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)

Ischemia-reperfusion (I/R) of stomach causes gastric mucosal injury. Complement can also cause tissue damage, however its role in gastric I/R injury has not been thoroughly investigated. We evaluated the effect of complement suppression in reducing damage to the gastric epithelium caused by local I/R. Local gastric ischemia was induced by clamping the left gastric artery. The blood-to-lumen clearance of 51Cr-labeled EDTA (51Cr-EDTA) served as an index of epithelial damage. 51Cr-EDTA clearance increased shortly after reperfusion with peak values at 10 min. Intraperitoneal administration of cobra venom factor (CVF; 50 units) prior to I/R, which reduced the serum complement value (CH50) to an undetectable level, remarkably suppressed the 51Cr-EDTA clearance following reperfusion. A monocarboxylic acid derivative of K-76 (K-76 COOH) reduced the CH50 by more than 30% (100 mg/kg) and 60% (200 mg/kg). Rats pretreated with K-76 significantly attenuated the increase in 51Cr-EDTA clearance produced by I/R. These results suggest that complement inhibitor could be used to protect gastric mucosal injury induced by local I/R stress.
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PMID:Complement plays an important role in gastric mucosal damage induced by ischemia-reperfusion in rats. 1176 2

Synaptic release of Zn2+ and its translocation into postsynaptic neurons probably contribute to neuronal injury after ischemia or epilepsy. Studies in cultured neurons have revealed that of the three major routes of divalent cation entry, NMDA channels, voltage-sensitive Ca2+ channels (VSCCs), and Ca2+-permeable AMPA/kainate (Ca-A/K) channels, Ca-A/K channels exhibit the highest permeability to exogenously applied Zn2+. However, routes through which synaptically released Zn2+ gains entry to postsynaptic neurons have not been characterized in vivo. To model ischemia-induced Zn2+ movement in a system approximating the in vivo situation, we subjected mouse hippocampal slice preparations to controlled periods of oxygen and glucose deprivation (OGD). Timm's staining revealed little reactive Zn2+ in CA1 and CA3 pyramidal neurons of slices exposed in the presence of O2 and glucose. However, 15 min of OGD resulted in marked labeling in both regions. Whereas strong Zn2+ labeling persisted if both the NMDA antagonist MK-801 and the VSCC blocker Gd3+ were present during OGD, the presence of either the Ca-A/K channel blocker 1-naphthyl acetyl spermine (NAS) or the extracellular Zn2+ chelator Ca2+ EDTA substantially decreased Zn2+ accumulation in pyramidal neurons of both subregions. In parallel experiments, slices were subjected to 5 min OGD exposures as described above, followed 4 hr later by staining with the cell-death marker propidium iodide. As in the Timm's staining experiments, substantial CA1 or CA3 pyramidal neuronal damage occurred despite the presence of MK-801 and Gd3+, whereas injury was decreased by NAS or by Ca2+ EDTA (in CA1).
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PMID:Blockade of Ca2+-permeable AMPA/kainate channels decreases oxygen-glucose deprivation-induced Zn2+ accumulation and neuronal loss in hippocampal pyramidal neurons. 1185 Apr 55

Angiotensin I converting enzyme (kininase II; ACE) inhibitors are important therapeutic agents widely used for treatment in cardiovascular and renal diseases. They inhibit angiotensin II release and bradykinin inactivation; these actions do not explain completely the clinical benefits. We found that enalaprilat and other ACE inhibitors in nanomolar concentrations activate human bradykinin B(1) receptors directly in the absence of ACE and the B(1) agonist des-Arg(10)-Lys(1)-bradykinin. These inhibitors activate at the Zn(2+)-binding consensus sequence HEXXH (195-199) in B(1), which is present also in ACE but not in the B(2) receptor. Activation elevates [Ca(2+)](i) and releases NO from endothelial or transfected cells expressing the B(1) receptor but is blocked by Ca-EDTA, a B(1) receptor antagonist, the synthetic undecapeptide sequence (192-202) of B(1), and the mutagenesis of His(195) to Ala(195). Except for the B(1) antagonist, these agents and manipulations did not block activation by a peptide ligand. Thus, Zn(2+) is essential for B(1) receptor activation by ACE inhibitors at the zinc-binding consensus sequence. Ischemia or cytokines induce abundant B(1) receptor expression. B(1) receptor activation by ACE inhibitors, a novel mode of action reported here first, can contribute to their therapeutic effects by releasing NO in the heart and to some side effects.
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PMID:Novel mode of action of angiotensin I converting enzyme inhibitors: direct activation of bradykinin B1 receptor. 1188 Mar 73

