tumor is the key to develop more efficient therapeutic strategies.     

Selective killing of glucose-deprived hypoxic cells by hyperthermia. I. Protection by purine ribonucleosides

Energy deprivation increases sensitivity to killing by hyperthermia. Hypoxic cells become dramatically sensitive to heat under glycolytic inhibition or glucose deprivation. To define the role of glucose metabolism in hypoxic cells in the presence or absence of elevated temperatures, cell culture studies were carried out to determine whether the enhanced cell killing of glucose-deprived hypoxic cells could be reversed by nucleoside supplementation. The results with HeLa cells showed that purine ribonucleosides were capable of reversing the enhanced heat-induced cytotoxicity under appropriate cultural conditions. Pyrimidine ribonucleosides and deoxyribonucleosides were ineffective. Based on the known metabolism of purine ribonucleosides, it is postulated that protection from hyperthermic killing by purine nucleosides comes about as a result of increased energy production via the purine nucleotide cycle.     

Differential effects of hyperthermia on human leukocyte production of interferon-alpha and interferon-gamma

Hyperthermia is being used clinically in the treatment of neoplasms. However, there are insufficient data regarding effects of hyperthermia on leukocyte functions potentially important in antitumor immunity. In order to provide such data, human mononuclear leukocytes were exposed to moderate (40.7 degrees C) and marked (42.7 degrees C) hyperthermia for 2 hr. Leukocyte viability, measured by dye exclusion, was not altered by such exposures. Exposure of the cells to moderate hyperthermia did not alter leukocyte production of interferon-alpha in response to influenza virus or interferon-gamma in response to the mitogen phytohemagglutinin. Exposure of the cells to marked hyperthermia significantly depressed production of interferon-alpha. In contrast, production of interferon-gamma was not altered by exposure of the leukocytes to marked hyperthermia. Many studies support a role for interferons (alpha as well as gamma) in antitumor immunity. The current and other data suggest that marked hyperthermia in cancer therapy should be applied locally whenever possible, rather than to the whole body, in order to limit adverse effects on immunity. The data suggest further that interferon-gamma may be a heat shock (stress) protein for human leukocytes.     

Increased glucagon secretion during hyperthermia in a sauna

Plasma glucagon, adrenaline, noradrenaline, insulin and glucose concentrations were measured in 7 healthy young males during hyperthermia in a sauna bath: plasma glucagon levels increased from baseline values of 127.0 +/- 12.9 (SEM) pg X ml-1 to a maximum of 173.6 +/- 16.1 (SEM) pg X ml-1 at the 20th min of exposure. No change in plasma insulin and a slight increase in plasma glucose concentration were seen. Since a concomitant moderate increase in plasma catecholamine levels was also present, the adrenergic stimulus is believed to trigger glucagon release during hyperthermia. Diminished visceral blood flow, known to occur in sauna baths, may cause a decrease in the degradation of plasma glucagon and thus contribute to the elevated plasma glucagon levels.     

The role of energy in hyperthermia-induced mammalian cell inactivation: A study of the effects of glucose starvation and an uncoupler of oxidative phosphorylation

When cultured Chinese hamster cells were exposed to 43°C hyperthermia, effects due to glucose deprivation and to the presence of the uncoupler of oxidative phosphorylation, carbonylcyanide-3-chlorophenylhydrazone, during the 43°C treatment proved to be strongly accelerated compared to the effects at normal temperature (37°C). This strongly indicates that the availability of energy plays an important role in the response of these cells to hyperthermia. One of the reasons cells die after hyperthermia may be a lethal lack of energy. Cells heated before glucose deprivation were able to maintain viability for a longer period during deprivation than cells without the preheat treatment. As the cells might develop thermotolerance after the heat exposure, this suggests that cells in the thermotolerant state use energy in a more economical way.     

