UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Normal human fibroblasts grown in cell culture undergo a reversible growth arrest when incubated at 28 degrees C. During incubation at 28 degrees C, levels of p53 and p21 rise in these cells and cell cycle analysis shows that they have undergone a cell cycle arrest. To examine the importance of p53 in mediating this arrest, mouse embryo fibroblasts that are either wild-type or that are defective in p53 were also subjected to hypothermia. Only those cells with wild-type p53 undergo a cell cycle arrest, indicating that p53 has a role in mediating this response. Because many tumor cells have defective p53, this suggests that hypothermia may increase the selective toxicity of chemotherapeutic agents for tumor cells.
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PMID:Hypothermia causes a reversible, p53-mediated cell cycle arrest in cultured fibroblasts. 1036 42

Hypothermia improves resistance to ischemia in the cardioplegia-arrested heart. This adaptive process produces changes in specific signaling pathways for mitochondrial proteins and heat-shock response. To further test for hypothermic modulation of other signaling pathways such as apoptosis, we used various molecular techniques, including cDNA arrays. Isolated rabbit hearts were perfused and exposed to ischemic cardioplegic arrest for 2 h at 34 degrees C [ischemic group (I); n = 13] or at 30 degrees C before and during ischemia [hypothermic group (H); n = 12]. Developed pressure, the maximum first derivative of left ventricular pressure, oxygen consumption, and pressure-rate product (P < 0.05) recovery were superior in H compared with in I during reperfusion. mRNA expression for the mitochondrial proteins, adenine translocase and the beta-subunit of F1-ATPase, was preserved by hypothermia. cDNA arrays revealed that ischemia altered expression of 13 genes. Hypothermia modified this response to ischemia for eight genes, six related to apoptosis. A marked, near fivefold increase in transformation-related protein 53 in I was virtually abrogated in H. Hypothermia also increased expression for the anti-apoptotic Bcl-2 homologue Bcl-x relative to I but decreased expression for the proapoptotic Bcl-2 homologue bak. These data imply that hypothermia modifies signaling pathways for apoptosis and suggest possible mechanisms for hypothermia-induced myocardial protection.
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PMID:Hypothermic protection of the ischemic heart via alterations in apoptotic pathways as assessed by gene array analysis. 1196 Sep 75

This study investigated the effects of hypothermia on apoptosis-regulating proteins in a rat model of incomplete cerebral ischemia. Twenty-seven fasted male Sprague-Dawley rats (300-420 g) were anesthetized, intubated, and mechanically ventilated with 2.0% isoflurane and N(2)O/O(2) (FiO(2) = 0.33). Catheters were inserted and cerebral blood flow velocity was measured using bilateral laser Doppler flowmetry. At the end of preparation, the administration of isoflurane was replaced by fentanyl (25 microg. kg(-1). h(-1)). Animals were randomly assigned to one of the following groups: group 1 (n = 9, normothermia), normothermia (37.5 degrees C) during ischemia; group 2 (n = 9, hypothermia), 34 degrees C pericranial temperature during ischemia; and group 3 (n = 9, sham-operated animals), normothermia, no cerebral ischemia. Ischemia (30 minutes) was produced by unilateral common carotid artery occlusion plus hemorrhagic hypotension (mean arterial blood pressure 30-35 mm Hg). Arterial blood gas tensions and pH were maintained constant. Four hours after 30 minutes of incomplete cerebral ischemia, the brains were removed for determination of the expression of the apoptosis-regulating proteins Bax, Bcl-2, p53, and Mdm-2 using immunofluorescence and Western blot analysis. Four hours after cerebral ischemia there was a significant increase in the expression of the pro-apoptotic protein Bax in normothermic animals compared with hypothermic (85-260%) and sham-operated animals (60-190%). The proteins Bcl-2, p53, and Mdm-2 showed no statistically significant differences between the groups or between the hemispheres. In conclusion, hypothermia during ischemia decreased Bax protein expression that is associated with programed cell death. This suggests that neuroprotection seen with hypothermia may be related to a reduction of pro-apoptotic events.
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PMID:The effect of hypothermia on the expression of the apoptosis-regulating protein Bax after incomplete cerebral ischemia and reperfusion in rats. 1282 67