The aim of the present study was to assess the role of endothelin (ET) in ischemia-reperfusion (I/R)-induced mucosal injury. Mucosal permeability ((51)Cr-EDTA clearance) and tissue myeloperoxidase (MPO) activity were significantly increased after 30 min of ischemia followed by 30 min of reperfusion. The I/R-induced increases in mucosal permeability and polymorphonuclear leukocyte (PMN) infiltration were significantly attenuated by pretreatments with ET(A) (BQ-485) and/or ET(B) (BQ-788) receptor antagonists. Monoclonal antibody (MAb) directed against intercellular adhesion molecule-1 (ICAM-1; MAb 1A29) and superoxide dismutase (SOD) pretreatments significantly attenuated the increased mucosal permeability and PMN infiltration in a similar manner as with ET receptor antagonists. Superior mesenteric artery blood flow was significantly reduced during the reperfusion period. Both ET receptor antagonists caused a significant rise in blood flow compared with an untreated I/R group. In conclusion, our data suggest that ET(A) and/or ET(B) receptors, ICAM-1, and superoxide play an important role in I/R-induced mucosal dysfunction and PMN infiltration. Furthermore, ET is involved in the pathogenesis of post-reperfusion-induced damage and beneficial effects of ET receptor antagonism are related to an improvement of disturbed blood flow during the reperfusion period.
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PMID:Endothelin receptor blockers reduce I/R-induced intestinal mucosal injury: role of blood flow. 1189 24

Catecholamines or ischemia may increase myocardial glucose uptake by an increase in intracellular calcium. We tested the hypothesis that increasing or decreasing extracellular calcium supply would change glucose uptake. Hearts were perfused for 60 min at a physiological workload with Krebs-Henseleit buffer containing glucose (5 mM) and oleate (0.4 mM; bound to 1% BSA). Calcium concentration was 2.5 mM. In group A (control; n = 12), insulin (1 mU/ml) was added at 30 min. In Group B (n = 7), the calcium concentration was increased to 5.0 and 7.5 mM at 20 min and 40 min, respectively. In Group C (n = 7), verapamil was added at 20 min (0.25 microM) and 40 min (1.0 microM) to decrease calcium influx. In group D (n = 7), EDTA was added at 20 min (0.5 mM) and at 40 min (1.5 mM) to decrease the free extracellular calcium. Glucose uptake was measured by 3H2O production from [2-3H]glucose and cardiac work was measured simultaneously. Cardiac power in group B was 8.24 +/- 0.60 mW at 2.5 mM calcium, 9.45 +/- 0.50 mW at 5 mM calcium and 7.99 +/- 0.99 mW at 7.5 mM calcium (n.s.). The addition of verapamil decreased contractile function in a dose-dependent manner (8.50 +/- 0.74 vs. 3.11 +/- 0.84 vs. 1.48 +/- 0.39 mW, p < 0.01) suggesting that verapamil decreased cytosolic calcium concentration. A similar dose-dependent reduction in contractile performance was observed in the EDTA group (8.44 +/- 0.81 vs. 7.42 +/- 0.96 vs. 4.03 +/- 1.32 mW, p < 0.01). Glucose uptake was 1.35 +/- 0.11 micromol/min/g dry weight under control conditions. Glucose uptake increased threefold with the addition of insulin. Increasing extracellular [Ca2+] did not affect glucose uptake. Decreasing Ca2+ availability showed a trend towards a decrease in glucose uptake (n.s.), which was minor compared to the decrease in contractile function. We conclude that extracellular calcium does not regulate glucose uptake in the isolated working rat heart in the presence of glucose and fatty acids as substrates. The trend of decreased glucose uptake when calcium supply was limited may be due to dramatically reduced energy demand and not directly due to changes in calcium.
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PMID:The role of calcium in the regulation of glucose uptake in isolated working rat heart. 1203 Mar 82

