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)

Accumulating evidence strongly suggests that apoptosis contributes to neuronal cell death in a variety of neurodegenerative contexts. Activation of the cysteine protease caspase-3 appears to be a key event in the execution of apoptosis in the central nervous system (CNS). As a result, mice null for caspase-3 display considerable neuronal expansion usually resulting in death by the second week of life. At present, 14 caspase family members have been identified and subdivided into three subgroups on the basis of preference for specific tetrapeptide motifs using a positional scanning combinatorial substrate library. Caspase-3 is a group II member (2, 3, 7) categorized by an absolute substrate requirement for aspartic acid in the P4 position of the scissile bond. The preferred cleavage motif (DExD) for group II caspases is found in many structural, metabolic and repair proteins essential for cellular homeostasis. Consistent with the proposal that apoptosis plays a central in role human neurodegenerative disease, caspase-3 activation has recently been observed in stroke, spinal cord trauma, head injury and Alzheimer's disease. Indeed, peptide-based caspase inhibitors prevent neuronal loss in animal models of head injury and stroke suggesting that these compounds may be the forerunners of non-peptide small molecules that halt apoptosis processes implicated in these neurodegenerative disorders. A clear link between an hereditary neurodegenerative disorder and failed caspase inhibition has recently been proposed for spinal muscular atrophy (SMA). In severe SMA, the neuronal specific inhibitor of apoptosis (IAP) family member known as NAIP is often dysfunctional due to missense and truncation mutations. IAPs such as NAIP potently block the enzymatic activity of group II caspases (3 and 7) suggesting that NAIP mutations may permit unopposed developmental apoptosis to occur in sensory and motor systems resulting in lethal muscular atrophy. Conversely, adenovirally-mediated overexpression of NAIP or the X-linked IAP called XIAP reduces the loss of CA1 hippocampal neurons following transient forebrain ischemia. Taken together, these findings suggest that anti-apoptotic strategies may some day have utility in the treatment of neurodegenerative disease. The present review will summarize some of the recent evidence suggesting that apoptosis inhibitors may become a practical therapeutic approach for both acute and chronic neurodegenerative conditions.
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PMID:Neuroprotection by the inhibition of apoptosis. 1076 48

The aim of this study was to determine whether hypoxic-ischemia from asphyxial cardiac arrest activates brain caspases-1 and -3, and the anti-apoptotic protein, XIAP. Asphyxial cardiac arrest in rats was used to induce hypoxic-ischemia. A pan-caspase inhibitor (zVAD) was given in the treatment group. At 72 h after reperfusion, caspase-3 and XIAP expression were present in multiple vulnerable brain regions, whereas caspase-1 was predominantly found in the CA1 hippocampus. zVAD significantly reduced expression of caspases and XIAP and the number of ischemic neurons in the CA1 hippocampus while neurological deficit scores were improved. We conclude that hypoxic-ischemia increases caspases-1 and-3, and XIAP expression. Treatment with zVAD significantly decreases caspase and XIAP expression in these brain regions and improves neurological outcome.
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PMID:Regulation of caspases and XIAP in the brain after asphyxial cardiac arrest in rats. 1172 87