The effect of temperature on the development of sulphur mustard (HD)-induced toxicity was investigated in first passage cultures of human skin keratinocytes and on hairless guinea pig skin. When cells exposed to HD were incubated at 37 degrees C, a concentration-dependent decline in viability was observed that was maximal by 2 days. In contrast, no significant HD-induced toxicity was evident up to 4 days posttreatment when the cells were incubated at 25 degrees C. However, these protective effects were lost by 24 h when the cells were switched back to 37 degrees C. The protective effects of hypothermia were also demonstrated when apoptotic endpoints were examined. The HD concentration-dependent induction of fragmented DNA (as quantitated using soluble DNA and the TUNEL reaction), morphology, and p53 expression were all significantly depressed when cell cultures were incubated at 25 degrees C compared to 37 degrees C. When animals were exposed to HD vapour for 2, 4, and 6 min and left at room temperature, lesions were produced whose severity was dependent on exposure time and that were maximal by 72 h posttreatment. Moderate cooling (5-10 degrees C) of HD exposure sites posttreatment (4-6 h) significantly reduced the severity of the resultant lesions. However, in contrast to the in vitro results, these effects were permanent. It appears that the early and noninvasive act of cooling HD-exposed skin may provide a facile means of reducing the severity of HD-induced cutaneous lesions.
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PMID:Hypothermia reduces sulphur mustard toxicity. 1461 18

Paraplegia is a disastrous complication after operations of descending and thoracoabdominal aortic aneurysm. Regional hypothermia protects against spinal cord ischemia although the protective mechanism is not well know. The objective of this study is to examine whether hypothermia protects the spinal cord by preventing apoptosis of nerve cell and also investigate a possible mechanism involved in hypothermia neuroprotection. Cell apoptosis with necrosis was evident in the spinal cord 24 h after 30 min of ischemia. Moderate hypothermia decreased the incidence of apoptotic nerve cells. Both cell apoptosis and necrosis were attenuated by hypothermia. p53 expression increased and bcl-2 expression declined after ischemia, while hypothermia mitigated these changes. This study suggests that apoptosis contributes to cell death after spinal cord ischemia, and that moderate hypothermia can prevent nerve cell apoptosis by a mechanism associated with bcl-2 and p53 genes.
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PMID:Moderate hypothermia prevents neural cell apoptosis following spinal cord ischemia in rabbits. 1591 25

Mild hypothermia shows protective effects on patients with brain damage and cardiac arrest. To elucidate the molecular mechanisms underlying these effects, we examined the effects of low temperature (32 degrees C) on cells exposed to a variety of stress in vitro. We found that 32 degrees C suppressed induction of apoptosis by cytotoxic stimuli such as adriamycin, etoposide, thapsigargin, NaCl, H(2)O(2), and anti-Fas antibody. In adriamycin-treated BALB/3T3 cells, the down-shift in temperature from 37 degrees C to 32 degrees C increased the Bcl-xL protein level and decreased the mRNA level of Puma and mitochondrial translocation of Bax, suppressing caspase-9-mediated apoptosis. Furthermore, the protein level and stability of p53 were decreased, and its nuclear export was increased concomitant with Mdm2 mRNA upregulation. The low temperature effect was not observed in p53(-/-)/Mdm2(-/-) mouse embryonic fibroblasts, suggesting that the effect is mediated by suppression of the p53 pathway. In contrast, while thapsigargin-induced apoptosis was suppressed by the low temperature, no effect on the p53 protein level was observed. Furthermore, the survival rate of p53(-/-)/Mdm2(-/-) cells exposed to thapsigargin was increased when cultured at 32 degrees C compared with 37 degrees C. In conclusion, mild hypothermia protects cells from a variety of stress by p53-dependent and p53-independent mechanisms.
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PMID:Low temperature protects mammalian cells from apoptosis initiated by various stimuli in vitro. 1601 98

Ionizing radiation induced acute cell death in the dentate gyrus subgranular zone (SGZ) and the subventricular zone (SVZ). Hypomyelination was also observed. The effects of mild hypothermia and hyperthermia for 4 h after irradiation (IR) were studied in postnatal day 9 rats. One hemisphere was irradiated with a single dose of 8 Gy and animals were randomized to normothermia (rectal temperature 36 degrees C for 4 h), hypothermia (32 degrees C for 4 h) or hyperthermia (39 degrees C for 4 h). Cellular injury, e.g. chromatin condensation and nitrotyrosine formation, appeared to proceed faster when the body temperature was higher. Caspase-3 activation was more pronounced in the hyperthermia group and nuclear translocation of p53 was less pronounced in the hypothermia group 6 h after IR. In the SVZ the loss of nestin-positive progenitors was more pronounced (48%) and the size was smaller (45%) in the hyperthermia group 7 days post-IR. Myelination was not different after hypo- or hyperthermia. This is the first report to demonstrate that hypothermia may be beneficial and that hyperthermia may aggravate the adverse side-effects after radiation therapy to the developing brain.
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PMID:Progenitor cell injury after irradiation to the developing brain can be modulated by mild hypothermia or hyperthermia. 1608 99

