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)

Calpains and calpastatin in the brain of the rabbit were examined in experimental situations that could mimic some features of brain ischemia. Incubations of bisected brains in saline at 39 degrees C for 0.5, 1, or 1.5 h resulted in a decreased calpain I activity in the cytosol and in an increased hydrophobicity of cytosolic calpain II activity. Incubation of brain homogenates at different pH levels demonstrated an almost-complete transfer of calpains from the cytoplasmic compartment to the membranes when pH was lowered from 6 to 5. At pH values lower than 5, the total calpain activity (soluble plus membrane-bound) markedly decreased. No significant changes of calpastatin activity or its subcellular distribution was found following incubation of the homogenates at different pH levels.
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PMID:Changes in brain calpain activity as a result of in vitro ischemia and pH alterations. 191 Mar 62

The intracellular calcium-dependent proteases (calpains) and their endogenous protein inhibitor (calpastatin) are present in many different mammalian cells. There is emerging evidence for their importance in the turnover of membrane-associated proteins. Accordingly, it is important to understand how these proteinases and their inhibitor interact within cells, in particular at membranes. Bovine myocardial calpastatin appears to be associated in part with intracellular membranes, where it may effectively block the activity of calpain II on membrane-associated proteins. Immuno-electron microscopic studies suggest that canine myocardial calpain and calpastatin are associated with a number of membranous organelles. During canine myocardial autolysis, the amount of calpain at various organelles decreased, but the amount of calpastatin decreased to an even greater extent. Thus there may be a high calpain to calpastatin balance during heart ischemia at these sites. Calpain II aggregation may contribute to localization of the proteinase at sites of high calcium concentration within cells. A model is presented for interaction of calpain II and calpastatin at cellular membranes in the presence of calcium.
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PMID:The non-lysosomal, calcium-dependent proteolytic system of mammalian cells. 256 39

Calpain activity was measured in the various subfractions of rat myocardia after global ischemia for 60 min or after ischemia followed by 30 min of reperfusion after the chromatographic separation of mu- and m-calpains. The activity of m-calpain after ischemia and that of mu-calpain after reperfusion were both higher than that in the control. The activity of the endogenous calpain inhibitor calpastatin in 10,000 x g supernatant was decreased after both ischemia and ischemia-reperfusion. The increase in m- and mu-calpain activities was suppressed by pre-ischemic perfusion with a synthetic calpain inhibitor, transepoxysuccinyl-L-leucylamido (4-guanidino) butane (E64d, 100 micrograms/ml). After reperfusion, the calpain activity in the 10,000 x g pellet was also increased, which was inhibited by pre-ischemic perfusion with E64d or dimethylsulfoxide (a solvent for E64d) or by reperfusion with 1 mmol/L ethyleneglycol bis (beta-aminoethylether)-N, N, N', N'-tetraacetic acid. SDS-polyacrylamide gel electrophoresis revealed the proteolysis of several proteins, including fodrin, in the 10,000 x g and 100,000 x g pellet fractions after ischemia and reperfusion, some of which were confirmed to be in vitro substrates of calpain. The creatine kinase release during the reperfusion was also partially inhibited by E64d or dimethylsulfoxide. Thus, calpain activity in the soluble or particulate fractions was altered during ischemia or reperfusion, and appeared to be implicated in the proteolysis of the membrane proteins, which may contribute to myocardial injury.
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PMID:Calpain is implicated in rat myocardial injury after ischemia or reperfusion. 775 44

Neonatal rats were subjected to transient cerebral hypoxic-ischemia (unilateral occlusion of the common carotid artery plus 7.7% O2 for 2 h) and allowed to recover for 0 min, 30 min or 20 h. The calpain and calpastatin activities were assayed in subcellular fractions of the ipsilateral, hypoxic-ischemic and the contralateral, hypoxic hemisphere. An upregulation of calpain activity occurred in the hypoxic hemisphere, both in the major, cytosolic fraction and in the hypotonic, membrane associated fraction (110% and 133% of controls, respectively). The hypoxic-ischemic hemisphere displayed a decrease in calpain activity in the cytosolic fraction but an increase in the hypotonic fraction (90% and 111% of controls, respectively). The changes in calpastatin activity were less pronounced. This indicates that an upregulation of calpain activity occurs in parallel with development of hypoxic-ischemic damage. However, this upregulation is not necessarily coupled to development of injury as lesions are not seen in the hypoxic hemisphere.
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PMID:Upregulation of calpain activity in neonatal rat brain after hypoxic-ischemia. 811 95

