UMLS:C0020672 - FACTA Search

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Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Induction of mRNA encoding the 70 kDa stress/heat shock protein, hsp70, was evaluated in post-ischemic gerbil brain by in situ hybridization using an oligonucleotide probe selective for stress-inducible members of this gene family. Expression of hsp70 sequences was most pronounced in hippocampal CA1 neurons that fail to accumulate immunoreactive hsp70 protein, and that are selectively lost following ischemia. Hybridizable RNA continued to be expressed in CA1 through at least 48 h, essentially until the onset of cell death in this model. In contrast, dentate granule cells and CA2 neurons destined to survive the insult showed transient induction of hsp70 mRNA during the first 24 h of recirculation that disappeared prior to the detection of maximal hsp70 immunoreactivity in these cell populations. Pretreatment with a single injection of MK-801 (10 mg/kg) considerably attenuated the induction of hsp70 mRNA in hippocampus at 6 h of recirculation, an effect apparently mediated by persistent drug-induced hypothermia. The drug did not prevent the later, selective appearance of hsp70 hybridization in CA1 neurons at 24 h, nor did it protect against the subsequent loss of these cells. These results demonstrate a prolonged postischemic stress response at the transcriptional level in vulnerable hippocampal neurons, and suggest its utility as a marker for neuronal pathophysiology associated with mechanisms mediating delayed neuronal death.
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PMID:Localization of 70 kDa stress protein mRNA induction in gerbil brain after ischemia. 201 50

Recent studies have demonstrated that mild hypothermia protects brain from ischemic insults. In the present study, we investigated the effects of mild hypothermia on stress responses of the neurons and glia after experimental brain injury. We evaluated the immunocytochemical expression of 72kDa molecular weight heat shock protein (HSP72) as a marker of cellular injury. Adult male Sprague-Dawley rats were subjected to a lateral fluid percussive injury. After injury the animals were divided into two groups (normothermic and hypothermic groups). Body temperature of the normothermic groups was maintained at 37.0-37.5 degrees C throughout the experiment. In the latter groups, the rats were exposed to hypothermia of 30.0-31.5 degrees C by surface cooling for 150 minutes beginning at 15 minutes after injury. Animals in each groups were sacrificed at 24, 48, and 72 hours after injury. Vibratomed brain sections were provided for immunocytochemical staining of HSP72 and hematoxyline-eosin staining. The induction of HSP72 was evaluated under the light microscopic level. Results 1) The rats that produced HSP72 in the hypothermic group were significantly less than those in the normothermic group. 2) HSP72 was expressed in the neurons and glia in the various brain regions including the impact site, parasagittal cortex, deep cortical layer, hippocampus, caudate-putamen and midbrain in both groups. However HSP72 positive cells in each brain region of the hypothermic group were significantly less than those in the corresponding regions of the normothermic group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The effects of mild hypothermia on expression of stress protein (HSP72) after experimental brain injury]. 778 25

The effect of pentobarbital on the induction of heat shock protein (HSP) 70 and heat shock cognate protein (HSC) 70 mRNAs after transient global ischemia in gerbil brains was investigated by in situ hybridization using cloned cDNA probes selective for each mRNA species. In sham control brains, HSP70 mRNA was scarcely present, whereas HSC70 mRNA was present in most cell populations. After a 5-min occlusion of bilateral common carotid arteries, HSP70 and HSC70 mRNAs were induced together in several cells and were especially dense in hippocampal dentate granule cells at 3 h, but the strong hybridization of the mRNAs continued only in hippocampal CA1 cells by 2 days. At 7 days after the ischemia, CA1 neuronal cell death was apparent, and the HSP70 mRNA disappeared and HSC70 mRNA content returned to the sham level, except for in the CA1 cells. Pretreatment with pentobarbital (40 mg/kg, i.p.) greatly reduced or inhibited the induction of HSP70 and HSC70 mRNAs at both early (3-h) and late (2-day) phases after ischemia. The drug also prevented CA1 cell death at 7 days along with the maintenance of expression of HSC70 mRNA at the sham control level. Hypothermic effects of pentobarbital were noted at 30 and 60 min after the reperfusion, whereas at 2 h there was no statistical significance between the control and drug-treated groups. The great reduction of HSP70 and HSC70 mRNA induction at both early and late phases after ischemia suggests that pentobarbital reduces intra-and/or postischemic stress and may protect CA1 cells from ischemic damage.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduction of HSP70 and HSC70 heat shock mRNA induction by pentobarbital after transient global ischemia in gerbil brain. 851 71

