Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The effect of dexmedetomidine, a selective alpha2-adrenoreceptor agonist and neuroprotective agent on the expression of immediate early genes and heat shock protein hsp70, was studied using quantitative in situ hybridization in a global ischemia model. At the dose previously shown to be neuroprotective dexmedetomidine inhibited the expression of c-fos and hsp70 mRNA, did not affect jun-B mRNA, and enhanced the induction of NGFI-A mRNA in the postischemic gerbil hippocampus. The reduced gene expression of c-fos and hsp70 was detected in the CA1 pyramidal cells which are prone to ischemic degeneration, whereas the increased gene expression of NGFI-A was measured from the CA3 and dentate gyrus, areas relatively resistant to ischemia. These alterations in early gene expression possibly reflect the mechanisms mediating the neuroprotective effects of alpha2-adrenoreceptor agonists.
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PMID:Alpha2-adrenoreceptor agonist, dexmedetomidine, alters acute gene expression after global ischemia in gerbils. 930 90

Transient middle cerebral artery occlusion in rats leads to infarction of the lateral part of the striatum and adjacent neocortex, with selective neuronal necrosis in the bordering penumbral zones. Administration of glutamate, cytokine, and leukocyte antagonists have rescued mainly neocortical neurons, indicating differences in the degenerative processes. The aim of this study was, therefore, to describe the microglial/macrophage activation and polymorphonuclear leukocyte recruitment patterns and to correlate these with the ischemia-induced degenerative processes. The analysis showed significant differences in the characteristics and timing of the microglial/macrophage responses between the caudate putamen and neocortical infarct zones, the infarct zones and their associated penumbral zones, as well as between the striatal and the neocortical penumbral zone. Infiltrations with polymorphonuclear leukocytes into the infarct zones were limited and shortlasting and confined to the acutely degenerating striatum and piriform cortex. A delayed, massive infiltration with lipid phagocytes into the caudate putamen infarct markedly contrasted an early recruitment and activation of microglia/macrophages in the adjacent penumbra. Within the neocortex, a later onset of degeneration along the insular-parietal axis was marked by neuronal expression of heat shock protein and a progressive microglial activation with induction of the full repertoire of microglial activation markers, including a widespread microglial major histocompatibility complex (MHC) class II antigen expression. We interpret the present results as delineating two differentially progressing penumbral zones, which are likely to reflect differences in the underlying degenerative processes. Differences in the microglial/macrophage activation pattern attract special attention, as these cells may constitute specific targets for therapeutic intervention.
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PMID:Microglial and macrophage reactions mark progressive changes and define the penumbra in the rat neocortex and striatum after transient middle cerebral artery occlusion. 930 29

Heat shock protects against myocardial ischemia-reperfusion injury possibly via increased expression of heat shock proteins. The direct evidence of heat shock protein protection in vivo remains circumstantial, and no other new mechanism of protection has been proposed. Recent studies suggest that opening of ATP-sensitive K+ channels (KATP channels) plays an important role in ischemic preconditioning; however, it is not known whether this channel is also important in delayed protection conferred by heat shock. Anesthetized rabbits underwent heat shock treatment by raising core temperature to 42 degrees C for 15 min. Twenty-four hours later, the animals were reanesthetized and subjected to regional ischemia-reperfusion. The specific KATP channel blockers glibenclamide (0.3 mg/kg i.p.) and sodium 5-hydroxydecanoate (5HD; 5 mg/kg i.v.) were used to block the channel function. The drugs were administered at two different times, either pre-heat stress or preischemia. Infarct size was determined by triphenyltetrazolium chloride staining. The 72-kDa heat shock protein (HSP 72) was measured by Western blots. Our results show that heat shock produced a marked reduction in infarct size (39.4 +/- 8.1 to 14.3 +/- 2.5% of risk area, P < 0.05). Glibenclamide and 5HD completely abolished heat shock-induced reduction in infarct size (42.3 +/- 0.32 and 33.7 +/- 4.8%) when given before ischemia-reperfusion; however, these antagonists failed to block protection when administered before the onset of heat shock. Furthermore, the enhanced expression of HSP 72 in heat shock groups was not diminished by glibenclamide or 5HD, suggesting a lack of a direct role of this protein in conferring cardiac protection by heat shock. The complete blockade of cardiac protection by glibenclamide and 5HD strongly suggests that opening of this channel is a very important component of heat shock-induced ischemic protection in rabbit hearts.
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PMID:ATP-sensitive potassium channel mediates delayed ischemic protection by heat stress in rabbit heart. 937 85

