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Heat Shock Treatment (heat + shock_treatment)
Selected AbstractsOpposing Actions of Phosphatidylinositol 3-Kinase and Glycogen Synthase Kinase-3, in the Regulation of HSF-1 ActivityJOURNAL OF NEUROCHEMISTRY, Issue 6 2000Gautam N. Bijur Abstract: Elevated temperatures activate the survival promoters Aktand heat shock factor-1 (HSF-1), a transcription factor that induces theexpression of heat shock proteins (HSPs), such as HSP-70. Because neuronalmechanisms controlling these responses are not known, these were investigatedin human neuroblastoma SH-SY5Y cells. Heat shock (45°C) rapidly activatedAkt, extracellular signal-regulated kinases 1 and 2 (ERK1/2), and p38, butonly Akt was activated in a phosphatidylinositol 3-kinase (PI-3K)-dependentmanner, as the PI-3K inhibitors LY294002 and wortmannin blocked Aktactivation, but not ERK1/2 or p38 activation. Akt activation was not blockedby inhibition of p38 or ERK1/2, indicating the independence of these signalingsystems. Heat shock treatment also caused a rapid increase in HSF-1 DNAbinding activity that was partially dependent on PI-3K activity, as both thePI-3K inhibitors attenuated this response. Because Akt inhibits glycogensynthase kinase-3, (GSK-3,), an enzyme that facilitates cell death,we tested if GSK-3, is a negative regulator of HSF-1 activation.Overexpression of GSK-3, impaired heat shock-induced activation of HSF-1,and also reduced HSP-70 production, which was partially restored by theGSK-3, inhibitor lithium. Thus, heat shock-induced activation of PI-3Kand the inhibitory effect of GSK-3, on HSF-1 activation and HSP-70expression imply that Akt-induced inhibition of GSK-3, contributes to theactivation of HSF-1. [source] Deletion of tau attenuates heat shock-induced injury in cultured cortical neuronsJOURNAL OF NEUROSCIENCE RESEARCH, Issue 1 2010Yanying Miao Abstract The microtubule-associated protein tau has been implicated in ,-amyloid- and glutamate-induced neurotoxicity. However, the potential role of tau in response to other insults to neurons remains unclear. In this study, we examined whether deletion of tau would change cell injury induced by heat shock in primary cultures of cortical neurons. After 30 min of a 45°C heat shock, lactate dehydrogenase (LDH) release increased, reaching a peak at 6 hr in wild-type (WT) neurons. A significantly lower LDH release, with a peak delayed by 24 hr, was detected in tau knockout (TKO) neurons. After heat shock treatment, MAP-2 and tubulin staining of the processes of WT neurons revealed more dramatic abnormalities than in TKO neurons. Both WT and TKO neurons exhibited a similar elevation of HSP70 level but different time courses of Akt phosphorylation. In contrast to an early, brief response in WT neurons, TKO neurons displayed a late, but long-lasting increase in phosphorylation of Akt and its downstream target, glycogen synthase kinase 3,. Additionally, inhibition of Akt activity aggravated the cell morbidity caused by heat shock exposure in both WT and TKO neurons, indicating a protective role of Akt against cell injury. In conclusion, our results demonstrate that deletion of tau attenuated heat shock-induced neuronal injury. Enhanced Akt response in the absence of endogenous tau is suggested to represent a compensatory mechanism for regulating cell reactions to stress stimuli. © 2009 Wiley-Liss, Inc. [source] Synthetic small interfering RNA targeting heat shock protein 105 induces apoptosis of various cancer cells both in vitro and in vivoCANCER SCIENCE, Issue 7 2006Seiji Hosaka We previously reported that heat shock protein 105 (HSP105), identified by serological analysis of a recombinant cDNA expression library (SEREX) using serum from a pancreatic cancer patient, was overexpressed in various human tumors and in the testis of adult men by immunohistochemical analysis. In the present study, to elucidate the biological function of the HSP105 protein in cancer cells, we first established NIH3T3 cells overexpressing murine HSP105 (NIH3T3-HSP105). The NIH3T3-HSP105 cells acquired resistance to apoptosis induced by heat shock or doxorubicin. The small interfering RNA (siRNA)-mediated suppression of HSP105 protein expression induced apoptosis in human cancer cells but not in fibroblasts. By a combination of siRNA introduction and doxorubicin or heat shock treatment, apoptosis was induced synergistically in a human colon cancer cell line, HCT116. In vivo, siRNA inoculation into the human gastric cancer cell line KATO-3 established in the flank of an NOD SCID mouse suppressed the tumor growth. This siRNA-induced apoptosis was mediated through caspases, but not the p53 tumor suppressor protein, even though the HSP105 protein was bound to wild-type p53 protein in HCT116 cells. These findings suggest that the constitutive overexpression of HSP105 in cancer cells is involved in malignant transformation by protecting tumor cells from apoptosis. HSP105 may thus be a novel target molecule for cancer therapy and a treatment regimen using synthetic siRNA to suppress the expression of HSP105 protein may provide a new strategy for cancer therapy. (Cancer Sci 2006; 97: 623,632) [source] 915 MHz microwaves and 50 Hz magnetic field affect chromatin conformation and 53BP1 foci in human lymphocytes from hypersensitive and healthy personsBIOELECTROMAGNETICS, Issue 3 2005Igor Y. Belyaev Abstract We used exposure to microwaves from a global system for mobile communication (GSM) mobile phone (915 MHz, specific absorption rate (SAR) 37 mW/kg) and power frequency magnetic field (50 Hz, 15 ,T peak value) to investigate the response of lymphocytes from healthy subjects and from persons reporting hypersensitivity to electromagnetic field (EMF). The hypersensitive and healthy donors were matched by gender and age and the data were analyzed blind to treatment condition. The changes in chromatin conformation were measured with the method of anomalous viscosity time dependencies (AVTD). 53BP1 protein, which has been shown to colocalize in foci with DNA double strand breaks (DSBs), was analyzed by immunostaining in situ. Exposure at room temperature to either 915 MHz or 50 Hz resulted in significant condensation of chromatin, shown as AVTD changes, which was similar to the effect of heat shock at 41 °C. No significant differences in responses between normal and hypersensitive subjects were detected. Neither 915 MHz nor 50 Hz exposure induced 53BP1 foci. On the contrary, a distinct decrease in background level of 53BP1 signaling was observed upon these exposures as well as after heat shock treatments. This decrease correlated with the AVTD data and may indicate decrease in accessibility of 53BP1 to antibodies because of stress-induced chromatin condensation. Apoptosis was determined by morphological changes and by apoptotic fragmentation of DNA as analyzed by pulsed-field gel electrophoresis (PFGE). No apoptosis was induced by exposure to 50 Hz and 915 MHz microwaves. In conclusion, 50 Hz magnetic field and 915 MHz microwaves under specified conditions of exposure induced comparable responses in lymphocytes from healthy and hypersensitive donors that were similar but not identical to stress response induced by heat shock. Bioelectromagnetics 26:173,184, 2005. © 2005 Wiley-Liss, Inc. [source] | ||||||||||