1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is toxic toward the dopaminergic nigrostriatal system of a plethora of species including rodents, nonhuman primates and humans. The present study was designed to evaluate if systemic administration of MPTP or its metabolite, 1-methyl-4-phenylpyridinium ion (MPP+), has significant effects on body temperature (BT) and whether such effects might play a role in the neurotoxicity. A single intraperitoneal (i.p.) dose of either MPTP (50 mg/kg) or MPP+ (12.5 mg/kg) leads to a decrease in BT in both C57BL/6N (C57) and CD-1 mice. The hypothermia induced by MPTP can be blocked by pretreatment with deprenyl (30 mg/kg, i.p.), an MAO-B inhibitor. However, the hypothermia elicited by MPP+ is refractive to MAO-B inhibition. These findings suggest that MPP+ is responsible for the BT reduction and that the primary site of action lies outside the blood-brain barrier. An initial hyperthermic phase in the CD-1 mice, which leads to the induction of heat shock protein-72 (HSP-72) throughout the brain, differentiates their response to MPTP from that of C57 mice. This initial hyperthermia appears to be protective since its prevention by dosing at a low ambient temperature enhances striatal dopamine (DA) depletion in CD-1 mice. The temperature effects of both MPTP and MPP+ also display an age-dependence in the C57 strain of mice, with the magnitude of the effects correlating positively with age. However, profound hypothermia could be induced by MPP+ in the absence of striatal DA depletion. The latter finding suggests that while a positive correlation was found between age and the magnitude of the hypothermia, DA depletion and hypothermia are not causally related. The apparent protective effect of the initial hyperthermia in the CD-1 strain of mice, however, suggests that BT is an important parameter in the neurotoxicity of MPTP.
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PMID:MPTP- and MPP(+)-induced effects on body temperature exhibit age- and strain-dependence in mice. 854 3

Intra-ischemic hypothermia has been demonstrated to be protective against ischemic neuronal injury. The present study examined the effect of moderate hypothermia on the expression of heat shock protein (HSP)-72 following transient forebrain ischemia in gerbils by immunohistochemistry. Global forebrain ischemia with concurrent moderate hypothermia (30 degrees C) was induced in gerbils by 10-minute bilateral carotid artery occlusion followed by recirculation periods of 1 hour (h), 6h, 24h, and 48h. Normothermic forebrain ischemic animals with similar recirculation periods were utilized for comparison of the HSP expression. Sham-operated normothermic and hypothermic animals were also included. 72-kDa heat shock protein immunoreactivity was demonstrated in the hippocampus and neocortex of the normothermic ischemic animals following 24h and 48h recirculation similar to that reported previously. However, the immunoreactivity was absent in the brains of the animals subjected to hypothermic ischemia or sham-operation. Only the ependymal cells were immunopositive in all hypothermic brains as was the case with all normothermic brains. The hypothermic ischemic brains showed no significant necrosis in the hippocampus. These findings suggest that the protection of ischemic neuronal necrosis conferred by intra-ischemic hypothermia is not associated with induction of HSP-72 protein and that mechanisms other then HSP-72 protein induction are likely to be responsible for this neuroprotective effect.
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PMID:The effect of hypothermia on induction of heat shock protein (HSP)-72 in ischemic brain. 884 92

The technique of organ preservation is limited by the amount of time which organs can be hypothermically stored. A potential method to effectively extend reliable storage times involves the conditioning of cells to better withstand hypothermia by previous exposure to a less severe stress. Using human fibroblasts in culture, we have demonstrated that such an approach may be feasible. Subjecting human diploid IMR-90 fibroblasts to 5 h 42.5 degrees C heat shock was found to improve cell survival more than 10-fold to subsequent 4 degrees C hypothermic exposure. The prior heat shock resulted in the increased synthesis of heat shock proteins (HSPs), the absolute concentrations of which were measured by an assay which utilized sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blotting techniques. Both the degree of cold tolerance conferred upon IMR-90 cells and the levels of HSP27 and HSP27 were dependent upon initial heat shock duration. Induced cold tolerance was found to be reversible; longer recovery times at 37 degrees C following heat shock resulted in a loss of this cold-tolerant state as well as a disappearance of HSPs. The fact that the degree of cold tolerance and HSP concentrations showed similar trends with respect to both heat shock time at 42.5 degrees C and subsequent recovery time at 37 degrees C suggests that these proteins may be intimately involved in the induction of cold tolerance.
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PMID:Induction of tolerance to hypothermia by previous heat shock using human fibroblasts in culture. 889 14

