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)

Two redox-sensitive transcription factors, AP-1 and NF-kappaB, have been implicated in the regulation of apoptosis induced by myocardial ischemia and reperfusion. Hearts adapted to ischemic stress by cyclic episodes of short durations of ischemia and reperfusion attenuate apoptotic cell death. This study was designed to examine the pattern of expression of these transcription factors and the redox sensitive transacting molecule, AP-1, NF-kappaB, and- Bcl-2, during ischemia/ reperfusion and myocardial adaptation to ischemia. NF-kappaB binding activity was low in nonischemic control heart. Fifteen minutes of ischemia resulted in translocation of NF-kappaB from cytosol to nucleus followed by activation. The binding activity of NF-kappaB was further enhanced after 60 min of ischemia. An even higher degree of NF-kappaB binding was noticed in the ischemically adapted myocardium. In contrast, AP-1 binding activity was highest for the hearts subjected to 15 min of ischemia followed by 2 hr of reperfusion. AP-1 binding was higher in the ischemically adapted heart as compared to the control. The Bcl-2 gene, which was found to be present in the control hearts, had lowered expression after 15 min of ischemia and 2 hr of reperfusion. Significant upregulation of Bcl-2 mRNA was noticed in the ischemically adapted hearts. Apoptotic cardiomyocytes were found only in the hearts that were reperfused for at least 90 min. No apoptosis occurred in hearts subjected up to 1 hr of ischemia or ischemic adaptation. Prolonged reperfusion, and not ischemia up to 1 hr, can induce cardiomyocyte apoptosis. In concert, ischemic/reperfusion increases the nuclear binding of both AP-1 and NF-kappaB, but downregulates Bcl-2 gene. Ischemic adaptation attenuates apoptotic cell death, further increases NF-kappaB binding activity and Bcl-2 gene induction, but reduces AP-1 binding activity. These results suggest that AP-1, NF-kappaB, and Bcl-2 are differentially regulated by ischemia/reperfusion and ischemic adaptation.
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PMID:Redox regulation of NF-kappaB and AP-1 in ischemic reperfused heart. 1122 43

Ischemic preconditioning (IPC) refers to the ability of short periods of ischemia to make the myocardium more resistant to a subsequent ischemic insult. It is the most powerful form of endogenous protection against myocardial infarction and has been demonstrated in all species evaluated to date. However, the cellular mechanisms that drive IPC remain poorly understood. This hypothesis describes an important role for alpha(1)-adrenoreceptors in mediating IPC and discusses the underlying mechanisms by which this is likely achieved. alpha(1)-Adrenoreceptors are present in the myocardium of all mammalian species, and several lines of evidence suggest that they play an important role in mediating IPC. During periods of myocardial hypoxia/ischemia, cardiomyocytes have to rely solely on anaerobic glycolysis for energy production; for this, the cells have to depend on increased glucose entry inside the cell as well as increased glycolysis. Stimulation of alpha(1)-adrenoreceptors increases glucose transport inside the cardiomyocytes by translocating glucose transporter (GLUT)-1 and GLUT-4 from the cytoplasm to the plasma membrane, enhances glycogenolysis by activating phosphorylase kinase, increases the rate of glycolysis by activating the enzyme phosphofructokinase, reduces intracellular acidity produced during excessive glycolysis by activating the Na(+)/H(+) exchanger, and inhibits apoptosis by increasing the levels of the antiapoptotic protein Bcl-2. Myocardial ischemia produces an increase in the expression of alpha(1)-adrenoreceptors in cardiomyocytes, as well as increases the levels of its agonist norepinephrine by several fold. During ischemic states, upregulation of alpha(1)-adrenoreceptors and increase in norepinephrine release could be a powerful adaptive mechanism that drives IPC. An understanding into the role of alpha(1)-adrenoreceptors in mediating IPC could not only point to newer treatments for limiting myocardial damage during myocardial infarction or heart surgery, but could also help in avoiding the use of alpha(1)-antagonists in patients with ischemic heart disease.
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PMID:Protecting the myocardium from ischemic injury: a critical role for alpha(1)-adrenoreceptors? 1129 92

