Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rats within the early maintenance phase of post-ischemic acute renal failure (ARF) can resist additional ischemic insults. This study assessed whether this protection exists directly at the tubular cell level, and if so, whether it is a consequence of prior cell injury (for example, due to heat-shock protein synthesis; HSP), or if it arises in response to reductions in functional renal mass and/or the uremic environment. Rats were subjected to either 15 or 35 minutes of unilateral or bilateral renal ischemia, and after 15 minutes to 24 hours of reflow, proximal tubular segments (PTS) were isolated for study. Their viability following oxygenation and hypoxic/reoxygenation injury (H/R) was tested (LDH release). The influence of uremia/reduced renal mass was determined by studying PTS extracted 24 hours after 1 1/2 nephrectomy, and by determining whether PTS exposure to a "uremic milieu" (urine addition) blocks H/R damage. HSP effects were gauged by correlating renal cortical HSP-70 expression with degrees of in vitro protection, and by ascertaining whether in vivo hyperthermia (42 degrees C; 15 min) mitigates subsequent PTS H/R damage. Results were compared with those obtained from normal PTS. The in vivo experimental protocols did not substantially alter PTS isolation or their viability during oxygenation. Fifteen minutes of ischemia induced neither azotemia nor PTS cytoprotection. In contrast, 35 minutes of ischemia conferred marked protection against subsequent H/R, but only when azotemia was permitted to develop (protection seen after 24 hr, but not at 4 hr of reflow; protection abrogated by retention of 1 normal kidney). Renal failure in the absence of tubular necrosis (1 1/2 uninephrectomy) protected PTS from H/R damage.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Post-ischemic acute renal failure protects proximal tubules from O2 deprivation injury, possibly by inducing uremia. 793 24

We report here the time-dependent expression of several classes of HSP mRNAs following focal cerebral ischemia in rats. HSP70, GRP78, HSP27, HSP90 and HSP47 have been reported to possess distinct functions under normal and/or stress conditions. These different classes of HSP mRNAs were differentially induced by ischemia, as determined by Northern blot analysis. Messenger RNAs of the HSP70 family proteins were induced within 4 h after ischemia and then rapidly decreased, whereas HSP27 and HSP47 mRNAs reached a maximum level of expression at 24 h and 48 h after ischemic treatment, respectively. In situ hybridization showed that the expression of inducible HSP70 mRNA was observed predominantly in regions adjacent to the ischemic core except during the early periods of ischemia. HSP27 mRNA was expressed over a broad area of the ipsilateral cerebral neocortex except for the ischemic center 24 h after ischemia. The unique induction kinetics for each HSP mRNA species may reflect their distinct roles in the brain during various physiological stresses. We will also discuss that stress proteins may be involved in the central nervous system after ischemia in two important aspects: early protection against stress and restoration of damaged lesions in the brain at later stages after ischemia.
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PMID:Differential induction of mRNA species encoding several classes of stress proteins following focal cerebral ischemia in rats. 795 88

Heat stress provides protection against mechanical dysfunction and myocardial necrosis after prolonged ischemia. We have investigated whether this protection extends to reperfusion arrhythmias occurring after a short (non-lethal) ischemic insult. Anaesthetized open chest rats were subjected to a 5-min occlusion of the left coronary artery. The incidence and duration of reperfusion arrhythmias and the duration of sinus rhythm were assessed in the first 5 min of reperfusion. Prior heat stress led to a reduction in the incidence (100-63%, P < or = 0.05) and duration (66.2 +/- 15.8 to 9.4 +/- 2.9 s, P < or = 0.05) of ventricular tachycardia and a non-significant reduction in the incidence (76-50%) and duration (74.3 +/- 23.4 to 42.9 +/- 24.4 s, P = 0.09) of ventricular fibrillation. This resulted in a significant increase in the duration of sinus rhythm (142.1 +/- 27.6 to 216.7 +/- 24.8 s, P < or = 0.05) and reduction in arrhythmia score (P < or = 0.05) in heat stressed rats compared with controls. This protection against reperfusion arrhythmias was associated with a two-fold increase in endogenous catalase activity and expression of the inducible heat stress protein HSP 70. Inhibition of catalase with pre-administered 3-amino triazole resulted in a paradoxical protection in both sham and heat stress hearts. We conclude that heat stress leads to protection against reperfusion arrhythmias; however, we have been unable to resolve whether the changes in catalase activity or HSP expression are the mediators of the demonstrated cardioprotection.
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PMID:The protective effect of heat stress against reperfusion arrhythmias in the rat. 815 65