To determine the activity of matrix metalloproteinases (MMP), especially MMP-2 and MMP-9, which play an important role in ischemic stroke and intracerebral hemorrhage, we adapted a simple and rapid method for localizing gelatinase activity to a gelatin film in situ-overlay technique previously used in cancer research. Ten micrometer cryosections of rat brain from controls and animals subjected to 3 h of ischemia and 48 h of reperfusion (suture model for transient cerebral ischemia) were used. After thawing, a gelatin film with a polyester base was put on the slide, incubated for 24 h at 37 degrees C, stained with Ponceau S, and then discolored in bi-distilled water. Non-staining areas on the film corresponded to lysis zones, caused by activated MMPs. This was proven by MMP incubation at various concentrations on the plain gelatin film and pretreatment with EDTA (an MMP inhibitor), which prevents lysis zones in normal and ischemic brains. As confirmatory tests, SDS-PAGE zymography was used to define MMP activity, and also MMP-2 immunohistochemistry to detect the possibly cellular origin of MMPs. Normal rat brain exhibited a low background activity, which was visible as a light halo-like lysis zone over and around the brain. Areas in normal brain with medium MMP activity were within the white matter (corpus callosum, anterior commissure, and cerebellum). Ischemic brain exhibited high activity lysis zones within the infarcted area (detected by microtubuli associated protein-2 staining). These zones consisted of microscopically small lysis holes with a diameter of about 10-20 microm. Immunohistochemistry showed that especially microvessels expressed MMP antigen. SDS-PAGE zymography differentiated between a high level of activated MMPs in the ischemic area and a low level in the non-ischemic basal ganglia. The gelatin film in situ-overlay technique is able to localize MMP activity in ischemic rat brain tissue on a microscopic level.
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PMID:A gelatin in situ-overlay technique localizes brain matrix metalloproteinase activity in experimental focal cerebral ischemia. 1204 62

Matrix metalloproteinases (MMPs) are endopeptidases that degrade the extracellular matrix (ECM) and are involved in the pathogenesis of retinal degeneration along with tissue inhibitors of metalloproteinases (TIMPs). The present study examined the expression and activation of two specific members of MMPs (MMP-2 and MMP-9) and their related inhibitors (TIMP-1 and TIMP-2) in an experimental retinal ischemia-reperfusion injury. Retinal ischemia-reperfusion injury (RIRI) was induced in adult rats with a ligation method. After one hour of ischemia and a varied reperfusion time (0, 3, 6, 12, 24, 48 and 76 hr), the rat eyes were enucleated. Retinal extracts underwent zymographic analysis to measure the activity of MMP-2/9. The activity of TIMP-1 and TIMP-2 was measured by reverse zymography. The protein level was examined by Western blot. Immunohistochemistry analysis was undertaken to assess the anatomical distribution of MMP-9 in the retina after RIRI. The gelatinolytic activity of ProMMP-2 (72 kDa) was increased markedly at 6 hr after RIRI. ProMMP-9 (92 kDa) was not detected in the control specimens, while it appeared at 3 hr, increased markedly at 6 hr, and reached maximal levels at 24 hr after RIRI. The gelatinolytic activity found ian retinal extracts was shown to be inhibited by 10 m M EDTA and activated in vitro by a known metalloproteinase activator (4-aminophenylmercuric acetate (APMA)), indicating that these enzymes were of the metalloproteinase class. By western blot, MMP-2/9 levels increased parallel to protein activity level in zymography. No corresponding increase in TIMP-1 and TIMP-2 protein activity and protein level was detected by reverse zymography and western blot. Elevated levels of MMP-9 and its distribution in retina were confirmed by immunohistochemistry. Expression of MMP-9 was detected in the inner and outer segments of rat retina, and the level becomes stronger at 24 hr after RIRI. In this study, ProMMP-2 and ProMMP-9 were expressed and increased significantly, but their inhibitors (TIMP-1 and TIMP-2) remained relatively unaltered in ischemic retina after RIRI in rats. These results suggest that MMP-2 and MMP-9 may play an important role in the pathomechanism of retinal ischemic injury.
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PMID:Expression of matrix metalloproteinases and their inhibitors in experimental retinal ischemia-reperfusion injury in rats. 1207 79