Focal ischemia by middle cerebral artery occlusion (MCAO) results in necrosis at the infarct core and activation of complex signal pathways for cell death and cell survival in the penumbra. Recent studies have shown activation of the extrinsic and intrinsic pathways of caspase-mediated cell death, as well as activation of the caspase-independent signaling pathway of apoptosis in several paradigms of focal cerebral ischemia by transient MCAO to adult rats and mice. The extrinsic pathway (cell-death receptor pathway) is initiated by activation of the Fas receptor after binding to the Fas ligand (Fas-L); increased Fas and Fas-L expression has been shown following focal ischemia. Moreover, focal ischemia is greatly reduced in mice expressing mutated (nonfunctional) Fas. Increased expression of caspase-1, -3, -8, and -9, and of cleaved caspase-8, has been observed in the penumbra. Activation of the intrinsic (mitochondrial) pathway following focal ischemia is triggered by Bax translocation to and competition with Bcl-2 and other members of the Bcl-2 family in the mitochondria membrane that is followed by cytochrome c release to the cytosol. Bcl-2 over-expression reduces infarct size. Cytochrome c binds to Apaf-1 and dATP and recruits and cleaves pro-caspase-9 in the apoptosome. Both caspase-8 and caspase-9 activate caspase-3, among other caspases, which in turn cleave several crucial substrates, including the DNA-repairing enzyme poly(ADP-ribose) polymerase (PARP), into fragments of 89 and 28 kDa. Inhibition of caspase-3 reduces the infarct size, further supporting caspase-3 activation following transient MCAO. In addition, caspase-8 cleaves Bid, the truncated form of which has the capacity to translocate to the mitochondria and induce cytochrome c release. The volume of brain infarct is greatly reduced in Bid-deficient mice, thus indicating activation of the mitochondrial pathway by cell-death receptors following focal ischemia. Recent studies have shown the mitochondrial release of other factors; Smac/DIABLO (Smac: second mitochondrial activator of caspases: DIABLO: direct IAP binding protein with low pI) binds to and neutralizes the effects of the X-linked inhibitor of apoptosis (XIAP). Finally, apoptosis-inducing factor (AIF) translocates to the mitochondria and the nucleus following focal ischemia and produces peripheral chromatin condensation and large-scale DNA strands, thus leading to the caspase-independent cell death pathway of apoptosis. Delineation of the pro-apoptotic and pro-survival signals in the penumbra may not only increase understanding of the process but also help to rationalize strategies geared to reducing brain damage targeted at the periphery of the infarct core.
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PMID:Signaling of cell death and cell survival following focal cerebral ischemia: life and death struggle in the penumbra. 1272 25

Ubiquitin is thought to be a stress protein that plays an important role in protecting cells under stress conditions; however, its precise role is unclear. Ubiquitin expression level is controlled by the balance of ubiquitinating and deubiquitinating enzymes. To investigate the function of deubiquitinating enzymes on ischemia-induced neural cell apoptosis in vivo, we analyzed gracile axonal dystrophy (gad) mice with an exon deletion for ubiquitin carboxy terminal hydrolase-L1 (UCH-L1), a neuron-specific deubiquitinating enzyme. In wild-type mouse retina, light stimuli and ischemic retinal injury induced strong ubiquitin expression in the inner retina, and its expression pattern was similar to that of UCH-L1. On the other hand, gad mice showed reduced ubiquitin induction after light stimuli and ischemia, whereas expression levels of antiapoptotic (Bcl-2 and XIAP) and prosurvival (brain-derived neurotrophic factor) proteins that are normally degraded by an ubiquitin-proteasome pathway were significantly higher. Consistently, ischemia-induced caspase activity and neural cell apoptosis were suppressed approximately 70% in gad mice. These results demonstrate that UCH-L1 is involved in ubiquitin expression after stress stimuli, but excessive ubiquitin induction following ischemic injury may rather lead to neural cell apoptosis in vivo.
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PMID:Role of ubiquitin carboxy terminal hydrolase-L1 in neural cell apoptosis induced by ischemic retinal injury in vivo. 1469 19

Nine-day-old transgenic XIAP overexpressing (TG-XIAP) and wild-type mice were subjected to left carotid artery ligation and 10% O(2) for 60 min, leading to widespread infarctions in the ipsilateral hemisphere during reperfusion. The activation of caspase-3 and -9 seen in wild-type animals was virtually abolished in TG-XIAP mice. Tissue loss was significantly reduced from 54.4 +/- 4.1 mm(3) (mean +/- SEM) in wild-type mice to 33.1 +/- 2.1 mm(3) in the TG-XIAP mice. Injured neurons displayed stronger XIAP staining during reperfusion, particularly in the nuclei. XIAP was colocalized with XAF-1, Smac, and HtrA2 in injured neurons after hypoxia-ischemia (HI). XIAP was cleaved after HI, and Smac immunoprecipitation co-precipitated a 25-kDa C-terminal fragment of XIAP, indicating that Smac preferentially bound to cleaved XIAP. These findings provide the first evidence that increased XIAP levels protect the neonatal brain against HI.
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PMID:X-linked inhibitor of apoptosis (XIAP) protein protects against caspase activation and tissue loss after neonatal hypoxia-ischemia. 1520 75

