De novo protein synthesis is essential for thermotolerance acquisition in a Saccharomyces cerevisiae trehalose synthase mutant

Heat shock (25 degrees C to 37 degrees C for 30 min) acquisition of thermotolerance (at 50 degrees C) was observed in a yeast trehalose synthase mutant and the corresponding control strain. The acquisition of thermotolerance in the control strain was maintained for a significantly longer time than in the trehalose synthase mutant. The heat shock was associated with the synthesis of specific heat shock proteins and, in the case of the control strain, also trehalose accumulation. Inhibition of protein synthesis during the heat shock totally abolished acquisition of thermotolerance in both strains but not trehalose accumulation in the control. It was concluded that trehalose may only be required for prolonged stress protection while heat shock proteins are required for heat shock acquisition of thermotolerance.     

Heat shock response in the thermophilic enteric yeast Arxiozyma telluris

Heat stress tolerance was examined in the thermophilic enteric yeast Arxiozyma telluris. Heat shock acquisition of thermotolerance and synthesis of heat shock proteins hsp 104, hsp 90, hsp 70, and hsp 60 were induced by a mild heat shock at temperatures from 35 to 40 degrees C for 30 min. The results demonstrate that a yeast which occupies a specialized ecological niche exhibits a typical heat shock response.     

Hyperthermia and hypoxia increase tolerance of retinal ganglion cells to anoxia and excitotoxicity

PURPOSE: Knowledge of the mechanisms by which retinal ganglion cells are damaged may provide information required to develop novel treatments for diseases that cause retinal ganglion cell death. The authors investigated whether the expression of the 72-kDa heat shock protein in cultured rat retinal ganglion cells increases tolerance to hypoxic and excitotoxic injury. METHODS: Hyperthermia (42 degrees C for 1 hour) and sublethal hypoxia (9% O2 for 6 hours) were used to induce synthesis of the 72-kDa heat shock protein in cultured rat retinal ganglion cells and cultured retinal Müller cells. Induction of the 72-kDa heat shock protein was detected with immunocytochemical and immunoblot techniques. Survival of cultured retinal ganglion cells after exposure to anoxia (< 1% O2 for 6 hours) and glutamate (200 microns for 6 hours) was measured and compared to control cultures stressed previously by hyperthermia or sublethal hypoxia. The effect of quercetin, a blocker of heat shock protein synthesis, was evaluated in parallel experiments. RESULTS: Heat shock protein immunoreactivity was expressed in cultured retinal ganglion cells and Müller cells after hyperthermia and sublethal hypoxia. The mean (+/- standard deviation) retinal ganglion cell survival rates after exposure to anoxia (expressed as a percentage of untreated control cultures) in cells pretreated with sublethal hypoxia (83% +/- 17%) and hyperthermia (82% +/- 19%) were significantly greater than for cells that had no pretreatment (50% +/- 18%, P < 0.001). The mean (+/-standard deviation) retinal ganglion cell survival rate after exposure to glutamate in cells pretreated with sublethal hypoxia (82% +/- 19%) and hyperthermia (86% +/- 17%) were significantly greater than for cells that had no pretreatment (56% +/- 17%, P < 0.001). Inhibition of heat shock protein synthesis with quercetin abolished the protective effects of sublethal hypoxia and hyperthermia on cell survival after anoxia and glutamate exposure. CONCLUSIONS: The neuroprotective effect of hyperthermia and sublethal hypoxia suggests that heat shock proteins confer protection against ischemic and excitotoxic retinal ganglion cell death.     