We investigated the mechanism of the decreased myofilament Ca2+ responsiveness in stunned myocardium. The steady state force-[Ca2+] relationship was measured before and after skinning in thin ventricular trabeculae from control or stunned (20 minutes of ischemia, 20 minutes of reperfusion) rat hearts.[Ca2+]i was determined using microinjected fura 2 salt in intact muscles, whereas the myofilaments of chemically skinned trabeculae were activated directly with solutions of varied [Ca2+]. Maximal Ca2+- activated force (F max) before and after skinning was identical within either the control or stunned groups but was markedly depressed in both groups of stunned trabeculae (P < .001)). After ischemia and reperfusion, the [Ca2+] required for 50% of maximal activation (Ca50) was increased in both intact (control, 0.60 +/- 0.09 micromol/L; stunned, 0.85 +/- 0.09 micromol/L;P < .001) and skinned (control, 1.13 +/- 0.24 micromol/L; stunned 1.39 +/- 0.21 micromol/L; P = .0025) trabeculae. These data indicate that the decreased Ca2+ responsiveness of stunned myocardium is due to intrinsic alterations of the myofilaments. Therefore, we tested the hypothesis that activation of proteases by reperfusion-induced Ca2+ overload decreases the Ca2+ responsiveness of the cardiac myofilaments. Force-[Ca2+] relations were compared before and 5 to 30 minutes after direct exposure of skinned trabeculae to calpain I (18 microgram/mL, 20 minutes at [Ca2+]=10.8 micromol/L), a Ca2+-activated protease that is present in myocardium. Calpain I reduced F max from 94.3 +/- 8.3 to 56 +/- 8.5 mN/mm2 while increasing Ca50 from 0.94 +/- 0.11 to 1.36 +/- 0.21 micromol/L (P < .01). Calpastatin, a specific calpain inhibitor prevented the effects of calpain I on skinned trabeculae. The results show that the reduced Ca2+ responsiveness of stunned myocardium reflects alteration of the myofilaments themselves, not of soluble cytosolic factors, which can be faithfully reproduced by exposure to Ca2+-dependent protease.
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PMID:Intrinsic myofilament alterations underlying the decreased contractility of stunned myocardium. A consequence of Ca2+-dependent proteolysis? 859 4

Myocardial stunning is characterized by decreased myofilament Ca2+ responsiveness. To investigate the molecular basis of stunned myocardium, we performed PAGE and Western immunoblot analysis of the contractile proteins. Isolated rat hearts were retrogradely perfused at 37 degrees C for either 50 minutes (control group) or for 10 minutes, followed by 20-minute global ischemia and 20-minute reperfusion (stunned group), or for 20-minute ischemia without reflow. Another group consisted of hearts subjected to 20-minute ischemia in which stunning was mitigated by 10-minute reperfusion with low Ca2+/low pH solution. Myocardial tissue samples subjected to PAGE revealed no obvious differences among groups. Western immunoblots for actin, tropomyosin, troponin C, troponin T, myosin light chain-1, and myosin light chain-2 showed highly selective recognition of the appropriate full-length molecular weight bands in all groups. Troponin I (TnI) Western blots revealed an additional band (approximately 26 kD, compared with 32 kD for the full-length protein) in stunned myocardial samples only. In parallel experiments, skinned trabeculae were treated with calpain I for 20 minutes; Western blots showed a TnI degradation pattern similar to that observed in stunned myocardium. Such TnI degradation was prevented by calpastatin, a naturally occurring calpain inhibitor. The results show that (1) TnI is partially and selectively degraded in stunned myocardium; (2) this degradation could be prevented by low Ca2+/low pH reperfusion, which also prevented the contractile dysfunction of stunning; and (3) calpain I could similarly degrade TnI, supporting the idea that Ca(2+)-dependent myofilament proteolysis underlies myocardial stunning.
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PMID:Role of troponin I proteolysis in the pathogenesis of stunned myocardium. 904 60

Based on our previous observation that transient forebrain ischemia induces calpain-catalyzed proteolysis in gerbil hippocampus in a region-specific manner, we examined the effect of ischemia on the quantity and localization of the endogenous calpain-specific inhibitor protein, calpastatin, in the tissue. Brief (5 min) forebrain ischemia followed by reperfusion induced an overall increase of calpastatin immunoreactivity in hippocampus, particularly in pyramidal cells, in 4 h as analyzed by Western blotting and immunohistochemistry. The amount of calpastatin, however, decreased to the preischemic level and lower in 24 h to 7 days due to proteolysis except in CA2 showing continuously elevated calpastatin immunoreactivity. Because calpastatin is not only a potent inhibitor but also a preferred substrate for calpain and because CA2 neurons are less vulnerable to ischemic stress than the adjacent CA1 neurons, these observations imply involvement of calpastatin in calpain regulation as a bait substrate and, possibly, in neuroprotection under ischemic conditions. Calpastatin may participate in the stress responses together with the previously known ischemia-induced stress proteins such as heat shock proteins.
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PMID:Up- and down-regulation of calpain inhibitor polypeptide, calpastatin, in postischemic hippocampus. 918 Feb 7