To test whether the antiapoptotic protein Bcl-2 prevents apoptosis and injury of cardiomyocytes after ischemia-reperfusion (I/R), we generated a line of transgenic mice that carried a human Bcl-2 transgene under the control of a mouse alpha-myosin heavy chain promoter. High levels of human Bcl-2 transcripts and 26-kDa Bcl-2 protein were expressed in the hearts of transgenic mice. Functional recovery of the transgenic hearts significantly improved when they were perfused as Langendorff preparations. This protection was accompanied by a threefold decrease in lactate dehydrogenase (LDH) released from the transgenic hearts. The transgenic mice were subjected to 50 min of ligation of the left descending anterior coronary artery followed by reperfusion. The infarct sizes, expressed as a percentage of the area at risk, were significantly smaller in the transgenic mice than in the nontransgenic mice (36.6 +/- 5 vs 69.9 +/- 7.3%, respectively). In hearts subjected to 30 min of coronary artery occlusion followed by 3 h of reperfusion, Bcl-2 transgenic hearts had significantly fewer terminal deoxynucleodidyl-transferase nick-end labeling-positive or in situ oligo ligation-positive myocytes and a less prominent DNA fragmentation pattern. Our results demonstrate that overexpression of Bcl-2 renders the heart more resistant to apoptosis and I/R injury.
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PMID:Overexpression of Bcl-2 attenuates apoptosis and protects against myocardial I/R injury in transgenic mice. 1129 36

Ischemia-induced oxidative damage to the reperfused kidney was examined. A modified chemiluminescence method, an in situ nitro blue tetrazolium perfusion technique, and a DNA fragmentation/apoptosis-related protein assay were adapted for demonstration de novo and co-localization of reactive oxygen species (ROS) production and apoptosis formation in rat kidneys subjected to ischemia/reperfusion injury. The results showed that prolonged ischemia potentiated proapoptotic mechanisms, including increases in the Bax/Bcl-2 ratio, CPP32 expression, and poly-(ADP-ribose)-polymerase fragments, and subsequently resulted in severe apoptosis, including increases in DNA fragmentation and apoptotic cell number in renal proximal tubules (PT) and distal tubules (DT) in a time-dependent manner. The increased level of ROS detected on the renal surface was correlated with that in blood and was intensified by a prolonged interval of ischemia. The main source of ROS synthesis was the PT epithelial cells. The ROS and apoptotic nuclei detected in the PT cells can be ameliorated by superoxide dismutase (SOD) treatment before reperfusion. However, the apoptotic nuclei remained in DT in the SOD-treated rats, indicating that formation of apoptosis in DT was not influenced by the small amounts of ROS produced. In PT and DT cell cultures, significant increases in apoptotic cells and ROS were evident in PT cells after hypoxia/reoxygenation insult. Furthermore, the oxidative damage in PT, but not in DT, can be alleviated by ROS scavengers SOD and hexa(sulfobutyl)fullerene, confirming that PT are vulnerable to ROS. These results lead us to conclude that ROS produced in significant amounts in PT epithelium under ischemia/reperfusion or hypoxia/reoxygenation conditions may be responsible for the apoptotic death of these cells.
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PMID:De novo demonstration and co-localization of free-radical production and apoptosis formation in rat kidney subjected to ischemia/reperfusion. 1131 56