Erythropoietin (EPO) is upregulated by hypoxia and causes proliferation and differentiation of erythroid progenitors in the bone marrow through inhibition of apoptosis. EPO receptors are expressed in many tissues, including the kidney. Here it is shown that a single systemic administration of EPO either preischemia or just before reperfusion prevents ischemia-reperfusion injury in the rat kidney. Specifically, EPO (300 U/kg) reduced glomerular dysfunction and tubular injury (biochemical and histologic assessment) and prevented caspase-3, -8, and -9 activation in vivo and reduced apoptotic cell death. In human (HK-2) proximal tubule epithelial cells, EPO attenuated cell death in response to oxidative stress and serum starvation. EPO reduced DNA fragmentation and prevented caspase-3 activation, with upregulation of Bcl-X(L) and XIAP. The antiapoptotic effects of EPO were dependent on JAK2 signaling and the phosphorylation of Akt by phosphatidylinositol 3-kinase. These findings may have major implications in the treatment of acute renal tubular damage.
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PMID:Erythropoietin protects the kidney against the injury and dysfunction caused by ischemia-reperfusion. 1528 11

We investigated the expression of XIAP (X chromosome-linked inhibitor of apoptosis protein) and Smac/DIABLO, a newly identified mitochondrial apoptogenig molecule in the hippocampus following transient global ischemia. Transient global ischemia produced by two-vessel occlusion triggers the delayed neuronal death of CA1 neurons in the hippocampus. We demonstrate that CA1 neuronal loss induced by ischemia (10 min) is preceded by a selective and marked elevation of catalytically active caspase-3 in these neurons, indicative of apoptosis. XIAP (X chromosome-linked inhibitor of apoptosis protein) is a member of the inhibitor of apoptosis (IAP) gene family that, in addition to suppressing cell death by inhibition of caspases, is involved in an increasing number of signalling cascades. The present study shows alterations in the levels of XIAP and of Smac/DIABLO (second mitochondrial activator of caspase) after cerebral ischemia. The protein levels of XIAP and the number of XIAP-positive cells were regulated by cerebral ischemia in a strictly time and region dependent manner. The largest change in XIAP-IR was observed in the CA1 sub field, which is the most vulnerable area of hippocampus. The mitochondrial expression level of Smac/DIABLO increased during reperfusion. Smac/DIABLO expression was associated with alteration of the XIAP levels and the appearance of activated form of caspase-3 within the hippocampus during reperfusion in spatial and temporal manners.
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PMID:Regulation of XIAP and Smac/DIABLO in the rat hippocampus following transient forebrain ischemia. 1556 14

Recent advances in clinical islet transplantation have allowed patients with type 1 diabetes to become insulin independent, but the procedure is limited since islets from two donors per recipient are typically required. This limitation arises because within a few days of the islets being embolized into the portal circulation, at least half of the transplanted beta-cells have undergone apoptotic cell death triggered by hypoxic and chemokine/cytokine-mediated stress. We hypothesized that the survival of beta-cells in the early post-transplant period would be enhanced if naturally occurring inhibitor of apoptosis proteins (IAPs) were transiently overexpressed in the grafts. In the present study, we used a growth-regulatable beta-cell line (betaTC-Tet) as a model for beta-cells within islets, and examined whether adenovirally delivered XIAP (X-linked IAP-a highly potent IAP) could enhance beta-cell survival. In vitro, XIAP-expressing betaTC-Tet cells were markedly resistant to apoptosis in an ischemia-reperfusion injury model system and following exposure to cytokines. When Ad-XIAP transduced betaTC-Tet cells were transplanted subcutaneously into immunodeficient mice, the grafts were able to reverse diabetes in 3 days, vs. 21 days for Ad-betaGal transduced cells. This approach may allow more efficient use of the limited existing supply of human islets.
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PMID:XIAP overexpression in islet beta-cells enhances engraftment and minimizes hypoxia-reperfusion injury. 1588 33