Practical limitations of interstitial thermometry during deep hyperthermia

PURPOSE: Intratumor thermometry during hyperthermia treatment is considered important for several reasons. The morbidity that we experienced from interstitially placed catheters in deep-seated tumors gave reason to weigh the advantages and disadvantages against each other. METHODS AND MATERIALS: The available thermometry in 215 patients treated with hyperthermia for deep-seated tumors was analyzed with the aim to evaluate practically feasible intratumor measurements. The influence of intratumor measurements on the treatment procedure was assessed. RESULTS: Total 120 catheters were placed interstitially in 78 patients. Over the years, the percentage of patients with interstitial thermometry decreased considerably. Forty-nine catheters could remain in place during the whole hyperthermia treatment series. The remaining catheters had to be removed for more or less severe complications, including one fatal event. In fact, the interstitial catheters caused the most severe treatment-related morbidity. During 188 of the total 859 treatments, at least one interstitial catheter was available for thermometry. Per treatment with catheter(s) in situ, the average number of intratumor measurement sites was 6.9. The value of interstitial thermometry for power steering during treatment, to both optimize intratumor temperature distribution and prevent toxicity, appeared limited. The mean volume of the tumors with interstitial thermometry was 314 cm3, SD 325. In relation to the large tumor volumes, the thermal dose parameters calculated from the available data is considered to be of limited value. CONCLUSION: In view of the possible severe complications and the limited clinical value of the information achieved by interstitially placed thermometry catheters, interstitial thermometry was not found to routinely benefit the individual patient.     

Response of preimplantation murine embryos to heat shock as modified by developmental stage and glutathione status

Objectives were to characterize developmental changes in response to heat shock in the preimplantation mouse embryo and to evaluate whether ability to synthesize glutathione is important for thermal resistance in mouse embryos. Heat shock (41 degrees C for 1 or 2 h) was most effective at disrupting development to the blastocyst stage when applied to embryos at the 2-cell stage that were delayed in development. Effects of heat shock on ability of embryos to undergo hatching were similar for 2-cell, 4-cell, and morula stage embryos. The phenomenon of induced thermotolerance, for which exposure to a mild heat shock increases resistance to a more severe heat shock, depended upon stage of development and whether embryos developed in vitro or in vivo. In particular, induced thermotolerance was observed for morulae derived from development in vivo but not for 2-cell embryos or morulae that developed in culture. Administration of buthionine sulfoximine to inhibit glutathione synthesis did not increase thermal sensitivity of 2-cell embryos or morulae but did reduce subsequent development of 2-cell embryos at both 37 degrees and 41 degrees C. In summary, changes in the ability of 2-cell through morula stages to continue to develop following a single heat shock were generally minimal. However, 2-cell embryos delayed in development had reduced thermal resistance, and therefore, maternal heat stress may be more likely to cause mortality of embryos that are already compromised in development. There were also developmental changes in the capacity of embryos to undergo induced thermotolerance. Glutathione synthesis was important for development of embryos but inhibition of glutathione synthesis did not make embryos more susceptible to heat shock.     

Effect of stages of lactation on the concentration of a 90-kilodalton heat shock protein in bovine mammary tissue

From the normal mammary tissue of a Holstein cow in late lactation, a heat shock protein (90 kDa) was purified by ammonium sulfate fractionation and five-step column chromatography. From 70 g of tissue, 9.5 mg of this heat shock protein were obtained; samples had 98% purity and 19% recovery. The molecular mass of the 90-kDa heat shock protein was estimated to be 86 kDa by SDS-PAGE. Analysis of the amino-terminal amino acid sequence suggested that the protein had been purified as a mixture of two isoforms. The contents of the heat shock protein in cytoplasmic fractions of mammary tissues from Holstein heifers and cows at lactation and involution were measured by quantitative immunoblot analysis using rabbit antiserum raised against the purified heat shock proteins. The contents of the heat shock protein were higher in tissues from lactating cows than in those from heifers and involuting cows. The elevated concentrations of cytoplasmic 90-kDa heat shock protein in lactating tissue suggested that this protein is involved in mammary differentiation and lactation.     