Reperfusion after myocardial ischemia is associated with a rapid influx of calcium, leading to activation of various enzymes including calpain. Isolated perfused adult rabbit hearts subjected to global ischemia and reperfusion were studied. Calpain or a calpain-like activity was activated within 15 min after reperfusion, and preconditioning suppressed calpain activation. In contrast, caspase activation was not detected although cytochrome c was released after ischemia and reperfusion. The pro-apoptotic BH3-only Bcl-2 family member, Bid, was cleaved during ischemia/reperfusion in the adult rabbit heart. Recombinant Bid was cleaved by calpain to a fragment that was able to mediate cytochrome c release. The calpain cleavage site was mapped to a region within Bid that is extremely susceptible to proteolysis. These findings suggest that there is cross-talk between apoptotic and necrotic pathways in myocardial ischemia/reperfusion injury.
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PMID:Bid is cleaved by calpain to an active fragment in vitro and during myocardial ischemia/reperfusion. 1140 57

Bax is a pro-apoptotic Bcl-2 family protein that regulates programmed cell death through homodimerization and through heterodimerization with Bcl-2. Bax alpha is encoded by six exons and undergoes alternative splicing. Bax kappa, a splice variant of Bax with conserved BH1, BH2 and BH3 binding domains and a C-terminal transmembrane domain (TM), but with an extra 446-bp insert between exons 1 and 2 leading to loss of an N-terminal ART domain, was identified from an ischemic rat brain cDNA library. Expression of Bax kappa mRNA and protein was up-regulated in hippocampus after cerebral ischemic injury. The increased Bax kappa mRNA was distributed mainly in selectively vulnerable hippocampal CA1 neurons that are destined to die after global ischemia. Overexpression of Bax kappa protein in HN33 mouse hippocampal neuronal cells induced cell death, which was partially abrogated by co-overexpression of Bcl-2. Moreover, co-overexpression of Bax kappa and Bax alpha increased HN33 cell death. The results suggest that the Bax kappa may have a role in ischemic neuronal death.
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PMID:Bax kappa, a novel Bax splice variant from ischemic rat brain lacking an ART domain, promotes neuronal cell death. 1141 34

Hepatocyte growth factor (HGF) was originally discovered as a powerful mitogen for hepatocytes. HGF also has been reported to function as a neurotrophic factor as well as an angiogenetic factor. The present study examined the neuroprotective effect of HGF against transient focal cerebral ischemia in rats, in which an anti-apoptotic and an angiogenetic effect of HGF was assumed to contribute to the reduction of the infarct volume. The intraventricular administration of human recombinant HGF prevented neuronal death after 120 min of occlusion in the right middle cerebral artery and the bilateral common carotid arteries. HGF significantly reduced the infarct volume in a dose-dependent manner. In a separate series of experiments, we next histopathologically investigated both the anti-apoptotic effect on neurons and the angiogenetic effect of HGF. A large number of TUNEL positive neurons were observed in the inner boundary of the infarct area in both the control and the vehicle group whereas only a few TUNEL positive neurons were observed in the corresponding area in the HGF group. In the HGF group, Bcl-2 protein was obviously represented in surviving neurons subjected to ischemia. The number of the vascular lamina in HGF group were significantly higher than those in the vehicle group. These data suggest that HGF appears to have an ability to prevent apoptotic neuronal cell death while also possessing an angiogenetic effect in the central nervous system which was affected with transient focal cerebral ischemia.
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PMID:Hepatocyte growth factor reduces the infarct volume after transient focal cerebral ischemia in rats. 1142 24

