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)

The importance of particular genes in neuronal death following global cerebral ischemia can readily be studied in genetically modified mice provided a reliable model of ischemia is available. For that purpose, we developed a mouse model of global cerebral ischemia that induces consistent damage to different regions of the brain and with a low mortality rate. Twelve minutes of ischemia was induced in C57BL/6 mice by bilateral common carotid artery occlusion under halothane anesthesia and artificial ventilation. Body and brain temperature were monitored and cortical cerebral blood flow in each hemisphere was measured by laser Doppler flowmeter before, during, and for 5 min after ischemia. Extensive damage was found in the striatum and marked cell damage was observed in the CA1 and CA2 regions of hippocampus and in thalamus. Mild damage was seen in the CA3 region, dentate gyrus and cortex. Hippocampal damage in the CA1 region is delayed and developed over 48 h. Intraischemic hypothermia of 33 degrees C provided a robust neuroprotection. The non-competitive N-methyl-D-aspartate receptor blocker, MK-801, did not provide protection in the hippocampus, cortex, striatum or thalamus when administered 30 min prior to ischemia or 2 h after the end of ischemia, but selectively mitigated damage in the hippocampus, when administered immediately following ischemia. This model of global cerebral ischemia may be useful in pharmacological and genomic studies of ischemic brain damage.
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PMID:Brain damage in a mouse model of global cerebral ischemia. Effect of NMDA receptor blockade. 1291 60

Heat shock protein 70 (Hsp70) is induced in cells by a variety of stress conditions, is known to be cytoprotective, and has been proposed to be neuroprotective during brain ischemia. A recently developed mouse model of 12-min global cerebral ischemia by bilateral common carotid artery occlusion with artificial ventilation and bilateral monitoring of regional cerebral blood flow by laser Doppler was applied. We examined the expression and possible neuroprotective role of the inducible form of Hsp70 in the mouse brain following global cerebral ischemia. Ischemia induced a marked expression of Hsp70 in the ischemia vulnerable CA1-CA3 region of the hippocampus. Intraischemic hypothermia (33 degrees C) prevented cell damage without noticeable expression of Hsp70. A transgenic mouse overexpressing Hsp70 was subjected to 12 min of global cerebral ischemia, and the brain damage was evaluated after 4 days. No neuroprotection of ischemia-induced brain damage in hippocampus, striatum, cortex or thalamus was found in Hsp70 transgenic animals compared with wild-type littermate mice. We suggest that overexpression of Hsp70 following cerebral ischemia is an indicator of cell stress. Also, constitutively overexpression of Hsp70 is insufficient to effectively influence cell death after global cerebral ischemia in the mouse.
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PMID:Lack of neuroprotection by heat shock protein 70 overexpression in a mouse model of global cerebral ischemia. 1457 3

We recently reported that the 5-HT1A receptor agonist 8-hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT) attenuated traumatic brain injury (TBI)-induced cognitive deficits and histopathology. However, 8-OH-DPAT also produced mild hypothermia (Hypo), which may have contributed to the benefit. To clarify this issue, we conducted an experiment similar to the previous, but included an 8-OH-DPAT group that was maintained at 37 +/- 0.5 degrees C (normothermia; Normo). Isoflurane-anesthetized rats received either a cortical impact (2.7-mm deformation at 4 m/sec) or sham injury and then were randomly assigned to two saline (Sham/Vehicle, n = 5; Injury/Vehicle, n = 10) or three 8-OH-DPAT (Sham/DPAT, n = 5; Injury/DPAT + Normo, n = 10; Injury/DPAT + Hypo, n = 10) groups. 8-OH-DPAT (0.5 mg/kg) or a comparable volume of saline was administered intraperitoneally 15 min after cortical impact or sham injury. Core temperatures were taken prior to treatment and every 15 min thereafter for 2 h. Function was assessed by established motor and cognitive tasks on post-operative days 1-5 and 14-20, respectively. Hippocampal CA1/CA3 cell survival and cortical lesion volume were quantified at 4 weeks. Both the Injury/DPAT + Normo and Injury/DPAT + Hypo groups exhibited enhanced cognitive performance (spatial acquisition and retention) and reduced histopathology (CA3 cell loss and cortical lesion volume) versus the Injury/ Vehicle group (P < 0.05), but did not differ from one another despite a rapid (15 min), mild (34.4-34.9 degrees C), and transient (~1 h) hypothermic effect in the latter. These data confirm that a single systemic administration of 8-OH-DPAT confers neurological protection after TBI, and demonstrate that the beneficial effect is not mediated by concomitant hypothermia. The mechanisms for the protective effects of 8-OH-DPAT after TBI require further inquiry.
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PMID:The therapeutic efficacy conferred by the 5-HT(1A) receptor agonist 8-Hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT) after experimental traumatic brain injury is not mediated by concomitant hypothermia. 1500 Jul 58