Neonatal rats were subjected to transient cerebral hypoxic-ischemia (HI, unilateral occlusion of the common carotid artery +7.70% O2 for 100 min) and allowed to recover for up to 14 days. Calpain caseinolytic activity was found to increase in both hemispheres for at least 20 hr. Hypoxic exposure per se increased the activity of calpains, more pronounced in a membrane-associated fraction, probably through interaction with cellular components, whereas HI introduced a loss of activity, most likely through consumption and loss of proteases. Consecutive tissue sections were stained with antibodies against calpastatin, alpha-fodrin, the 150-kDa breakdown product of alpha-fodrin (FBDP, marker of calpain proteolysis) or microtubule-associated protein 2 (MAP-2, marker of dendrosomatic neuronal injury). Areas with brain injury displayed a distinct loss of MAP-2, which clearly delineated the infarct. FBDP accumulated in injured and borderline regions ipsilaterally, and a less conspicuous, transient increase in FBDP also occurred in the contralateral hemisphere, especially in the white matter. The cytosolic fraction (CF) and the membrane and microsomal fraction (MMF) of cortical tissue were subjected to Western blotting and stained with antibodies against calpain, calpastatin and the 150-kDa breakdown product of alpha-fodrin (FBDP). Calpain immunoreactivity decreased bilaterally in the CF during the insult (62-68% of controls) and remained significantly lower during early recovery, whereas the MMF showed no significant changes. This translocation of calpains coincided with the appearance of FBDP in the ipsilateral, HI hemisphere, displaying a significantly higher level of FBDP from immediately after the insult until at least 1 day of recovery (204-292% of controls). No significant changes in FBDP were found in the contralateral, undamaged hemisphere, despite translocation of calpains in both hemispheres, a prerequisite for calpain activation. This discrepancy may be related to changes in the endogenous inhibitor, calpastatin. Calpastatin protein was found to decrease during and shortly after HI in the ipsilateral, but not the contralateral, hemisphere. The inhibitory activity of calpastatin also tended to decrease after HI, indicating that a reduction of calpastatin may be necessary for extensive calpain activation to occur. The mRNA of m-calpain increased in the HI hemisphere 48 hr after the insult (167%, p < 0.001), a time point when the protein was also increased. In summary, our findings indicate that calpains are activated during HI and in the early phase of reperfusion after HI, preceding neuronal death.
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PMID:The calpain proteolytic system in neonatal hypoxic-ischemia. 936 79

The activities of calpain and its endogenous inhibitor, calpastatin, were measured in the soluble fraction of perfused rat heart after ischemia for 5-20 min and reperfusion for up to 30 min. The method for m-calpain measurement was modified: washing of the DEAE-cellulose column with 0.18 M NaCl instead of 0.15 M NaCl increased the m-calpain activity 12.5-fold. Ischemia for 20 min followed by reperfusion for 30 min did not affect the m-calpain activity but decreased the calpastatin activity. m-Calpain was enriched in the nucleus-myofibril fraction but was not further translocated on ischemia-reperfusion. Mu-calpain was below the limit of detection on immunoblotting or casein zymography, but its mRNA was substantially expressed, as detected on Northern blotting. Casein zymography also revealed a novel Ca2+-dependent protease without the typical characteristics of mu- or m-calpain. The immunoblotting of myocardial fractions showed that calpastatin was proteolyzed on ischemia-reperfusion. The calpastatin proteolysis was suppressed by a calpain inhibitor, Ac-Leu-Leu-norleucinal. Calpastatin may sequester calpain from its substrates in the normal myocardium, but may be proteolyzed by calpain in the presence of an unidentified activator in the early phase of calpain activation during ischemia-reperfusion, resulting in the proteolysis of calpastatin and then other calpain substrates.
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PMID:Downregulation of calpastatin in rat heart after brief ischemia and reperfusion. 939 77

Effects of ischemia on the content of a ulinastatin (UT)-like substance in the murine cerebral cortex and hippocampus were studied. At 24 h post-ischemia, a significant (p < 0.05) decrease in the content of UT-like substance in the hippocampus but not the cerebral cortex and a concurrent increase in the activity of micro-calpain were observed. In in vitro experiments, a decrease was registered in the content of UT-like substance in the hippocampus in the presence of calcium. This decrease was inhibited by both EDTA and calpastatin treatments. These results implicate the destruction of UT-like substance by micro-calpain in the ischemic hippocampus.
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PMID:Ischemia induces a reduction in the content of ulinastatin-like substance in the murine hippocampus. 948 69


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