The heat-shock response refers to specific reversible changes in cellular metabolism that impart a protective effect on individual cells, as well as entire organisms, against subsequent noxious stimuli. Our objective was to quantify skeletal muscle injury following an ischemic event in a rat model by measuring levels of adenosine triphosphate and creatine phosphate. The animals were divided into two experimental groups. Animals in group 1 (n = 15) were subjected to limb ischemia alone, and animals in group 2 (n = 15) were treated with heat-shock conditioning prior to the onset of ischemia. Skeletal muscle specimens also were examined ultrastructurally by electron microscopy. Levels of creatine phosphate were higher in skeletal muscle obtained from animals in group 2. Mean levels of creatine phosphate +/- SEM for groups 1 and 2 were 1.12 +/- 0.06 mumol/gm and 1.95 +/- 0.11 mumol/gm, respectively (p < 0.0001). This represents 18.4 and 31.9 percent of baseline nonischemic levels for groups 1 and 2, respectively (p < 0.0001). Adenosine triphosphate levels were measured in skeletal muscle samples from a subset of animals in each experimental group, group 1 (n = 6) and group 2 (n = 5), and were not significantly different. Electron microscopy demonstrated mitochondrial changes consistent with ischemic injury in group 1, but only nonspecific changes were noted in specimens from group 2. The presence of the primary 72-kDa heat-shock protein (HSP 72) was confirmed only in those animals treated by heat-shock conditioning. We conclude that prior stress conditioning using the heat-shock response confers significant biochemical and ultrastructural protection against ischemic injury in rat skeletal muscle.
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PMID:Reduction of skeletal muscle injury through stress conditioning using the heat-shock response. 817 Nov 44

It was recently reported that in rats exposure to heat shock leads to appearance of a myocardial heat shock protein (HSP 70) and to an increase in myocardial catalase activity. This correlated with an improvement in post-ischemic function either in Langendorff-perfused hearts after low-flow ischemia or in working hearts after short-term, no-flow ischemia. We investigated the effect of the same hyperthermic treatment on functional recovery from no-flow ischemia of various durations in isolated working rat hearts performing at high or low external workloads. Rats were heated to core temperature of 42 degrees C for 15 min. No significant protein oxidation (% oxidized methionine) was observed 2.5 hr after treatment. A protein with migration characteristics similar to HSP 70 was observed in hearts of heat shocked rats 24 hr after this treatment while their myocardial catalase activity was not increased. Hearts of similarly treated rats were excised 24 hr after hyperthermia and perfused in a working mode with Krebs-Henseleit buffer (1.25 mM Ca2+, 11 mM glucose). At 15 cm H2O preload and 100 cm H2O afterload after 30 min no-flow ischemia, control hearts recovered to 36.9%, 2%, 47.6%, and 21.5% of the preischemic values of heart rate-peak systolic pressure product (RPP), aortic output, coronary flow, and cardiac output, respectively. After only 25 min of ischemia the respective recovered values were 61.6%, 11.5%, 58.7%, and 33.5%. Throughout the recovery period these hemodynamic values were consistently higher in hearts of heat shocked animals than in those of control hearts but the differences were not statistically significant.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of catalase in myocardial protection against ischemia in heat shocked rats. 817 41

In situ hybridization and Northern blot analysis were used to characterize the mRNA expression of alpha-tubulin, a neuroprotein crucial for neuronal structural and functional restoration, in comparison to that of the stress inducible heat shock protein-70 (HSP-70), in the same gerbil brain following 10 min of forebrain ischemia. The HSP-70 expression was noted in the dentate granule layer 1 h postischemia (PI) and became prominent in all pyramidal cell fields of the hippocampus in addition to the dentate layer at 6 h PI. The induction of HSP-70 persisted in CA1 and CA2 regions and partly in dentate gyrus for up to the 1 day PI period examined. There was no significant HSP-70 expression in any of the regions of the nonischemic or 15 min PI brain. alpha-Tubulin, on the other hand, was expressed in all pyramidal fields of the hippocampus as well as dentate gyrus in nonischemic controls. A decline was noted in the CA1 region 1 h PI onward and was maximal at 6 h PI. Its expression, however, increased at 24 h PI (significant only in comparison to 15 min and 6 h PI but not to control) when it became rather strong in the dentate gyrus. Thus, the temporal pattern of expression of alpha-tubulin sharply contrasted with that of HSP-70 in the PI brain as it declined in the vulnerable CA1 region during the 1st 24 h PI, i.e., the period when HSP-70 was induced and its expression was lowest in the 6 h group when HSP-70 peaked. It was maximum in the dentate gyrus at 24 h PI when HSP-70 was marginally detectable in that region. These studies indicate that in early recirculation period following prolonged ischemia, HSP-70 mRNA is expressed in both vulnerable regions as well as in regions of the brain that are destined to survive while alpha-tubulin is diminished in vulnerable regions. These data suggest a positive correlation between the loss of alpha-tubulin mRNA and delayed neuronal necrosis that follows in the vulnerable CA1 region.
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PMID:Comparison of alpha-tubulin mRNA and heat shock protein-70 mRNA in gerbil brain following 10 min of ischemia. 825 74