We investigated (1) whether cerebral hypothermia during kainic acid (KA)-induced seizures was neuroprotective; and (2) whether nitric oxide (NO) production in the brain during seizures was altered by cerebral hypothermia in immature rabbits. Twelve female rabbits, aged 2 weeks, were anesthetized, paralyzed and mechanically ventilated. We continuously measured NO production in the brain by NO-selective electrode, cortical electroencephalogram (EEG), regional cerebral blood flow (rCBF) by laser Doppler flowmetry, rectal and cerebral temperatures and mean arterial blood pressure (MABP) during KA (12 mg/kg, i.v.)-induced seizures in the hypothermic group (n = 6; rectal temperature, 33 degrees C), and in the normothermic group (n = 6; rectal temperature, 37 degrees C). The normothermic group showed a gradual increase in NO generation in the brain, which was significantly inhibited in the hypothermic group. There were no significant differences in the increases in rCBF, MABP, arterial blood gases, blood glucose, or EEG abnormalities between the two groups. Neuronal damages in the hippocampus (CA3) were significantly lower in hypothermia than in normothermia. These results suggest that hypothermia attenuates NO production during drug-induced seizures and decreases hippocampal brain lesions in the immature rabbit brain. These results may help to explain the neuroprotective effects of hypothermia.
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PMID:Hypothermia during kainic acid-induced seizures reduces hippocampal lesions and cerebral nitric oxide production in immature rabbits. 1503 Sep 6

Neurofibrillary degeneration, associated with the formation of paired helical filaments (PHF), is one of the critical neuropathological hallmarks of Alzheimer's disease (AD). Although the microtubule-associated protein tau in a hyperphosphorylated form has been established as primary PHF constituent, the process of tau phosphorylation and its potential link to degeneration is not very well understood, mostly because of the lack of a physiological in vivo model of PHF-like tau phosphorylation. PHF formation in AD follows a hierarchical pattern of development throughout different cortical areas, which closely matches the pattern of neuronal plasticity in the adult brain. Those brain areas are most early and most severely affected which are involved in the regulation of memory, learning, perception, self-awareness, consciousness, and higher brain functions that require a life-long re-fitting of connectivity, a process based on a particularly high degree of plasticity. Failures of synaptic plasticity are, thus, assumed to represent early events in the course of AD that eventually lead to alteration of tau phosphorylation. Recently, we have used the hibernation cycle, a physiological model of adaptation associated with an extraordinary high degree of structural neuronal plasticity, to analyze the potential link between synaptic plasticity, synaptic detachment and the regulation of tau phosphorylation. During torpor, a natural state of hypothermia, synaptic contacts between mossy fibers and hippocampal pyramidal neurons undergo dramatic regressive changes that are fully reversible very rapidly during euthermy. This rapid, reversible, and repeated regression of synaptic and dendritic components on CA3 neurons is associated with a reversible PHF-like phosphorylation of tau at a similar time course. The repeated formation and degradation of PHF-tau might, thus, represent a physiological mechanism not necessarily associated with pathological effects. These findings implicate an essential link between neuronal plasticity and PHF-like phosphorylation of tau, potentially involved in neurofibrillary degeneration.
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PMID:Neurodegeneration and plasticity. 1546 80

