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)

Activity of the Ca(2+)-dependent protease calpain is increased in neurons after global and focal brain ischemia, and may contribute to postischemic injury cascades. Understanding the time course and location of calpain activity in the post-ischemic brain is essential to establishing causality and optimizing therapeutic interventions. This study examined the temporal and spatial characteristics of brain calpain activity after transient forebrain ischemia (TFI) in rats. Male Long Evans rats underwent 10 min of normothermic TFI induced by bilateral carotid occlusion with hypovolemic hypotension (MABP 30 mm Hg). Brain calpain activity was examined between 1 and 72 h after reperfusion. Western blot analysis of regional brain homogenates demonstrated a bimodal pattern of calpain-mediated alpha-spectrin degradation in the hippocampus, cortex, and striatum with an initial increase at 1 h followed by a more prominent secondary increase at 36 h after reperfusion. Immunohistochemical analysis revealed that calpain activity was primarily localized to dendritic fields of selectively vulnerable neurons at one hour after reperfusion. Between 24 and 48 h after reperfusion neuronal calpain activity progressed from the dorsal to ventral striatum, medial to lateral CA1 hippocampus, and centripetally expanded from watershed foci in the cerebral cortex. This progression was associated with fragmentation of dendritic processes, calpain activation in the neuronal soma and subsequent neuronal degeneration. These observations demonstrate a clear association between calpain activation and subsequent delayed neuronal death and suggest broad therapeutic window for interventions aimed at preventing delayed intracellular Ca(2+) overload and pathologic calpain activation.
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PMID:Calpain activity in the rat brain after transient forebrain ischemia. 1142 81

Our previous study suggested that calpain isoforms played an important role in retinal ganglion cell death induced by ischemia-reperfusion in rats [Curr. Eye Res. 21 (2000) 571]. The purpose of the present study was to further establish the direct involvement of calpain in hypoxia-induced damage by administering calpain inhibitor SJA6017 to oxygen-starved, cultured retinas. Retinas were incubated in RPMI medium with glucose and 95% O2/5% CO2 to supply sufficient oxygen for retinal cell survival. To induce a hypoxic condition, retinas were incubated with 95% N2/5% CO2. Leakage of LDH in the medium was measured to assess retinal cell damage. Activation of calpain and proteolysis of calpain substrate alpha-spectrin were analyzed by casein zymography and immunoblotting. Large amounts of LDH leaked into the medium from retinas under hypoxic conditions for 12 h, and SJA6017 significantly reduced LDH leakage. Caseinolytic activity of mu- and m-calpains decreased with hypoxia for 5 and 12 h, suggesting calpain activation followed by autolytic degradation. SJA6017 partially inhibited decreased calpain activities. Proteolysis of 230 kDa alpha-spectrin to 150 and 145 kDa breakdown products was observed in retinas with hypoxia. SJA6017 completely inhibited production of the 145 kDa breakdown product and partially inhibited production of the 150 kDa breakdown product. These results confirm the direct involvement of calpains in retinal cell damage induced by hypoxia in vitro.
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PMID:Involvement of calpain in hypoxia-induced damage in rat retina in vitro. 1181 43

The role of calpain and caspase family proteases in postischemic neuronal death remains controversial. This study compared the timing, location, and relative activity of calpains and caspases in the adult rat brain following 10 min of transient forebrain ischemia. Western blots of cortical, striatal, and hippocampal homogenates demonstrated a alpha-spectrin cleavage pattern indicative of predominant calpain activity, which peaked between 24 and 48 h after reperfusion. However, immunohistochemical evidence of both caspase 3 activation and caspase-mediated substrate cleavage was detected as early as 1 h and as late as 7 days after reperfusion in circumscribed neuronal populations. Simultaneous or sequential caspase and calpain activation was also observed suggesting the potential for interaction of these protease systems. The complex spatiotemporal pattern of calpain and caspase activity observed in this study provides important insights for the development and evaluation of therapeutic strategies to reduce protease-mediated injury following global brain ischemia.
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PMID:Comparison of calpain and caspase activities in the adult rat brain after transient forebrain ischemia. 1227 Jun 91

