UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In contrast to its known anti-apoptotic activity in sympathetic neurons, immortal neuronal cell lines, and primary cultured immature neurons of the central nervous system (CNS), the role of Bcl-2 in CNS neurons in the adult brain is poorly understood. In the present study, we examined effects of overexpression of Bcl-2 on selective neuronal death of the hippocampal CA1 neurons and the dentate granule cells induced by hypoxic ischemia in adult transgenic mice overexpressing human Bcl-2 under the control of neuron-specific enolase (NSE-hbcl-2). At the light microscopic level, numbers of TUNEL-positive cells with pyknotic nuclei were observed in the CA1 subfield of NSE-hbcl-2 transgenic mice, as well as that of wild-type mice, after hypoxic ischemic insult, although the onset of neuronal death was apparently delayed in NSE-hbcl-2 transgenic mice. The electron microscopic studies showed that morphological changes of the degenerating CA1 neurons from both groups were clearly distinct from ordinary apoptosis. In contrast, a significant amount of degenerating dentate granule cells from wild-type but not from transgenic mice had typical apoptotic nuclei by the treatment. The activation of caspase-3 was detected in the dentate granule cells but not that of the CA1 neurons. These results indicate that the overexpression of Bcl-2 effectively suppressed dentate granule cell apoptosis but only delayed cell death of the CA1 neurons induced by hypoxic ischemia, suggesting the occurrence of a non-apoptotic, caspase-3-independent mechanism for neuronal death in the CA1 subfield.
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PMID:Differential effects of Bcl-2 overexpression on hippocampal CA1 neurons and dentate granule cells following hypoxic ischemia in adult mice. 1039 30

If permanent focal ischemia is induced by middle cerebral artery occlusion (MCAO), neurons within the infarcted territory die by necrosis and apoptosis (or programmed cell death). We have previously shown, using a mouse strain transgenic (tg) for the nerve growth factor (NGF) gene, that tg mice have consistently smaller infarcted areas than wild-type (wt) animals, correlated with upregulated NGF synthesis and impaired apoptotic cell death. We studied, in wt and tg mice subjected to MCAO, the activities of several antioxidant enzymes and the synthesis of the proteins of the Bcl-2 family. Our results show that the antiapoptotic Bcl-2 protein and glutathione peroxidase are recruited after MCAO. NGF-tg mice also had an intrinsic resistance to oxidative stress because their basal copper zinc superoxide dismutase (SOD) and glutathione transferase activities were high. Additionally, manganese SOD activity increased in NGF-tg mice after MCAO, correlating strongly with the resistance of these mice to apoptosis.
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PMID:Reduction of ischemic damage in NGF-transgenic mice: correlation with enhancement of antioxidant enzyme activities. 1040 7

We have shown that physiological levels of estradiol exert profound protective effects on the cerebral cortex in ischemia induced by permanent middle cerebral artery occlusion. The major goal of this study was to begin to elucidate potential mechanisms of estradiol action in injury. Bcl-2 is a proto-oncogene that promotes cell survival in a variety of tissues including the brain. Because estradiol is known to promote cell survival via Bcl-2 in non-neural tissues, we tested the hypothesis that estradiol decreases cell death by influencing bcl-2 expression in ischemic brain injury. Furthermore, because estradiol may protect the brain through estrogen receptor-mediated mechanisms, we examined expression of both receptor subtypes ERalpha and ERbeta in the normal and injured brain. We analyzed gene expression by RT-PCR in microdissected regions of the cerebral cortex obtained from injured and sham female rats treated with estradiol or oil. We found that estradiol prevented the injury-induced downregulation of bcl-2 expression. This effect was specific to bcl-2, as expression of other members of the bcl-2 family (bax, bcl-x(L), bcl-x(S), and bad) was unaffected by estradiol treatment. We also found that estrogen receptors were differentially modulated in injury, with ERbeta expression paralleling bcl-2 expression. Finally, we provide the first evidence of functional ERbeta protein that is capable of binding ligand within the region of the cortex where estradiol-mediated neuroprotection was observed in cerebral ischemia. These findings indicate that estradiol modulates the expression of bcl-2 in ischemic injury. Furthermore, our data suggest that estrogen receptors may be involved in hormone-mediated neuroprotection.
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PMID:Estradiol modulates bcl-2 in cerebral ischemia: a potential role for estrogen receptors. 1041 67