Synthesis of tobacco-specific N-nitrosamines and their metabolites and results of related bioassays

The 70-kilodalton heat shock protein family is composed of both environmentally inducible (Hsp) and constitutively expressed (Hsc) family members. While the role of the constitutively expressed stress proteins in thermotolerance is largely unknown, de novo expression of stress proteins in response to elevated temperatures has been associated with increased thermotolerance in many cell lines, developing embryos and adult organisms. Distinct, hemiclonal hybrids between the livebearing fish species Poeciliopsis monacha and P. lucida varied in their abilities to survive temperature stress, with survival being greatest when rates of temperature increase to 40 degrees C were slowest and when P. monacha genomes were combined with a sympatric P. lucida genome. Quantification of Hsp70 under heat shock conditions and Hsc70 under normal physiological conditions indicated that variation in survival among hemiclones was best explained by the combined effects of these two proteins. Similar complex interactions between maternal and paternal genomes and rate of temperature increase were found to underlie patterns of survival, Hsp70 accumulation and Hsc70 abundance. These data suggest that the relationship between Hsps and thermotolerance is more intricate than previously thought and that Hsps contribute to thermal adaptation in these fishes through genetic interactions specific to particular environments.     

Correlates of osteopenia in patients with cystic fibrosis

The responses to heat shock in Tritrichomonas mobilensis, a squirrel monkey parasite and Tritrichomonas augusta, an amphibian trichomonad, were evaluated by means of metabolic labeling with [35S]methionine. Electrophoretically separated trichomonad proteins synthesized at different temperatures were visualized by autoradiography and the label incorporation quantitated by a trichloroacetic acid precipitation procedure. A considerable difference in thermotolerance between the two species was found as the protein synthesis reached a maximum at 41 C in T. mobilensis and 37 C in T. augusta. The latter tolerated temperature increases 13 C above normal cultivation temperatures as compared to only 4 C thermotolerance range above normal in T. mobilensis. Major heat shock proteins (Hsps) were expressed in both T. mobilensis (with apparent Mr 94, 72, and 58 kDa) and T. augusta (Mr 94, 70, and 56 kDa) as revealed by autoradiography. Western blot analysis with polyclonal antibody against DnaK of Escherichia coli showed the presence of antigenic Hsp70 homologs in both trichomonads. Similarly, a polyclonal antibody against Hsp60 with broad interspecies cross-reactivity detected Hsp60 homologs in both T. mobilensis and T. augusta. The anti-DnaK antibody cross-reacted with a T. mobilensis protein localized in Golgi apparatus as demonstrated by immunoelectron microscopy. Immunocytochemistry on trichomonad frozen sections revealed the presence of the Hsp60 homolog in light-microscopic granules corresponding to hydrogenosomes.     

Thermotolerance induces heat shock protein 72 expression and protects against ischaemia-reperfusion-induced lung injury

BACKGROUND: Ischaemia-reperfusion injury is mediated by neutrophil-endothelial interaction. Induction of heat shock proteins attenuates neutrophil-endothelial interactions. The aim of this study was to determine whether thermal preconditioning could have a protective effect on neutrophil-mediated lung injury in an animal model of lower torso ischaemia-reperfusion. METHODS: Sprague-Dawley rats were randomized into: control, ischaemia-reperfusion, and ischaemia-reperfusion preconditioned with hyperthermia groups. Ischaemia-reperfusion injury was induced by infrarenal aortic clamping for 30 min and reperfusion for 120 min. Thermotolerance was induced by raising the core body temperature to 40.5-41.5 degrees C for 15 min, 18 h before ischaemia-reperfusion. Wet:dry lung (W:D) weight ratio, bronchoalveolar lavage protein (BALprot) concentration, tissue myeloperoxidase (MPO) activity and bronchoalveolar lavage polymorphonuclear neutrophil (BAL PMN) count were measured. Heat shock protein 72 (hsp72) expression in lung, intestine and mesentery was measured using Western immunoblotting. RESULTS: Ischaemia-reperfusion resulted in a significant increase in tissue oedema (W:D weight ratio) and BALprot concentration. In addition there was a marked increase in tissue neutrophil infiltration (MPO activity, BAL PMN concentration). Preconditioning with hyperthermia resulted in increased expression of hsp72 and significantly reduced tissue oedema and neutrophil infiltration. CONCLUSION: Thermal preconditioning protects against neutrophil-mediated ischaemia-reperfusion-induced lung injury, possibly by increasing the expression of heat shock proteins.     