The effect of hyperglycemia on the tumor response to irradiation given alone or in combination with hyperthermia

The effect of hyperglycemia (elevated blood glucose level) on the response of a murine tumor to irradiation given alone or in combination with hyperthermia was studied. Tumors were early generation isotransplants of a spontaneous C3H/Sed mouse fibrosarcoma, FSa-II. Single-cell suspensions were transplanted into the foot, and irradiation was given when each tumor reached an average diameter of 7 mm. Following irradiation, the tumor growth time to reach 1000 mm3 was studied and the dose-response curve between the tumor growth time and radiation dose was fitted. Preadministration of glucose increased the size of the hypoxic and chronically hypoxic cell fractions without altering the slope of the dose-response curve where the chronically hypoxic cell fraction is determined as the fraction of cells which were not oxygenated under hyperbaric oxygen conditions. Hyperthermia given prior to irradiation enhanced the tumor response to irradiation, but simultaneously increased the size of the hypoxic and chronically hypoxic cell fractions. Similar results were observed following hyperthermia given after irradiation. When hyperthermia at 43.5 degrees C was given 24 h before irradiation, the size of the hypoxic cell fraction increased with increasing treatment time, while a substantial decrease in the chronically hypoxic cell fraction was observed. Administration of glucose 60 min before hyperthermia further increased the size of the hypoxic cell fraction. Possible mechanisms explaining why glucose administration increases the hypoxic cell fractions are discussed.     

奶牛乳腺上皮细胞系的建立及高温对细胞超微结构的影响

应用差酶消化法和反复贴壁法在体外建立奶牛乳腺上皮细胞培养方法,以细胞流式术、免疫组化、免疫印迹、超微结构观察等方法对乳腺上皮细胞特性进行检测,并研究高温热刺激对乳腺细胞超微结构的影响。实验结果表明,运用本方法建立的奶牛乳腺细胞系上皮特性及遗传特征完备;41℃ 1h 的高温热刺激可使乳腺细胞染色质浓缩、线粒体肿胀、空泡化,形成凋亡小体,说明高温可以诱发乳腺细胞凋亡。     

Effects of TNF on human hepatocellular carcinoma cell lines and their modification by hyperthermia

Firstly, using HCC cell lines, the effects of r-h TNF were investigated. The authors had already confirmed that these cell lines were derived from human HCC. Each cell line showed a different growth curve on addition of TNF to the culture medium. JHH-4 exhibited enhancement of growth under the optimum concentration of TNF. On the other hand, growth of JHH-5 and JHH-7 was inhibited by TNF. JHH-7 were more sensitive to TNF than JHH-5, however, the direct effect of TNF on JHH-7 was not potent, as 10(4) u/ml TNF could not prevent proliferation of JHH-7. Morphological examinations were also performed. Phase-contrast microscopy showed that the JHH-4 cells were enlarged and tended to pile up after the addition of TNF to the culture medium. JHH-7 cells became detached from the culture dish due to cell death. Electron microscopy showed irregular proliferation of the rough endoplasmic reticulum of JHH-4 cells and increased number of lysosomes in JHH-7 cells. Furthermore, hyperthermia exhibited an interesting reciprocal action. Proliferation of JHH-4 was inhibited by low concentrations of TNF together with 41.4 degrees C hyperthermia in contrast to the effects of TNF alone. JHH-7 became more sensitive to TNF under hyperthermia at 41.4 degrees C. On the other hand, normal human fibroblast 'HAIN-55' were not affected by TNF at 37.0 degrees C, 41.4 degrees C or 42.5 degrees C. In this paper, the authors tried to study the effects of TNF and hyperthermia on human HCC cell lines.(ABSTRACT TRUNCATED AT 250 WORDS)     

奶牛乳腺上皮细胞系的建立及高温对细胞超微结构的影响

应用差酶消化法和反复贴壁法在体外建立奶牛乳腺上皮细胞培养方法,以细胞流式术、免疫组化、免疫印迹、超微结构观察等方法对乳腺上皮细胞特性进行检测,并研究高温热刺激对乳腺细胞超微结构的影响。实验结果表明,运用本方法建立的奶牛乳腺细胞系上皮特性及遗传特征完备;41℃1h的高温热刺激可使乳腺细胞染色质浓缩、线粒体肿胀、空泡化,形成凋亡小体,说明高温可以诱发乳腺细胞凋亡。     