The neuroprotective potency of anesthetics such as propofol compared to mild hypothermia remains undefined. Therefore, we determined whether propofol at two clinically relevant concentrations is as effective as mild hypothermia in preventing delayed neuron death in hippocampal slice cultures (HSC). Survival of neurons was assessed 2 and 3 days after 1 h oxygen and glucose deprivation (OGD) either at 37 degrees C (with or without 10 or 100 microM propofol) or at an average temperature of 35 degrees C during OGD (mild hypothermia). Cell death in CA1, CA3, and dentate neurons in each slice was measured with propidium iodide fluorescence. Mild hypothermia eliminated death in CA1, CA3, and dentate neurons but propofol protected dentate neurons only at a concentration of 10 microM; the more ischemia vulnerable CA1 and CA3 neurons were not protected by either 10 microM or 100 microM propofol. In slice cultures, the toxicity of 100 muM N-methyl-D-aspartate (NMDA), 500 microM glutamate, and 20 microM alpha-amino-5-methyl-4-isoxazole propionic acid (AMPA) was not reduced by 100 microM propofol. Because propofol neuroprotection may involve gamma-aminobutyric acid (GABA)-mediated indirect inhibition of glutamate receptors (GluRs), the effects of propofol on GluR activity (calcium influx induced by GluR agonists) were studied in CA1 neurons in HSC, in isolated CA1 neurons, and in cortical brain slices. Propofol (100 and 200 microM, approximate burst suppression concentrations) decreased glutamate-mediated [Ca2+]i increases (Delta[Ca2+]i) responses by 25%-35% in isolated CA1 neurons and reduced glutamate and NMDA Delta[Ca2+]i in acute and cultured hippocampal slices by 35%-50%. In both CA1 neurons and cortical slices, blocking GABAA receptors with picrotoxin reduced the inhibition of GluRs substantially. We conclude that mild hypothermia, but not propofol, protects CA1 and CA3 neurons in hippocampal slice cultures subjected to oxygen and glucose deprivation. Propofol was not neuroprotective at concentrations that reduce glutamate and NMDA receptor responses in cortical and hippocampal neurons.
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PMID:Mild hypothermia, but not propofol, is neuroprotective in organotypic hippocampal cultures. 1561 81

A similarity in the sequence of restoration of the EEG spectrum between ground squirrels arousing from torpor and rats passing out of artificial hypothermia (17-18 degrees C) was shown. First of all, the low-frequency part of the EEG spectrum was restored. As animals warmed up, their breathing became hurried, cold shivering appeared, and the theta- and alpha-rhythms increased. During the exit from hypothermia, the activity of the protein-synthesizing system in both rats and ground squirrels was almost entirely restored when the animal body temperature achieved 21-22 degrees C. In ground squirrel, the rate of protein synthesis in the neocortex was lower than in hippocampus CA1 and CA3 areas, whereas in rats, on the contrary, it was higher in the neocortex in comparison with the CA3 area.
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PMID:[A comparative analysis of restoration of electroencephalographic and protein-synthesizing activities in neocortex and hippocampus in hibernating (ground squirrels) and nonhibernating (rats) animals during exit from hypothermia]. 1575 14

We investigated cyclooxygenase-2 (Cox-2) immunoreactive cells in the hippocampus and dentate gyrus of Sprague-Dawley rats at 4 h after the induction of normothermic and hypothermic ischemia and reperfusion. Under the normothermic condition, Cox-2 immunoreactive cells showed more intense staining and clearer proximal dendrite configurations as compared with the control animals, whereas the numbers of immunoreactive cells in the hippocampus and dentate gyrus were not remarkably increased. In contrast to the normothermic condition, long-term (pre- and intra-ischemic) and short-term (exclusively intra-ischemic) hypothermic conditions caused a drastic increase in immunoreactive cells in the dentate gyrus. Nearly all granule cells were immuno-positive for Cox-2, whereas the CA3 and hilus sectors showed no remarkable increase in immunoreactive cell numbers. In sham-operated animals exposed to long-term hypothermia - but not ischemia, Cox-2 staining profiles were similar to those in the control animals. These results suggest that, for a drastic increase in Cox-2 immunoreactive granule cells to occur within a short time period (4 h), at a minimum, both hypothermia and ischemia, are required. Considering the neuroprotective roles of the hypothermia, a rapid increase in Cox-2 in the dentate gyrus might be associated with this temperature-sensitive phenomenon.
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PMID:Hypothermic, but not normothermic, ischemia causes a drastic increase in cyclooxygenase-2 immunoreactive granule cells in rat dentate gyrus after 4 hours of ischemic reperfusion. 1807 88