Cloning and characterization of the polyhydroxybutyrate depolymerase gene of Pseudomonas stutzeri and analysis of the function of substrate-binding domains

BACKGROUND: Overexpression of the 70 kDa heat shock protein (Hsp70) protects myocytes and neural cells from hypoxic injury. In contrast, Hsp70 induction in the kidney after ischemic or thermal preconditioning does not correlate well with protection from hypoxic injury. Herein, we directly tested if Hsp70 overexpression protects LLC-PK1 porcine tubular epithelial cells from hypoxic or thermal injury. METHODS: LLC-PK1 cells were either cotransfected with an Hsp70 and a luciferase expression vector or singly transfected with the luciferase expression vector. Loss of intracellular luciferase activity was used to assess injury after exposure to hypoxia or hyperthermia and after recovery under normal growth conditions. RESULTS: Overexpression of Hsp70 decreased loss of and improved restoration of intracellular luciferase activity in LLC-PK1 cells exposed to hyperthermia. In contrast, Hsp70 overexpression did not decrease the loss of or improve restoration of luciferase activity in cells exposed to hypoxia. CONCLUSIONS: These results suggest that Hsp70 overexpression is sufficient to protect LLC-PK1 proximal tubular cells from hyperthermia but is not sufficient for protection from hypoxia.     

Heat shock provides delayed protection against oxidative injury in cultured human umbilical vein endothelial cells

During both mild and severe ischemia, vascular endothelial cells lining large and small vessels of the ischemic organ are exposed to oxygen-derived free radicals resulting in oxidative damage to the organ. Heat shock has been shown to induce thermotolerance and also protect against ischemic injury, possibly via increased synthesis of heat shock proteins (HSPs). We hypothesized that heat shock preconditioning may protect human endothelial cells against oxidative damage. Cultured human umbilical vein endothelial cells (HUVEC) were subjected to heat shock (42 degrees C, 1 h) and allowed to recover for 2 or 20 h, at which times the cells were oxidatively stressed for 1 h by exposing them to 100-200 mumol/l of hydrogen peroxide (H2O2). Cellular damage was assessed immediately and 18 h later by morphology and release of lactate dehydrogenase (LDH). No protection of HUVEC was seen using the 2-hour recovery interval, but a significant protection (P < 0.05) was observed after the 20-hour delay. Northern blot analysis at 1 and 2 h after heating showed induction of HSP-70 mRNA. Western blot analysis demonstrated a significant increase in HSP-72 protein after 2 as well as 20 h of recovery from heat shock, although the amounts of protein at the two times were not significantly different. Furthermore, no differences in the activity of the antioxidant enzyme catalase were observed between heated and unheated HUVEC at 2 and 20 h after heat preconditioning. Thus, heat shock preconditioning induces delayed protection against oxidative injury in HUVEC, and the mechanism of protection appears to involve more than the expression of HSP-72 or activity of catalase.     

Hsp40, a possible indicator for thermotolerance of murine tumour in vivo

The relationship between Hsp40/Hsp70 synthesis and the development of thermotolerance was investigated using mouse squamous cell carcinoma in vivo. To examine the thermotolerance, tumours were heated at 44 degrees C for 30 min as conditioning heating. After various intervals they were heated again at 44 degrees C for 90 min as challenge heating. The tumour response to heat was evaluated by the growth delay. Thermotolerance rapidly developed with increasing interval and reached a maximum at 12 h interval. Subsequently, thermotolerance gradually decayed and almost disappeared at 120 h interval. Under this condition, synthesis of Hsp40/Hsp70 increased after conditioning heating, reached a maximum at 12 h interval, then gradually decreased thereafter within 120 h. The kinetics of accumulation and decay of both Hsp40 and Hsp70 were very similar. The extent of thermotolerance was well correlated with the relative amount of Hsp40/Hsp70. These results obtained in vivo were very similar to those in vitro (Kaneko et al. 1995). Our findings suggest that Hsp40 could be a useful indicator of the degree of thermotolerance in addition to Hsp70 in vivo as in vitro.     