Cellular stress induces a redistribution of the glucose transporter

The mechanism by which cells increase their rate of glucose uptake in response to stress is unclear. Using an immunofluorescence technique to localize the glucose transporter protein in BHK cells, we found that hyperthermia, treatment with arsenite, infection with vesicular stomatitis virus or Semliki Forest virus, and treatment with insulin cause the transporter to move from an intracellular site in the perinuclear region to the plasma membrane; the degree of translocation correlates approximately with the increase in glucose uptake. We conclude that stress induces an insulin-like distribution of certain membrane proteins.     

Control of mixed-substrate utilization in continuous cultures of Escherichia coli

The chemostat culture technique was used to study the control mechanisms which operate during utilization of mixtures of glucose and lactose and glucose and l-aspartic acid by populations of Escherichia coli B6. Constitutive mutants were rapidly selected during continuous culture on a mixture of glucose and lactose, and the beta-galactosidase level of the culture increased greatly. After mutant selection, the specific beta-galactosidase level of the culture was a decreasing function of growth rate. In cultures of both the inducible wild type and the constitutive mutant, glucose and lactose were simultaneously utilized at moderate growth rates, whereas only glucose was used in the inducible cultures at high growth rates. Catabolite repression was shown to be the primary mechanism of control of beta-galactosidase level and lactose utilization in continuous culture on mixed substrates. In batch culture, as in the chemostat, catabolite repression acting by itself on the lac enzymes was insufficient to prevent lactose utilization or cause diauxie. Interference with induction of the lac operon, as well as catabolite repression, was necessary to produce diauxic growth. Continuous cultures fed mixtures of glucose and l-aspartic acid utilized both substrates at moderate growth rates, even though the catabolic enzyme aspartase was linearly repressed with increasing growth rate. Although the repression of aspartase paralleled the catabolite repression of beta-galactosidase, l-aspartic acid could be utilized even at very low levels of the catabolic enzyme because of direct anabolic incorporation into protein.     

Tumor oxygenation and acidification are increased in melanoma xenografts after exposure to hyperglycemia and meta-iodo-benzylguanidine

Tumor oxygen tension and extracellular pH (pH(e)) are physiological parameters that can be manipulated to improve current cancer therapies. Many human tumors consist of cells that are chronically exposed to low pH(e). Exposure of tumor cells in culture to glucose decreases oxygen consumption (oxygen sparing or Crabtree effect), and while this effect is absent in low pH-adapted tumor cells, it can be restored by combining the respiratory inhibitor meta-iodo-benzylguanidine (MIBG) with glucose (Burd et al., Cancer Res. 61, 5630-5635, 2001). The effects of hyperglycemia and MIBG on tumor oxygen tension and on pH(e) were investigated in human melanoma xenografts in SCID mice. An oral gavage of 1 M glucose (2 g/kg) increased the average blood glucose concentration from <140 mg/dl to approximately 400 mg/dl. Although tumor pH(e) decreased from pH 6.7 to pH 6.5 (P < 0.01) after about 60 min, no change in tumor oxygen tension was observed. However, when oral glucose and MIBG (15 mg/kg) were administered together, oxygen tension increased from 2.8 mmHg to approximately 17 mmHg, and tumor pH(e) decreased from pH 6.7 to pH 6.3 (P < 0.01) after about 115 min. In conclusion, administration of glucose together with MIBG increases tumor oxygen tension and also increases the magnitude and duration of acidification. Hyperglycemia plus MIBG has the potential to improve response to radiation therapy as well as to hyperthermia and some chemotherapies.     