Rodent models of focal and global ischemia were used to examine caspase activation. Several readouts were employed on identical tissue to provide correlative measurement of caspase induction, activation and enzymatic activity. In a rat focal ischemia model, caspase-3 enzymatic activity, as recorded by DEVD-AMC cleavage, peaked in penumbral cortex at 6-12 h following ischemia, correlating with increases in caspase 3-cleaved substrates of PARP and alpha-spectrin and subsequent disappearance of caspase-3 zymogen. Although induction of caspases 8 and 2 proteins was detectable as early as 6 h following ischemia, examination of the same tissues for caspase 8 or 2 enzymatic activities did not show significant modulation up to 12 h after ischemic insult. Caspase 9 induction was evident only after 24 h postischemia and did not correlate with elevated LDHD-AMC cleavage. Following global ischemia in gerbils, levels of caspase-3 enzyme activity peaked at 12 h in hippocampal tissue extracts. Cleaved caspase-3 signal was prominent in NeuN-positive layers in the CA1 region 6-12 h following ischemia. Interestingly, strong caspase-3 immunoreactivity was also detected in the subgranular zone of the dentate gyrus, a known region of ischemia-induced neurogenesis. Caspase-3 activation may be responsible for the loss of these cells, thereby hindering the endogenous recovery process.
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PMID:Temporal assessment of caspase activation in experimental models of focal and global ischemia. 1291 50

The experimental and clinical study of degenerative brain disorders would benefit from new surrogate markers for brain damage. To identify novel candidate markers for acute brain injury, we report that rat cortical neurons release over 60 cytoskeletal and other proteins, as well as their proteolytic fragments into the medium during neuronal death. The profiles of released proteins differ for necrosis and apoptosis, although a subset of proteins is released generally during neurodegeneration. The value of this approach was established by immunodetection of the released proteins 14-3-3 zeta and 14-3-3 beta, as well as calpain and caspase derivatives of tau and alpha-spectrin in cerebrospinal fluid (CSF) following traumatic brain injury (TBI) or transient forebrain ischemia in the rat. These results indicate that proteins and their proteolytic fragments released from degenerating neurons are cerebrospinal fluid markers for acute brain damage and suggest that efflux of proteins from the injured brain may reflect underlying mechanisms for neurodegeneration.
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PMID:Proteins released from degenerating neurons are surrogate markers for acute brain damage. 1519 88

Results of our recent studies in rats suggested that calpains play an important role in retinal cell death induced by ischemia-reperfusion in vivo and by hypoxia in vitro. Study of spontaneous animal models could help determine the involvement of calpains in human retinopathy. The WBN/Kob rat is such a model for spontaneous retinal degeneration. The purpose of the study reported here was to determine the involvement of calpain isoforms during retinal degeneration in WBN/Kob rats. Histologic and functional retinal degeneration in WBN/Kob rats was observed by use of light microscopy and electroretinography, respectively. Proteolysis of alpha-spectrin in the retina was detected by use of immunoblot analysis in aging WBN/Kob rats. This proteolysis was associated with the increases of retinal calcium content and caseinolytic activity for calpains 1 and 2. Expression of calpain 1, calpain 2, and calpastatin mRNAs in the retina, as measured by use of reverse transcriptase-polymerase chain reaction (RT-PCR) analysis, were only slightly up-regulated at 24 weeks of age. In contrast, expression of retina-specific calpains, such as Rt88, Rt88', and Rt90 mRNA, was markedly down-regulated at 12 weeks of age. Expression of calpain 10 mRNA in the retina was only slightly down-regulated at 12 weeks of age. In contrast to mRNA expression, various expression patterns of calpain 10 proteins were observed. Increased retinal calcium content, leading to activation of calpains 1 and 2, may be an important event in the sequential changes leading to degeneration of the retina in WBN/Kob rats. Activated calpain causing proteolysis of alpha-spectrin and changes in Rt88, Rt88', Rt90 and calpain 10 may also contribute to retinal degeneration.
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PMID:Involvement of calpain isoforms in retinal degeneration in WBN/Kob rats. 1557 67

Caspase activation occurs within 1h of reperfusion in discrete cell populations of the adult rat brain following transient forebrain ischemia. Based on the proximity of these cells to regions of adult neurogenesis and the known susceptibility of developing neurons to apoptosis, we tested the hypothesis that rapidly triggered post-ischemic caspase activation occurs in immature neurons or neuroprogenitor cells. Adult male Long Evans rats were injected with BrdU to label mitotic cells 1, 7, or 28 days prior to being studied. Rats were then subjected to either sham surgery or 10-min transient forebrain ischemia. At 1h after reperfusion, rats underwent perfusion fixation and brains prepared for immunohistochemical analysis. Immunolabeling for caspase-substrate cleavage, using an antibody directed at the caspase derived fragment of alpha-spectrin, was observed in discrete cell populations of the rostral dentate gyrus, dorsal striatum, extreme paramedian CA1 hippocampus, indusium gresium, olfactory tubercle, and thalamus. No cells double-labeled for caspase-substrate cleavage and BrdU at any time point after BrdU injection. Furthermore, cells immunolabeled for caspase-substrate cleavage did not double-label for markers of immature neurons (doublecortin) or progenitor cells (nestin), but did double-label for the mature neuronal marker NeuN. These results indicate that the phenomenon of rapidly triggered caspase activation in the adult rat brain after transient forebrain ischemia is specific to mature neurons and does not occur in neuroprogenitor cells or immature neurons.
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PMID:Developmental status of neurons selectively vulnerable to rapidly triggered post-ischemic caspase activation. 1572 Dec 15