Heart rate variability in insomniacs and matched normal sleepers

BACKGROUND: Heat shock proteins have been associated with the mutant form of the tumor suppressor gene, TP53, and with resistance to cancer chemotherapy. METHODS: Archival tissues from 50 patients with head and neck squamous cell carcinoma who received primary surgical resection were examined for p53, HSP27, and HSP70 by immunohistochemistry and correlated with tumor stage, grade, and 5-year survival (alive or deceased). RESULTS: Both heat shock proteins were strongly expressed in normal mucosa and in small (T1 and T2) tumors. Thirty (60%) of tumors were positive for p53, 43 (86%) for HSP27, and 34 (68%) for HSP70, with no association between p53 and heat shock protein expression. Twenty-five patients were alive (4 with disease), and 25 patients were deceased (9 from other causes). p53 Protein overexpression correlated with low-grade tumors. Only primary tumor site (i.e., oral cavity > larynx > oropharynx/base of tongue) and N stage were significantly associated with survival. CONCLUSIONS: Heat shock proteins are expressed in normal upper respiratory tract squamous mucosa, and their role in carcinoma remains unclear. None of the markers, p53, HSP27, or HSP70, demonstrated prognostic significance for 5-year survival. We confirm the recognized association of cervical lymph node metastases with decreased survival.     

Differential expression of Mr 70,000 heat shock protein in normal, premalignant, and malignant human uterine cervix

Transformed cells differ from normal cells in their pattern of heat shock protein expression. Here, we report differential expression of a Mr 70,000 heat shock protein (HSP70) in squamous cell carcinomas of the uterine cervix compared to normal or premalignant uterine cervix. Expression of HSP70 was measured using a mouse mAb against HSP70 by an ELISA. A significant increase in the level of expression of HSP70 was observed in fresh tumor cells as compared to normal or dysplastic ones (P < 0.001). The induction of HSP70 in tumor cells subjected to hyperthermia was less than that in normal or premalignant cells. Strong cytoplasmic and nuclear immunostaining was observed in cancerous tissues using anti-HSP70 mAb, biotinylated rabbit antimouse immunoglobulins, avidin combined in vitro with biotinylated horseradish peroxidase, and diaminobenzidine tetrachloride. HSP70 immunostaining was not detected in normal or dysplastic tissue sections. The results were confirmed by immunoprecipitation using anti-HSP70 mAb. These results are the first demonstration of overexpression of HSP70 in squamous cell carcinomas of the uterine cervix as compared to that in dysplastic or normal uterine cervix cells. We conclude that tumor cells differ from normal cells in their pattern of HSP70 expression, and increased levels of HSP70 correlate with an increase in tumor size.     

From laboratory studies to clinical trials: past benefits and future directions in hyperthermia

Three examples of clinical research trials that were direct outgrowths of hyperthermia laboratory investigations performed at Stanford University, as well as elsewhere, are reviewed and directions for future studies presented. The first series of laboratory-clinical studies investigated the influence of the number of hyperthermia treatments on tumour response in combined radiotherapy-hyperthermia regimens. A prospective randomized clinical trial was performed and showed no difference in response rate or duration of local control in combined radiation therapy-hyperthermia regimens comparing two versus six hyperthermia treatments. The results were in agreement with the laboratory studies in RIF murine tumours which suggested that persistent thermotolerance limited the effectiveness of multiple heat treatments in fractionated hyperthermia treatment regimens. The second prospective clinical trial was undertaken to investigate the influence of pretreatment tumour temperatures on subsequent response to radiotherapy and hyperthermia. In agreement with the laboratory studies, low (< 37 degrees C) pretreatment temperatures sensitized superficially located tumours to subsequent hyperthermia treatment. Lower pretreatment temperatures and larger differentials between minimum treatment temperatures and pretreatment maximum or mean temperatures were correlated with the duration of local control. The final studies investigated thermosensitizing agents, agents which were non-toxic at 37 degrees C but became cytotoxic at elevated temperatures. Thermosensitizers such as sulphydryl compounds have demonstrated up to 10,000-fold enhancement of cell killing at exposure to 43 degrees C for 1 h and may be considered for tumour sensitization. However, normal tissue may also be sensitized as was noted for topical anaesthetics such as lidocaine.(ABSTRACT TRUNCATED AT 250 WORDS)