Effects of culture age and hexoses on fatty acid oxidation by Leishmania major

The effect of culture age on the rate of oxidation of short-, medium, and long-chain fatty acids by Leishmania major promastigotes was investigated. Promastigotes from 5-day stationary phase cultures oxidized several saturated fatty acids about 3-to-4-fold faster than cells from late log phase cultures, but [10-14C]oleate was oxidized 9-fold faster. The increase in rate of oxidation was partially reversed within 5 h and almost completely reversed within 30 h after resuspending cells from a 5-day stationary culture in fresh medium. Addition of acetate, leucine, or alanine caused moderate inhibitions of [1-14C]palmitate oxidation, while glycerol had little effect. Glucose, however, was a powerful inhibitor of the oxidation of [1-14C]palmitate and of [1-14C]octanoate. Mannose and fructose were also strong inhibitors of palmitate oxidation, but neither galactose, 2-deoxyglucose or 6-deoxyglucose caused appreciable inhibition. The extent of inhibition by acetate increased with increasing culture age, whereas inhibition by glucose decreased. In addition to demonstrating a reversible rise in beta-oxidation capacity with culture age, these data also demonstrate a hitherto unrecognized strong and culture age-dependent inhibition of fatty acid oxidation by glucose.     

Increase in Shedding of Intercellular Adhesion Molecule-1 in Human Malignant Melanoma Cell Lines Treated With Hyperthermia In Vitro

Human malignant melanoma cell lines were found to increase shedding of soluble intercellular adhesion molecule-1 (sICAM-1) into the culture medium when the cells were treated with hyperthermia at 41–43°C for 3–6 hr in vitro. The content of ICAM-1 in the cell lysate was also found to be increased after hyperthermia. The increased rate of ICAM-1 concentration in the cells was at maximum when they were incubated at 41°C for 3 hr. Also, the melanoma cell lines heat-treated at 41°C showed more intense immuno-fluorescence in the ICAM-1 expression on the cell surface. It remains to be investigated further whether the effects of hyperthermia on the ICAM-1 expression in melanoma cells is to augment membrane ICAM-1 expression, which in turn leads to shedding of soluble ICAM-1 or only to acceleration of shedding of sICAM-1 by unknown mechanisms.     

Radiosensitization in multifraction schedules. I. Evidence for an extremely low oxygen enhancement ratio

Stable monolayers of contact-inhibited C3H 10T1/2 cells were used in multifraction radiation experiments to measure the oxygen enhancement ratio (OER) at low doses/fraction under conditions where cell cycle effects (repopulation, redistribution) were minimal. Consistent with there being a dose-dependent reduction in the OER at low doses, an extremely low OER of 1.34 was measured after 20 fractions of 1.7 Gy every 12 h. The sparing effects of fractionating radiation doses were not apparent for cells irradiated under hypoxic conditions (i.e., multifraction survivals were lower than acute single-dose values) until doses exceeding 15 Gy were reached. This result suggested a deficiency in the recovery from sublethal and/or potentially lethal damage might exist after hypoxic irradiations, thereby reducing the OER. The capacity to repair potentially lethal damage was found to be nearly the same after hypoxic as compared to aerobic irradiations. However, there was an apparent absence of sublethal damage repair by 10T1/2 cells between two hypoxic irradiations which could be a major contributing factor to the extremely low OER value measured in this multifraction schedule.     

The role of Hsp90 in cell response to hyperthermia

(1) Preincubation of SKOV3 human ovarian carcinoma cells with a non-toxic dose of Geldanamycin resulted in exacerbation of hyperthermia-induced cytotoxicity and re-distribution of dying cells toward necrosis. (2) Exposure of primary human ovarian carcinoma cells to mild hyperthermia (42 °C for 2 h) led, after a recovery period of 16 h, to several-fold increase in the levels of Hsp90 and ErbB2, to a moderate decrease in the levels of phospho-Erk1/2, whereas the level of β-catenin appeared to be unchanged. (3) The inhibitors of Hsp90 (Geldanamycin and Novobiocin) significantly affected the cell signaling of heat-pretreated cultures. (4) The results suggest that Hsp90 plays a pivotal role in cell response to hyperthermia. (5) A combination of Hsp90 inhibitors with hyperthermia may considerably increase the efficacy of thermotherapy.