The precise mechanism of the cardioprotective effect of ischemic preconditioning (IPC) is still unclear, although various mechanisms have been suggested, including activation of ATP-dependent potassium (KATP) channels by adenosine and protein kinase C as well as increased expression of heat shock protein (HSP). Increasing evidence suggests that lactate, which accumulates during IPC periods, can activate several of these "triggers" of preconditioning. We tested whether repeated exposure to lactate, producing tissue lactate concentrations similar to those during brief ischemic periods, could contribute to IPC benefits. Five isolated rat hearts were subjected to a previously reported IPC protocol composed of two 5-min ischemia-reperfusion cycles; another five hearts served as controls; and six hearts underwent a "lactate-preconditioning" protocol, consisting of two 5-min exposures to 15 mM lactate and two 5-min periods of reflow with a lactate-free buffer. Subsequently all hearts underwent 30 min of normothermic, total ischemia followed by 30 min of reflow at a constant perfusion pressure of 80 mmHg (1 mmHg = 133.3 Pa). Lactate exposure resulted in tissue lactate levels similar to those during ischemia in ischemia-preconditioned hearts (10.5 +/- 0.6 versus 10.5 +/- 1.2 mumol/g wet weight, mean +/- SEM). However, the recovery of left ventricular developed pressure (DevP) following 30 min of total ischemia was significantly higher in the IPC hearts than in either the control or lactate-exposed hearts, reaching 56.8 +/- 3.4, 14.2 +/- 6.8, and 9.5 +/- 3.6%, respectively, of the baseline values. There was no significant difference between lactate-preconditioned and control hearts. End-diastolic pressure (EDP) was significantly lower during reperfusion in IPC hearts than in lactate-exposed and control hearts, with no significant differences between the latter two groups (36.2 +/- 3.5, 82.0 +/- 2.9, and 81.2 +/- 8.5 mmHg, respectively). In contrast with the proposed hypothesis, repeated, transient lactate exposure resulting in tissue lactate levels similar to ischemic preconditioning did not improve contractile recovery after a prolonged ischemic period in this model.
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PMID:Repeated, transient lactate exposure does not "precondition" rat myocardium. 943 52

Brain ischemia causes a large variety of cellular and tissular disturbances that can lead to cerebral infarction. A lack of glucose and oxygen supply that is constantly needed for normal brain function produces a lesion becoming more severe as the duration of the ischemic period increases. Experimental models allow to examine the effect of permanent versus transient ischemia with reperfusion. Cellular and tissular ischemic disturbances can, to a certain extent, be separated from those occurring at reperfusion. Ischemia causes severe and at times non-recoverable alterations, suggesting that minimizing the duration of ischemia by favoring recanalization would be clinically desirable. However, many alterations occurring at reperfusion time do also favor lesion progression. Certain surviving neurons at the penumbra region can become affected during reperfusion as the infarct progresses. Reperfusion injury seems to offer a comparatively larger window for therapeutical intervention aimed to protect cells from death. Several postischemic changes such as alteration of cell membranes, induction of heat shock protein (Hsp70) and protein synthesis inhibition are considered here, together with putative pharmacological treatments directed to reduce or arrest postischemic lesion progression.
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PMID:[Cell membrane alterations and protein synthesis in experimental models of cerebral ischemia: pharmacological implications in the treatment of ischemic disease]. 947 Nov 79

The cellular response to a wide variety of stresses results in the synthesis of a family of stress response proteins termed heat shock proteins. Recent studies have demonstrated that heat shock proteins produced in response to an initial stress seem to protect against subsequent unrelated stresses. Importantly, hyperthermia-induced heat shock proteins provided protection from ischemia/reperfusion injury in several organ transplantation models. We hypothesized that free musculocutaneous flap survival could be improved by enhancing the flap's tolerance to relative ischemia by the prior induction of heat shock proteins. Accordingly, we determined the heat shock protein response in skin and muscle after systemic or local heating and examined the effect on free musculocutaneous flap survival in a rat model. Free musculocutaneous flaps incorporating thigh adductor muscles and a 2 x 6-cm2 skin paddle were transplanted to the ipsilateral groin in three groups of male Wistar rats. Systemically heated rats (n = 6) were anesthetized and incubated for 30 minutes at 42 degrees C 6 hours before free musculocutaneous tissue transfer. Locally heated rats (n = 6) were anesthetized, and their donor site anterior thigh was placed for 30 minutes on a heating block set at 44 degrees C 6 hours before free tissue transfer. Control rats (n = 5) did not have heating pretreatment but underwent identical anesthesia. Animals were sacrificed on postoperative day 3, at which time skin loss (cm2) and muscle viability, quantified by nitroblue tetrazolium staining time, were assessed in a blinded fashion. The skin and muscle from the free flap were analyzed for HSP72 mRNA and protein using quantitative Northern and Western blot techniques. All free musculocutaneous flaps were viable. However, the locally and systemically heated rats demonstrated a marked improvement of skin survival, which correlated with increased skin levels of HSP72. There were no differences in nitroblue tetrazolium muscle staining times or muscle levels of HSP72 among the three groups. These findings suggest that prior heat-induced heat shock proteins result in improvement in musculocutaneous flap survival, which may have direct clinical applications, especially in high-risk patients.
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PMID:Improved free musculocutaneous flap survival with induction of heat shock protein. 991 13