Apoptotic cell death occurs in neurons after cerebral ischemia. To investigate the molecular basis of this mechanism of cell death, we explored the expression and localization of Smac/DIABLO, a newly identified mitochondrial apoptogenic molecule, and XAF1, a recently identified antagonist of XIAP anti-caspase activity in the rat brain following focal ischemia. Transient focal cerebral ischemia was produced for 90 min in rats. We observed changes in the expression of Smac, XAF1, and XIAP during reperfusion. The expression level of Smac/DIABLO was negligible under normal conditions and was moderately increased by 6-24 h reperfusion on both immunohistochemical and Western blotting levels. In opposition to the orthodox method of Western blotting employing electrophoretic analysis and homogenization, the immunohistochemical investigations of XIAP provided spatial information. Immunohistochemical analysis showed that the subcellular localization of XIAP became more extensive within cells during reperfusion, as compared with the normal state. Under normal conditions, XIAP was localized predominantly in the cytoplasm and the perinuclear region. However, at 6, 12, 24, and 48 h post-reperfusion, XIAP exhibited a diffuse distribution, including nuclear and cytoplasmic compartments. Interestingly, the expression of XAF1 exhibited significant changes during reperfusion. XAF1 expression was increased and there was a cellular redistribution with a nuclear localization in the post-ischemic phase by 6-24 h. XAF1 expression apparently enhances neuronal susceptibility to degeneration either by suppressing the ability of XIAP to complex with caspases or by sequestering XIAP in nuclear inclusions. These finding indicate that Smac/DIABLO, XAF1, and XIAP are implicated in the pathophysiological mechanisms of reperfusion injury.
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PMID:Induction and redistribution of XAF1, a new antagonist of XIAP in the rat brain after transient focal ischemia. 1590 97

The aim of this study was to investigate the role of apoptosis or necrosis in the development of delayed infarct, and the relationship between the level of XIAP gene, caspase-3 activation and ischemic cell death following transient focal cerebral ischemia. Adult male Sprague-Dawley rats underwent right middle cerebral artery occlusion (MCAo) for 50 min and reperfusion for 0.5, 4, 8, 24 h, 3, 7, 14 days. On TTC-stained coronal sections, delayed infarct was observed to develop in the whole MCA territory, especially in frontoparietal cortex after ischemia. Near total infarct was shown in striatum 24 h after MCAo, while delayed infarct was evident in the cortex. By day 3, the infarct had progressively expanded to the nearly whole area of the frontoparietal cortex. Flow cytometric analysis of Annexin-V (marks apoptosis) and PI (propidium iodide, marks necrosis) labeling cells showed that MCAo dominantly induced necrosis in ischemic core, striatum. Apoptosis contributed to delayed infarct and cell death in the border zone, dorsolateral cortex and hippocampus. The time-course of caspase-3 activation was consistent with the changes of apoptosis and infarct following MCAo. Further RT-PCR experiments indicated that there was a biphasic regulation of XIAP in time- and region-dependent manner after ischemia. In the infarct core (striatum), following a transient and slight increase during 0.5 h to 4 h post-MCAo, expression of XIAP mRNA markedly decreased. On the other hand, a longer and larger upregulation of XIAP was observed at early time points in border zone (0.5 to 8 h, in dorsolateral cortex; 0.5 to 24 h in hippocampus), then the level of XIAP reduced. A negative correlation was observed between apoptosis and regulation of XIAP gene in these regions. Our findings suggest a possible association between expression of XIAP gene, apoptosis and delayed infarct following ischemia.
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PMID:Development of cerebral infarction, apoptotic cell death and expression of X-chromosome-linked inhibitor of apoptosis protein following focal cerebral ischemia in rats. 1613 48

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