Ischemia and reperfusion injure the heart, as manifested by myocardial infarction, postischemic ventricular functional dysfunctions, arrhythmias, and cardiomyocyte apoptosis. Hearts can be adapted to ischemic-reperfusion injury by subjecting them to non-lethal cyclic episodes of short-term ischemia and reperfusion. The adapted myocardium becomes resistant to subsequent lethal ischemic injury. Reactive oxygen species and oxidative stress play crucial roles in the pathophysiology of ischemic-reperfusion injury. The adapted hearts, when subjected to subsequent ischemia and reperfusion, generate a reduced amount of oxygen free radicals compared to the nonadapted hearts. The number of cardiomyocytes undergoing apoptotic cell death is reduced in the adapted hearts subjected to ischemia and reperfusion. In concert, the adapted myocardium is associated with increased antioxidant gene Bcl-2, increased binding activity of the nuclear transcription factor NF kappa B, and reduced binding activity of AP-1 compared to nonadapted hearts. Yet when nonadapted hearts are subjected to ischemia and reperfusion, Bcl-2 is down-regulated while NF kappa B is moderately upregulated and AP-1 is significantly upregulated.
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PMID:Differential regulation of apoptosis by ischemia-reperfusion and ischemic adaptation. 1041 50

Neuronal death after brain ischemia is mainly due to necrosis but there is also evidence for involvement of apoptosis. To test the importance of apoptosis, we investigated the effect of targeted disruption of the apoptosis-suppressive gene bcl-2 on the severity of ischemic brain injury. Transient focal ischemia for 1 hour was induced by occlusion of the middle cerebral artery in homozygous (n=7) and heterozygous (n=6) bcl-2 knockout mice as well as in their wildtype littermates (n=5). Bcl-2 ablation did not influence cerebral blood flow but it significantly increased infarct size and neurological deficit score at 1 day after reperfusion in a gene-dose dependent manner. The exacerbation of tissue damage in the absence of Bcl-2 underscores the importance of apoptotic pathways for the manifestation of ischemic injury after transient vascular occlusion.
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PMID:Targeted disruption of the bcl-2 gene in mice exacerbates focal ischemic brain injury. 1048 13

The outcome of myocardial ischemia-reperfusion has been partially attributed to the degree of apoptosis in cardiomyocytes. Aggregating platelets by release of transforming growth factor-beta(1) (TGF-beta(1)) protect the isolated heart against ischemia-reperfusion injury and preserve myocardial TGF-beta(1) content. To gain more insight into the modulation of hypoxia-reoxygenation-induced injury (apoptosis and necrosis) to myocytes by TGF-beta(1) and aggregating platelets, cultured adult rat myocytes were exposed for 48 or 72 h to hypoxia alone, or to hypoxia followed by 3 h of reoxygenation. Apoptosis in the cells was determined by in situ terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling staining and DNA fragmentation on gel electrophoresis. Hypoxia alone caused a time-dependent increase in myocyte apoptosis (number of apoptotic cells: 19+/-3% at 48 h and 39+/-5% at 72 h compared with 5+/-1% in control cells, based on a 500-cell count). Three hours of reoxygenation after 48 h of hypoxia further increased the number of apoptotic cells (34+/-8 versus 19+/-3% in hypoxia for 48 h), but reoxygenation after 72 h of hypoxia did not additionally increase the number of apoptotic cells, perhaps because of extensive cell necrosis on prolonged hypoxia. Forty-eight hours of hypoxia followed by 3 h of reoxygenation also resulted in a decrease in Bcl-2 and an increase in Fas protein level. Incubation of myocytes with either recombinant TGF-beta(1) (0.5-5 ng/ml) or aggregated platelet supernatant (from 2-3 x10(7) platelets/ml, containing approximately 0.5 ng/ml of TGF-beta(1)) markedly (P<.01) decreased the number of apoptotic cells after hypoxia-reoxygenation. Incubation with TGF-beta(1) also reduced myocyte necrosis as evident from lactate dehydrogenase release and trypan blue dye exclusion. These data demonstrate that hypoxia-reoxygenation results in apoptosis and necrosis in cultured adult rat myocytes; this can be attenuated by TGF-beta(1). Similarity of data with TGF-beta(1) and aggregated platelet supernatant suggests that platelet-mediated cardioprotection during hypoxia-reoxygenation may relate in part to the release of TGF-beta(1).
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PMID:Hypoxia-reoxygenation-induced apoptosis in cultured adult rat myocytes and the protective effect of platelets and transforming growth factor-beta(1). 1052 94

A short period of ischemia and reperfusion, called ischemic preconditioning, protects various tissues against subsequent sustained ischemic insults. We previously showed that apoptosis of hepatocytes and sinusoidal endothelial cells is a critical mechanism of injury in the ischemic liver. Because caspases, calpains, and Bcl-2 have a pivotal role in the regulation of apoptosis, we hypothesized that ischemic preconditioning protects by inhibition of apoptosis through down-regulation of caspase and calpain activities and up-regulation of Bcl-2. A preconditioning period of 10 minutes of ischemia followed by 15 minutes of reperfusion maximally protected livers subjected to prolonged ischemia. After reperfusion, serum aspartate transaminase (AST) levels were reduced up to 3-fold in preconditioned animals. All animals subjected to 75 minutes of ischemia died, whereas all those who received ischemic preconditioning survived. Apoptosis of hepatocytes and sinusoidal endothelial cells, assessed by in situ TUNEL assay and DNA fragmentation by gel electrophoresis, was dramatically reduced with preconditioning. Caspase activity, measured by poly (adenosine diphosphate ribose) polymerase (PARP) proteolysis and a specific caspase-3 fluorometric assay, was inhibited by ischemic preconditioning. The antiapoptotic mechanism did not involve calpain-like activity or Bcl-2 expression because levels were similar in control and preconditioned livers. In conclusion, ischemic preconditioning confers dramatic protection against prolonged ischemia via inhibition of apoptosis through down-regulation of caspase 3 activity, independent of calpain-like activity or Bcl-2 expression.
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PMID:Ischemic preconditioning protects the mouse liver by inhibition of apoptosis through a caspase-dependent pathway. 1053 44