Heat stroke-induced death is a major killer worldwide. Mice were subjected to acute heat stress by exposing them to whole-body hyperthermia (WBH) treatment and were used as a model to study heat stroke. Administration of L-arginine (L-arg, 120 mg/kg, i.p) 2 h after the cessation of WBH rescued the mice from heat-induced death and reduced the hypothermia. Heat shock protein 70 levels in the liver were increased significantly in heat-stressed mice administered L-arg compared with the heat-stressed group. WBH induced apoptosis, as indicated by DNA fragmentation, and increased levels of p53 and caspase-3 activity, which were significantly reduced by the administration of L-arg. The levels of inducible nitric oxide synthase in the liver, nitrite, and inflammatory cytokines like interleukin 1beta and tumor necrosis factor-alpha in the serum increased in WBH-treated mice. The levels of the above markers of heat stress significantly decreased in L-arg-treated mice. Kinin-B1 receptor (kinin-B1R) in cardiac tissue that is upregulated in heat stressed mice was significantly lower in L-arg-administered mice. These data suggest the potential use of L-arg, a nonessential amino acid that is used as an enteral diet supplement, to treat heat stroke-related injury when administered at the appropriate dose and time.
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PMID:Therapeutic treatment with L-arginine rescues mice from heat stroke-induced death: physiological and molecular mechanisms. 1620 19

Mild hypothermia, applied either during or soon after cerebral ischemia, has been shown to confer robust neuroprotection against brain injury in experimental stroke and in patients recovering from cardiac arrest. However, the mechanism underlying hypothermic neuroprotection is not completely understood. In this study, the effect of mild hypothermia on the induction of oxidative DNA damage, an early harmful event during post-ischemic reperfusion that triggers both necrotic and apoptotic cell death in the brain, was studied using the rat model of middle cerebral artery occlusion (MCAO) and reperfusion. Rats were subjected to 2-hr MCAO and reperfusion of various durations up to 3 days. Selective brain hypothermia (33 degrees C) was induced at the onset of ischemia and terminated at the beginning of reperfusion, and this significantly decreased infarct volume 72 hr later. Correlated with this protective effect, intraischemic mild hypothermia markedly attenuated the nuclear accumulations of several oxidative DNA lesions, including 8-oxodG, AP sites, and DNA single-strand breaks, after 2-hr MCAO. Consequently, harmful DNA damage-dependent signaling events, including NAD depletion, p53 activation, and mitochondrial translocation of PUMA and NOXA, were reduced during post-ischemic reperfusion in hypothermia-treated brains. These results suggest that the attenuation of oxidative DNA damage and DNA damage-triggered pro-death signaling events may be an important mechanism underlying the neuroprotective effect of mild hypothermia against ischemic brain injury.
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PMID:Mild hypothermia diminishes oxidative DNA damage and pro-death signaling events after cerebral ischemia: a mechanism for neuroprotection. 1712 18

Severe cardiac hypoxia is responsible for significant morbidity and mortality in an emergency setting. Most cardiac hypoxia relates to ischemia and surgical events. Although the ischemic mortality rate and the risks of cardiac surgery have significantly decreased in past decades, myocardial protection still plays a major role in survival of hypoxic injury. Cross adaptation as a physiological regulation for homeostasis can resist injury caused by harmful environmental effects and diseases, including hypothermic adaptation. Treatment with hypothermia has been used for fifty years as a protective mechanism to avoid hypoxic injury. Since cold temperatures can cause damage, it is important to gather physiological data to distinguish protective from injurious temperatures. Although results of temperature trials in clinical practice vary, a critical temperature to resist hypoxic/ischemic injury in heart was found to be around 30 degrees C, suggesting a hypothermia protective threshold. Pretreatment with mild hypothermia can resist subsequent hypoxia/ischemia, implying involvement of cross adaptation in protection. Safeguard hypothermia can directly reduce the build up of harmful metabolites and energy demand in hypoxic tissues, as well as preserve mitochondrial membrane specific proteins beta subunit of F1-ATPase and adenine nucleotide translocase isoform 1. Mechanisms of preservation include inactivation of the p53 related pathways, representing anti-apoptosis, and modification of the mRNA level of succinodehydrogenease, indicating a beneficial effect on the aerobic pathway. Stress proteins are also induced. Resultant cellular adaptations serve to maintain myocardial integrity and improve functional recovery during reoxygenation or reperfusion.
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PMID:Mild hypothermic cross adaptation resists hypoxic injury in hearts: a brief review. 1729 29

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