Myocardial apoptosis is primarily triggered during reperfusion (R). The aim of this study was to test the hypothesis that R-induced apoptosis develops progressively during the late phase of R, and that R-induced apoptosis is associated with changes in expression of anti- and pro-apoptotic proteins and infiltrated inflammatory cells. Thirty-one dogs were subjected to 60 min of left anterior descending coronary occlusion followed by 6, 24, 48, and 72 h R, respectively. There was no group difference in collateral blood flow, measured by colored microspheres during ischemia. Necrotic cell death (TTC staining) was significantly increased during R, starting at 27 +/- 2% at 6 h R and increasing to 41 +/- 2% at 24 h R. There was no further change at 48 (37 +/- 3%) and 72 (36 +/- 6%) h R, respectively. TUNEL positive cells (% total normal nuclei) in the peri-necrotic zone progressively increased from 6 (26 +/- 2) to 24 (38 +/- 1), 48 (48 +/- 3) and 72 (59 +/- 4) h R, respectively. The number of detected TUNEL positive cells at these time points was consistent with an increased intensity of DNA ladders, identified by agarose gel electrophoresis. Compared with normal tissue, western blot analysis showed persistent reduction in expression of anti-apoptotic protein Bcl-2 from 6 (16 +/- 0.8%) to 72 h R (78 +/- 2%), and increase in expression of pro-apoptotic proteins including Bax from 6 (30 +/- 3%) to 72 h R (66 +/- 3%), and p53 from 6 (12 +/- 1%) to 72 h R (91 +/- 2%), respectively. Immunohistochemical staining revealed that infiltrated neutrophils (mm(2) myocardium) were significantly correlated with development of necrotic and apoptotic cell death from 6 to 24 h R, respectively (P < 0.05), while large macrophage infiltration seen during 48 to 72 h R were correlated with apoptotic cell death (P < 0.05). These results indicate that 1) necrosis peaked at 24 h R when apoptosis was still progressively developing during later R; 2) changes in Bcl-2 family and p53 proteins may participate in R-induced myocardial apoptosis; 3) inflammatory cells may play a role in triggering cell death during R. P < 0.05 vs. normal nuclei and tissue; P < 0.01 vs. 6 h R.
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PMID:Progressively developed myocardial apoptotic cell death during late phase of reperfusion. 1144 70

To clarify the mechanism of ischemic tolerance induced by HBO, we investigated the effect of HBO on immunoreactivity to Bcl-2 and Bax, apoptosis-regulating protein, or Mn-SOD, a radical scavenging system, in the CA1 sector of the gerbil hippocampus. Pretreatment comprising, five sessions at 2 ATA (atmosphere absolute) every other day, but not that comprising, ten sessions at 3 ATA every day, caused significant increases in Bcl-2 and Mn-SOD immunoreactivity in the CA1 sector compared with in the sham pretreatment group. No significant differences in Bax immunoreactivity and neuronal density in the CA1 hippocampal neurons was observed between the groups. These results suggest that protection against mitochondrial alterations after ischemia through Mn-SOD and/or Bcl-2 expression is related to the ischemic tolerance induced by repeated HBO pre-treatment.
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PMID:Mn-SOD and Bcl-2 expression after repeated hyperbaric oxygenation. 1145 26

Hepatocyte growth factor (HGF) was originally discovered as a powerful mitogen for hepatocytes. HGF functions both as a neurotrophic factor as well as an angiogenetic factor. Furthermore, HGF has an anti-apoptotic effect on vascular endothelial cells. The present study examined the neuroprotective effect of HGF after transient focal cerebral ischemia in rats, in which an anti-apoptotic and an angiogenetic effect of HGF was assumed to contribute to the reduction of the infarct volume. The intraventricular administration of human recombinant HGF (90 micrograms) significantly reduced the infarct volume after 120 minutes occlusion of both the right middle cerebral artery (MCA) and the bilateral common carotid arteries (CCAs). In a separate series of experiments, we investigated both the anti-apoptotic effect on neurons and the angiogenetic effect of HGF histopathologically. The number of survival neurons and vascular lumina in the HGF group were significantly higher than those in the vehicle group. A large number of TUNEL positive neurons were observed in the inner boundary of the infarct area in the vehicle group, whereas only a few TUNEL positive neurons were observed in a corresponding area in the HGF group. In the HGF group, Bcl-2 protein was obviously represented in survival neurons as well as in vascular endothelial cells and in glial cells subjected to ischemia. These data suggest that HGF prevents apoptotic neuronal cell death by upregulating the production of Bcl-2 protein and by an angiogenetic effect in the central nervous system which affected transient focal cerebral ischemia.
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PMID:Hepatocyte growth factor reduces infarct volume after transient focal cerebral ischemia in rats. 1145 33


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