The prognostic value of ubiquitin levels in cerebrospinal fluid (CSF) was studied in human global brain ischemia (anoxic-ischemic encephalopathy). Twenty four samples were collected from 13 patients who were resuscitated from cardio-pulmonary arrest and survived for at least 1 day. The outcome was classified according to the Glasgow Outcome Scale (GOS1-5). The ubiquitin levels (normal: 14.3 +/- 1.1 ng/ml, mean +/- S.E.M.) in neurologically symptomatic patients (GOS1-4) were 151 +/- 32.5 ng/ml on day 1-2 and elevated to 1,960 +/- 849 ng/ml on day 3-4. The Spearman's rank correlation of ubiquitin levels on day 3-4 and the GOS was -0.855, showing a better correlation than CSF neuron-specific enolase levels (r = -0.846). Ubiquitin is a heat shock protein associated with the degradation of abnormal cellular proteins. Thus, the elevation of CSF ubiquitin levels represents both its overproduction by a cytoprotective response to brain ischemia and its leakage from the damaged tissue. The present study suggests that the measurement of CSF ubiquitin level is useful for the early prognostic assessment of global brain ischemia.
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PMID:[An increase in cerebrospinal fluid ubiquitin in human global brain ischemia--a prognostic marker for anoxic-ischemic encephalopathy]. 950 64

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

Since the first documentation of the induction of heat shock protein following transient cerebral ischemia, much experimental evidence suggested that all of the cellular elements in the central nervous system show dynamic stress responses depending on the degree of environmental changes induced by ischemia and reperfusion. In this review, first I focused on the importance of the usage of an appropriate experimental model for brain ischemia and reperfusion, and I presented our work on mouse models of transient global and focal ischemia. Next, I reviewed the pathogenic role of microvascular stasis (i.e., secondary ischemia) caused by the primary ischemic event and demonstrated the important role of cell adhesion molecules through the experiments using ICAM-1 knock-out mouse as a model of brain ischemia/reperfusion. Thirdly, I discussed the ischemia-induced neuronal cell responses in relation to the apoptosis-like selective neuronal death and the induction of adopted stress responses including stress protein synthesis and 'ischemic tolerance' phenomenon. A variety of stress proteins induced by ischemic stress have been reviewed and a pivotal role of tyrosine kinase system in selective neuronal death has been suggested in the gerbil model of transient forebrain ischemia. Finally, I showed the important pathophysiological roles of glial cells such as astrocytes and oligodendrocytes in the cellular cross-talk triggered by an ischemic event. For the development of a novel therapeutic agent against ischemic stroke, it is quite important to clarify both the negative and positive cellular responses induced by brain ischemia/reperfusion.
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PMID:[Dynamic cellular response following brain ischemia and reperfusion]. 955 67

Brain ischemia produces morphologic and biochemical alterations in astrocytes. This mini-review summarizes astrocytic responses to brain ischemia including our studies on the neuronal and astrocytic Na(+)-Ca2+ exchanger (NCX). NCX is considered to cause Ca2+ efflux (forward mode) or Ca2+ influx (reverse mode), depending on the electrochemical gradient of Na+ across the plasma membranes and membrane potential. We demonstrated that NCX is present in cultured neurons and astrocytes and that there are differences in their properties and distribution ratio of the isoforms between neurons and astrocytes. We also found that Ca2+ depletion followed by reperfusion with Ca(2+)-containing medium caused cell death in cultured astrocytes (Ca2+ paradox-like injury), but not in neurons. The study, carried out by the use of a specific antisense oligomer, provides direct evidence that Ca2+ paradox-like injury is mediated by NCX in the reverse mode. The injury was attenuated by inhibitors of the Na(+)-Ca2+ exchanger, heat shock protein and the calcineurin inhibitor FK506. In a preliminary experiment, we found that brain ischemia decreases the mRNA level of NCX in the hippocampus. Further studies on activation and cell injury of astrocytes will contribute to development of new drugs that modulate the function of astrocytes.
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PMID:[Response of Na+/Ca2+ antiporter to ischemia and glial/neuronal death]. 955 68


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