The alpha7 nicotinic acetylcholine receptor (nAChR) plays an important role in cognitive processes and has generated recent interest as a potential drug target for treating neurodegenerative disorders such as Alzheimer's disease (AD). The property of Ca(2+) permeation associated with alpha7 nAChR agonism may lead to Ca(2+)-dependent intracellular signaling that contribute to the procognitive and neuroprotective effects that have been described with this pharmacology. In this study, we investigated whether alpha7 nAChR agonism leads to increased phosphorylation of the inhibitory regulating amino acid residue Ser-9 on GSK3beta, a major kinase responsible for tau hyperphosphorylation in AD neuropathology. Immunohistochemical analysis revealed that the selective alpha7 agonist A-582941 increased S(9)-GSK3beta phosphorylation in mouse cingulate cortex and hippocampus that was not observed in alpha7 nAChR knock-out mice. A-582941 steady state exposure through continuous (2 wk) infusion also increased S(9)-GSK3beta phosphorylation in the hippocampus of Tg2576 (APP), as well as wild-type mice. Moreover, A-582941 continuous infusion decreased phosphorylation of tau in hippocampal CA3 Mossy fibers and spinal motoneurons in a hypothermia-induced tau hyperphosphorylation mouse model and AD double transgenic APP/tau mouse line, respectively. These studies demonstrate that inactivation of GSK3beta may be associated with alpha7 nAChR-induced signaling leading to attenuated tau hyperphosphorylation, raising the intriguing possibility that alpha7 nAChR agonism may have disease modifying benefit in the treatment of tauopathies, in particular AD.
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PMID:Selective alpha7 nicotinic acetylcholine receptor activation regulates glycogen synthase kinase3beta and decreases tau phosphorylation in vivo. 1923 Aug 30

Mild hypothermia protects against neuronal damage after transient global ischemia in experimental animals. The exact mechanism of this protective effect remains to be elucidated. The purpose of the present study was to investigate the molecular mechanisms relevant to different neurologic responses to hypothermia and normothermia. Transient global ischemia was induced in C57BL/6 mice by bilateral common carotid artery occlusion for 10 min. Hypothermia provided robust neuroprotection in the hippocampus region and dramatically reduced the mortality rate. Using adaptor-tagged competitive polymerase chain reaction, we obtained the relative transcription levels of 1210 genes in the hippocampal region and compared the expression patterns of these genes. Two genes, Activity-regulated cytoskeleton-associated protein (Arc) and CUG-binding protein-2 (Cugbp2), showed remarkable and persistent increases in their expression levels in normothermic mice, compared with in both sham and hypothermic mice. Despite the increased transcription of Arc and Cugbp2, an immunohistochemistry analysis did not show comparable increases in the translations of both genes. Only a transient increase in Arc protein was observed in the granule cells of the dentate gyrus at 6 h after reperfusion. A remarkable decrease in Cugbp2 protein was observed in the pyramidal cells of the hippocampal CA1-CA3, in accordance with the progress of neuronal degeneration. A decrease in Cugbp2 protein was not observed in hypothermic mice. These results suggest that transient global ischemia induces the translational inhibition of genes with increased expression not in hypothermic, but in normothermic mice. Thus, translational inhibition might play an important role in the progress of neuronal injury after transient global ischemia.
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PMID:Transcriptional induction and translational inhibition of Arc and Cugbp2 in mice hippocampus after transient global ischemia under normothermic condition. 1955 13

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