Apoptosis is associated with acute rejection, transplant vascular disease, and the "Quilty effect" in cardiac allografts. However, the causality and mechanisms of apoptosis in the pathogenesis of vascular injury are poorly understood. In the current study, the Lewis-to-F344 rat cardiac allograft model was utilized as a means to immunohistochemically evaluate the expression of Bax, Bcl-2, and factor VIII-related antigen in transplant vascular disease. Apoptosis was detected by in situ labeling of fragmented DNA using in situ terminal deoxyribonucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) in native hearts and grafted hearts of allogeneic and syngeneic recipients. Bax immunostaining was detected in 50% of endothelial cells, in 60% of infiltrating leukocytes associated with acute rejection in the myocardium, and in certain other parenchymal cells, considering all cardiac allografts. More than 75% of infiltrating leukocytes in the intima of vessel walls immunostained positive for Bax. Bcl-2 immunopositivity was not detected in native hearts, allo allo-, or syngrafts. On Days 2, 4, 7, and 14 after transplantation, TUNEL positivity was detected in only about 1% of leukocytes in the interstitial infiltrates, despite the fact that rather severe rejection was observed in Day 14 allografts. The number of apoptotic leukocytes increased significantly by Days 28 and 56 after transplantation, although the severity of histopathological rejection did not increase as compared with Day 14. The apoptotic leukocytes remained isolated or in small clusters, mainly perivascular. TUNEL positivity colocalized with Bax expression in these cells. TUNEL staining was also observed in certain parenchymal cells in the interstitium and in randomly distributed inflammatory cells in vessel walls. TUNEL positivity was detected in rare luminal endothelial cells in transverse sections of vessel walls (about 10% of cells in <1/10 of the vessels studied). Nuclear TUNEL positivity was observed in Bax-negative cardiomyocytes in ischemically damaged areas of myocardium in both allografts and syngrafts. In summary, increased expression of Bax was observed in rat cardiac allografts. The colocalization of TUNEL and Bax suggests that endothelial cell injury and infiltrating leukocyte apoptosis may be regulated in part by the apoptosis-promoting protein, Bax. In the current model, myocyte death due to ischemia and surgical injury in syngrafts and allografts does not seem to involve Bax.
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PMID:Bax and apoptosis in acute and chronic rejection of rat cardiac allografts. 1061 13

Cytochrome c was detected by immunoblotting in the cytosolic fraction 3 h after 5-min ischemia in the non-ischemia-tolerant CA1 region in which about 96% of neurons had developed delayed neuronal death, while less cytosolic cytochrome c was detected in the ischemia-tolerance-induced CA1 region where many more neurons survived. In the immunohistochemical study using anti-non-native cytochrome c monoclonal antibody, immunoreactivity was observed throughout the cytoplasm in the non-ischemia-tolerant CA1 neurons, but not in the normal and ischemia-tolerant CA1 neurons. Then we determined whether Bcl-2, Bax, Bcl-xL and Bcl-xS, which regulate the release of cytochrome c from mitochondria, were altered in the ischemia-tolerant CA1 region. Bcl-2 and Bax were up-regulated in the ischemia-tolerant group, but Bcl-xL and Bcl-xS showed no apparent difference in their expression. These results suggest that cytochrome c release is prevented in CA1 neurons in gerbils in which ischemia-tolerance had been induced and that the altered ratio of Bcl-2 to Bax may play a part in this mechanism.
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PMID:Cytochrome c release from mitochondria to the cytosol was suppressed in the ischemia-tolerance-induced hippocampal CA1 region after 5-min forebrain ischemia in gerbils. 1064 99

Mitochondrial Ca2+ sequestration likely contributes to cell death in excitotoxicity and ischemia reperfusion injury, and may also be involved in chronic forms of neurodegeneration in which a compromise in bioenergetic function alters cellular Ca2+ homeostasis. Bcl-2 overexpression is known to protect against Ca(2+)-mediated death; the mechanism of protection remains unresolved. Our data of the ability of Bcl-2 to potentiate mitochondrial Ca2+ uptake capacity and resistance to Ca(2+)-induced damage is discussed in light of current information on apoptotic signaling pathways.
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PMID:Ca(2+)-mediated mitochondrial dysfunction and the protective effects of Bcl-2. 1067 27

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