Excess release of chelatable zinc (Zn(2+)) from central synaptic vesicles may contribute to the pathogenesis of selective neuronal cell death following transient forebrain ischemia, but a role in neurodegeneration after focal ischemia has not been defined. Adult male Long-Evans rats subjected to middle cerebral artery occlusion (MCAO) for 30 min followed by reperfusion developed delayed cerebral infarction reaching completion 3 days after the insult. One day after the insult, many degenerating cerebral neurons exhibited increased intracellular Zn(2+), and some labeled with the antibody against activated caspase-3. I.c.v. administration of the Zn(2+) chelator, EDTA saturated with equimolar Ca(2+) (CaEDTA), 15 min prior to ischemia attenuated subsequent Zn(2+) translocation into cortical neurons, and reduced infarct volume measured 3 days after ischemia. Although the protective effect of CaEDTA at this endpoint was substantial (about 70% infarct reduction), it was lost when insult severity was increased (from 30 to 60 min MCAO), or when infarct volume was measured at a much later time point (14 days instead of 3 days after ischemia). These data suggest that toxic Zn(2+) translocation, from presynaptic terminals to post-synaptic cell bodies, may accelerate the development of cerebral infarction following mild transient focal ischemia.
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PMID:Zinc translocation accelerates infarction after mild transient focal ischemia. 1243 25

ACE or kininase II inhibitors are very important, widely used therapeutic agents for the treatment of a variety of diseases. Although they inhibit ACE, thus, angiotensin II release and bradykinin (BK) inactivation, this inhibition alone does not suffice to explain their successful application in medical practice. Enalaprilat and other ACE inhibitors at nanomolar concentrations activate the BK B1 receptor directly in the absence of ACE and the peptide ligands, des-Arg-kinins. The inhibitors activate at the Zn-binding pentameric consensus sequence HEXXH (195 -199) of B1, a motif also present in the active centers of ACE but absent from the BK B2 receptor. ACE inhibitors, when activating the B1 receptor, elevate intracellular calcium [Ca2+]i and release NO from cultured cells. Activation by ACE inhibitor was abolished by Ca-EDTA, a B1 receptor antagonist, by a synthetic undecapeptide representing the 192-202 sequence in the B1 receptor, and by site-directed mutagenesis of H195 to A. With the exception of the B1 receptor blocker, these agents and the mutation did not affect the actions of the peptide ligand des-Arg10-Lys1-BK. Ischemia and inflammatory cytokines induce B1 receptors and elevate its expression. Direct activation of the B1 receptor by ACE inhibitors can contribute to their therapeutic efficacy, for example, by releasing NO in vascular beds, or to some of their side effects.
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PMID:Activation of bradykinin B1 receptor by ACE inhibitors. 1248 93

It was shown that 30-50% ethanol or 40-70% dimetilsulfoxide could efficiently induce in vitro transformation of specific monoclonal antibodies (mAbs) into non-specific polyreactive immunoglobulins (PRIG). Intravenous injection 0.4 ml of FeSO4-EDTA mixture (60 and 30 mkM respectively) could induce increase of PRIG reactivity in the blood-stream. Intramuscle injection of either 0.1 ml of 40% ethanol, or 0.1 ml of FeSO4-EDTA mixture into muscle of hind limb of C57B1 mice leads to the substantial binding of circulated immunoglobulins to the blood vessels of the muscle. The similar effect could also be induced by ischemia/reperfusion of mice hind limb. In the case of intravenous injection of specific to ovalbumin biotinilated mAbs, the subsequent intramuscle injection of 0.1 ml of 40% ethanol induces apparent transformation of these mAbs into PRIG and their binding to the blood vessels. Intramuscle injection of 0.1 ml of FeSO4-EDTA mixture induces less than ethanol though noticeable effect. The obtained data have shown that cord-blood circulating specific antibodies could be transformed into PRIG at some conditions in vivo. If so, this process might play an important role in the organism defence against infections but could, probably, facilitate the development of atherosclerosis, cardiac infarct, cerebral stroke or tumors.
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PMID:[Transformation of specific antibodies to polyreactive immunoglobulins and their binding to blood vessel walls]. 1291 52

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