Previously, we identified proteins released from degenerating cultured cortical neurons as novel cerebrospinal fluid (CSF) markers for acute brain injury in the rat. Here, we investigate relationships between CSF changes in these novel markers and the severity of acute ischemic brain injury. Rats underwent sham surgery or 3,6,8, or 10 mins of transient global forebrain ischemia. At 48 h after insult, CSF levels of 14-3-3beta, 14-3-3zeta, and calpain cleavage products of alpha-spectrin and tau were quantified. Regional acute neurodegeneration was assessed by Fluoro-Jade and silver impregnation staining, and confirmed by immunohistochemical detection of the activation of calpain and caspase, cysteine proteases involved in neurodegenerative signaling. Ischemic neurodegeneration and activation of at least one cysteine protease were observed in the hippocampal CA1 sector, dentate hilus, caudate nucleus, parietal cortex, thalamus, and inferior colliculus. As expected, the total number of degenerating cells increased as a function of ischemia duration. Cerebrospinal fluid levels of the four marker proteins increased markedly after ischemia, and rose in proportion with its duration. Irrespective of the length of ischemia, CSF levels of the neuron-enriched proteins 14-3-3beta and calpain-cleaved tau correlated significantly with the magnitude of acute ischemic neurodegeneration. Additionally, CSF levels of the two proteins correlated with one another. These results show that certain proteins released from degenerating neurons are CSF markers for brain injury in the rat whose levels reflect the severity of acute ischemic neurodegeneration. Measurement of 14-3-3beta and calpain-cleaved tau may be useful for the minimally invasive diagnosis, prognosis, and therapeutic evaluation of acute brain damage.
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PMID:Novel surrogate markers for acute brain damage: cerebrospinal fluid levels corrrelate with severity of ischemic neurodegeneration in the rat. 1590 99

Endurance exercise provides cardioprotection against ischemia-reperfusion (IR)-induced necrotic cell death in young animals. However, whether exercise-induced cardioprotection prevents IR-induced apoptosis in young and old animals is unknown. We tested the hypothesis that endurance exercise training will attenuate IR-induced myocardial apoptosis in young (4 months) and old (24 months) male F344 rats. Young and old rats remained sedentary or performed multiple bouts of moderate intensity running exercise. To induce apoptosis, isolated working hearts were exposed to 45 min of ischemia followed by 90 min of reperfusion. Assessment of myocardial levels of caspase-3 cleaved alpha-spectrin and TUNEL labeled nuclei revealed that IR resulted in apoptosis in hearts from both young and old animals. Importantly, independent of age, exercise attenuated the IR-induced apoptosis of cardiac myocytes. Moreover, exercise attenuated IR-induced calpain activation in the hearts of both young and old animals. These experiments for the first time demonstrate that exercise attenuates IR-induced myocardial apoptosis in both young and old animals. Potential mechanisms for this exercise-induced cardioprotection against IR-induced apoptosis include improved myocardial antioxidant capacity and prevention of calpain and caspase-3 activation.
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PMID:Exercise training provides cardioprotection against ischemia-reperfusion induced apoptosis in young and old animals. 1591 94

The involvement of matrix metalloproteinases (MMPs) in cerebral ischemia-induced apoptosis was investigated in a model of transient focal cerebral ischemia in rats treated intracerebroventricularly (i.c.v.) with 4-((3-(4-phenoxylphenoxy)propylsulfonyl)methyl)-tetrahydropyran-4-carboxylic acid N-hydroxy amide, a broad spectrum non-peptidic hydroxamic acid MMP inhibitor, and in MMP-9-deficient mice. Our results showed that MMP inhibition reduced DNA fragmentation by 51% (P < 0.001) and cerebral infarct by 60% (P < 0.05) after ischemia. This protection was concomitant with a 29% reduction of cytochrome c release into the cytosol (P < 0.005) and a 54% reduction of calpain-related alpha-spectrin degradation (P < 0.05), as well as with an 84% increase in the immunoreactive signal of the native form of poly(ADP) ribose polymerase (P < 0.01). By contrast, specific targeting of the mmp9 gene in mice did reduce cerebral damage by 34% (P < 0.05) but did not modify the apoptotic response after cerebral ischemia. However, i.c.v. injection of MMP-9-deficient mice with the same broad-spectrum inhibitor used in rats significantly reduced DNA degradation by 32% (P < 0.05) and contributed even further to the protection of the ischemic brain. Together, our pharmacological and genetic results indicate that MMPs other than MMP-9 are actively involved in cerebral ischemia-induced apoptosis.
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PMID:Role of matrix metalloproteinases in apoptosis after transient focal cerebral ischemia in rats and mice. 1619


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