To examine the expression of heat shock protein (hsp) in each organ on autopsy in 11 deaths from hypothermia, we performed immunological staining of specimens from each organ using an antibody to hsp, ubiquitin (Ub). Staining of the liver, kidneys, lungs and pancreas revealed a high level of Ub expression in the cytoplasm and nuclei. However, staining of the same specimens of all controls revealed no Ub expression in the cytoplasm or nuclei. This finding suggests that cells are affected by stress even at a low temperature, and may be important in clarifying the cellular kinetics in death from hypothermia.
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PMID:Expression of ubiquitin protein in each organ at death from hypothermia. 915 83

Cardiac surgery is usually performed under conditions of cardioplegic ischemic arrest. To protect the heart during the ischemic period, the myocardium is exposed to varying degrees of hypothermia. Although hyperthermia is known to induce the heat shock response, the molecular effects of hypothermia on the myocardium have not been investigated. We have studied the effect of hypothermia on the induction of heat shock proteins in primary cultures of neonatal cardiomyocytes. Cold stress in cardiomyocytes induced a 6 fold increase in the heat shock protein HSP70 as compared to control. Increased HSP70 protein levels correlated with induction of HSP70 mRNAs. Maximal levels of HSP70 protein appeared 4-6 h following recovery from cold shock, indicating the transient nature of the response. Induction of HSP25 mRNA was also observed in cold-shocked cardiomyocytes, even though increased HSP25 protein levels were not detected. Our results indicate that hypothermia is capable of inducing the heat shock response in neonatal cardiomyocytes.
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PMID:Characterization of cold-induced heat shock protein expression in neonatal rat cardiomyocytes. 927 66

Hypothermia is known to protect myocardium during ischemia, but its role in induction of a protective stress response before ischemia has not been evaluated. As cold incites stress responses in other tissues, including heat shock protein induction and signaling mitochondrial biogenesis, we postulated that hypothermia in perfused hearts would produce similar phenomena while reducing injury during subsequent ischemia. Studies were performed in isolated perfused rabbit hearts (n = 77): a control group (C) and a hypothermic group (H) subjected to decreasing infusate temperature from 37 to 31 degrees C over 20 min. Subsequent ischemia during cardioplegic arrest at 34 degrees C for 120 min was followed by reperfusion. At 15 min of reperfusion, recovery of left ventricular developed pressure (LVDP), maximum first derivative of left ventricular pressure (LV dP/dtmax), LV -dP/dtmax, and the product of heart rate and LVDP was significantly increased in H (P < 0.01) compared with C hearts. Ischemic contracture started later in H (97.5 +/- 3.6 min) than in C (67.3 +/- 3.3 min) hearts. Myocardial ATP preservation and repletion during ischemia and reperfusion were higher in H than in C hearts. mRNA levels of the nuclear-encoded mitochondrial proteins adenine nucleotide translocase isoform 1 (ANT1) and beta-F1-adenosine-triphosphatase (beta-F1-ATPase) normalized to 28S RNA decreased in C hearts but were preserved in H hearts after reperfusion. Inducible heat shock protein (HSP70-1) mRNA was elevated nearly 4-fold after ischemia in C hearts and 12-fold in H hearts. These data indicate that hypothermia preserves myocardial function and ATP stores during subsequent ischemia and reperfusion. Signaling for mitochondrial biogenesis indexed by ANT1 and beta-F1-ATPase mRNA levels is also preserved during a marked increase in HSP70-1 mRNA.
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PMID:Hypothermia preserves function and signaling for mitochondrial biogenesis during subsequent ischemia. 953 Jan 89

Body temperature changes and heat shock protein (HSP-72) induction in the caudate nucleus were studied in female C57BL/6N mice pretreated with ibogaine (50 mg/kg) and sacrificed 48 h. after a single dose of methamphetamine (20 mg/kg). Methamphetamine injection resulted in hyperthermia and induced HSP-72 expression, whereas treatment with ibogaine alone produced hypothermia. The ibogaine followed by methamphetamine injection showed no hyperthermia and decreased HSP-72 expression. These data indicate that pretreatment with ibogaine can completely block methamphetamine-induced hyperthermia and HSP-72 expression in the striatum.
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PMID:Ibogaine blocked methamphetamine-induced hyperthermia and induction of heat shock protein in mice. 1009 30

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