Stressful stimuli such as heat, oxidative stress, heavy metals, and tissue trauma induce the expression of a family of proteins commonly referred to as stress proteins or heat shock proteins. The functions of these proteins are varied but include glycolysis, antioxidant defense, and several postulated "chaperone" functions involving the folding, unfolding, and translocation of other proteins. Heme oxygenase, the enzyme that catalyzes the degradation of heme to biliverdin, is also heat inducible and is, therefore, a heat shock protein. In the kidney, ischemia has been observed by several investigators to induce expression of the more commonly studied heat shock proteins HSP 70 and HSP 72. In addition, exposure of the kidney to myoglobin after glycerol injection induced heme oxygenase. The purpose of this study was to determine whether heme oxygenase is expressed as a stress protein after renal ischemia. Renal ischemia was induced in rats after right nephrectomy by clamping the renal artery for 40 minutes. Gene expression was evaluated after 60 minutes to 96 hours of postischemic reperfusion. There was essentially no expression of heme oxygenase at any of the time points evaluated. The absence of heme oxygenase expression was in striking contrast to the prompt and dramatic expression of HSP 70. This finding is consistent with the concept that all "stress proteins" are not equivalent and that, although there is considerable overlap between heat-sensitive gene promoters and oxidant stress-sensitive gene promoters, there is specificity for the type of stimulus that is able to activate any given stress protein gene.
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PMID:Heme oxygenase is not expressed as a stress protein after renal ischemia. 840 10

HSP-70 was induced in the gerbil following 20 min of forebrain ischemia. The induction, as revealed with immunohistochemistry, is stronger and longer-lasting in CA3 and dentate gyrus than in CA1. Most neurons in this region, except GABAergic interneurons containing the calcium-binding protein parvalbumin, eventually cease to live as a result of delayed cell death. Double-labeling of inducible HSP-70 and parvalbumin has shown that no co-localization occurs in the hippocampus and neocortex of the gerbil in this model of transient forebrain ischemia. These results show that different thresholds of sensitivity and vulnerability exist for different subpopulations of neurons in the ischemic hippocampus, and suggest that HSP-70 protein induction is probably not essential for the survival of particular neuronal subpopulations subjected to transient ischemia.
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PMID:Survival of parvalbumin-immunoreactive neurons in the gerbil hippocampus following transient forebrain ischemia does not depend on HSP-70 protein induction. 854 18

The purpose of this study was to evaluate the protective effect of a new endotoxin analogue, monophosphoryl lipid A (MLA) in a rabbit model of myocardial ischemia/reperfusion and to show if this protection was mediated via synthesis of 70 kDa heat shock protein (HSP 70). Three groups of New Zealand White rabbits underwent 30 min coronary occlusion, followed by 4 hours reperfusion. First group of rabbits (n = 6) were treated with 0.35 ml vehicle (40 % propylene glycol, 10 % ethanol in water). The second and third group of rabbits (n = 6-8) were treated with MLA (35 micrograms/kg, i.v.) 12 and 24 hours prior to ischemia and reperfusion. MLA treatment either 12 or 24 h prior to ischemia/reperfusion demonstrated significantly reduced infarct size (12.5 +/- 1.7 and 14.7 +/- 2.1% for 12 and 24 h) when compared with vehicle control (40.4 +/- 8.6%, mean +/- S.E.M, p < 0.05). No significant differences in the infarct size was observed between the 12 and 24 h MLA treated groups. The area at risk was not significantly different between the three groups. Baseline values of heart rate, systolic and diastolic blood pressure were not significantly different between the control and MLA treated groups. However, the systolic as well as diastolic blood pressure during reperfusion were significantly lower in rabbits treated with MLA. Western blot analysis of the protein extracts of the hearts (n = 2/group) demonstrated no increase in the expression of the inducible form of HSP 70 following treatment with MLA. We conclude that MLA has significant anti-infarct effect in rabbit which is not mediated by the cardioprotective protein HSP 70. The anti-infarct effect of this drug is superior to the reported protective effects of delayed ischemic or heat stress preconditioning. We hypothesize that the pharmacologic preconditioning afforded by MLA is accomplished via a unique pathway that bypasses the usual intracellular signaling pathways which lead to the myocardial protection with the expression of heat shock proteins.
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PMID:Monophosphoryl lipid A induces pharmacologic 'preconditioning' in rabbit hearts without concomitant expression of 70-kDa heat shock protein. 870 70

Pretreatment by a sublethal insult is associated with induction of stress proteins and with protection from subsequent injury. Heat pretreatment protects the brain from subsequent ischemia, and is shown here to protect primary astrocyte cultures from subsequent oxygen-glucose deprivation. To determine whether the expression of a single stress protein, HSP-70, could account for much of this protection, we expressed HSP-70 or beta-galactosidase in astrocytes using retroviral vectors. Only 12% of astrocytes expressing HSP-70 died after 7 hours of oxygen-glucose deprivation compared to 65% of astrocytes expressing beta-galactosidase and 82% of normal astrocytes. Our data provide direct evidence that selective expression of HSP-70 enhances the survival of astrocytes challenged with heat or oxygen-glucose deprivation.
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PMID:Over-expression of HSP-70 protects astrocytes from combined oxygen-glucose deprivation. 873 Jul 98


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