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)

The administration of multiple doses of cocaine on a single day during late gestation is teratogenic in rats in which hind limb ectrodactyly is a major finding (Webster and Brown-Woodman, '90). We have previously hypothesized that these limb malformations result from the generation of reactive oxygen species during the process of ischemia/reperfusion in vivo. In order to study the direct effects of cocaine versus the aberrant oxygenation it may induce, we have developed a system for culturing rat embryos between days 14 and 15 of gestation. Growth and development of cultured embryos are comparable to that of in vivo controls. Exposure to normoxia (95% O2) with or without cocaine failed to induce limb malformations and exposure to a single long period of hypoxia (20% O2) only reduced limb growth in the anterior-posterior axis. By contrast, embryos receiving multiple brief exposures to hypoxia developed a significant incidence of hind limb ectrodactyly that appeared indistinguishable from that induced by cocaine in vivo. By incubating day 14 embryos in a nitroblue tetrazolium derivative, 1-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide (MTT), it was shown that superoxide anion radical appears in the digital rays following two episodes of reperfusion. Little reaction product was seen under the other conditions. Finally, mitochondrial electron transport particles prepared from teratogenically sensitive limb buds spontaneously "leak" electrons to form superoxide anion radical whereas those from insensitive heart fail to do so. We propose that cocaine and other exposures that can transiently reduce conceptual oxygenation during late gestation are teratogenic by virtue of their capacity to induce ischemia/reperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Studies of the role of ischemia/reperfusion and superoxide anion radical production in the teratogenicity of cocaine. 132 33

We have previously proposed that cytokine-stimulated nitric oxide (NO) production is responsible for reversible myocardial depression in sepsis, trauma and ischemia. NO previously has been found to inhibit mitochondrial activity in other cell types. Accordingly, we sought to determine if cytokine-stimulated NO production inhibited cardiac myocyte mitochondrial activity. Treatment of neonatal rat cardiac myocytes with interleukin-beta (IL-1) resulted in the expression of mRNA for inducible NO synthase (iNOS) and stained positively for iNOS protein by immunohistochemistry. No iNOS staining was detected in untreated cells. IL-1 treatment resulted in significant nitrite levels vs control over 48 hrs (4.2 +/- 0.7 vs 0.3 +/- 0.2 nmol/1.25 x 10(5) cells, respectively) (n = 12) that was inhibited by 1mM NMA (0.3 +/- 0.2 nmoles; p < .01; n = 12). Mitochondrial activity was assessed by the MTT colorimetric assay using (3-4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide and OD 570-630. Mitochondrial activity was significantly inhibited by IL-1 vs control cells (0.436 +/- 0.01 vs 0.608 +/- 0.03) and reversed by 1mM NMA (0.549 +/- 0.03) or removal of IL-1 (0.662 +/- 0.02) (p < .01; n = 12 for each). These data strongly suggest that cytokine-stimulated NO production by cardiac myocytes results in reversible inhibition of mitochondrial activity.
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PMID:Cytokine-stimulated nitric oxide production inhibits mitochondrial activity in cardiac myocytes. 765 17

Matrix proteins upregulate polymorphonuclear neutrophil (PMN) oxidative metabolism in a normoxic environment. We sought to investigate the relationship between matrix proteins and adherent PMN oxidative metabolism during acute ischemia. PMN adherent to buffer, fibronectin, Arg-Gly-Asp-Ser (RGDS), or laminin were placed in either normoxic or ischemic media. PMN adherence, superoxide anion production, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) formazan production, and surface receptor expression (CD64, CD32w, CD16, CD35, and CD11b/CD18) using monoclonal antibodies directed against these receptors were assayed. Ischemia increased PMN adherence unless the PMN were adhered to fibronectin or RGDS. Ischemia reduced PMN superoxide anion, MTT formazan, and H2O2 production unless the PMN were adhered to fibronectin or RGDS. Fibronectin and RGDS prevented ischemic-induced suppression of FcR expression. Immunofluorescent studies demonstrated capping and clustering of PMN Fc and complement receptors during ischemia while adhered on matrix proteins. These results demonstrate that 1) ischemia suppresses matrix protein upregulation of PMN oxidative metabolism, which is restored by fibronectin; 2) fibronectin-mediated restoration of PMN oxidative metabolism involves the binding epitope of fibronectin; and 3) fibronectin maintains PMN oxidative metabolism during ischemia in part by maintaining PMN FcR on the cell surface and by recruiting a new population of PMN capable of undergoing oxidative metabolism.
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PMID:Matrix protein regulation of PMN oxidative metabolism during ischemia. 816 26

Ischemia/reperfusion of the small intestine can lead to metabolic and structural alterations in the mucosa. Cellular dysfunction occurs when mitochondrial metabolism is compromised, which may ultimately lead to impaired organ function. The aims of this study were to assess the suppression of cellular and mitochondrial oxidative metabolism and involvement of mitochondria in the ischemia/reperfusion injury. The mitochondria were prepared from isolated enterocytes obtained from the small intestine of anesthetized adult rats following different time periods of ischemia and ischemia followed by 5 min reperfusion. Cellular and mitochondrial function were assessed using MTT (3-(4,5-Dimethylthiazol-2-yl) -2,5-diphenyl tetrazolium bromide) reduction assay. Ischemia of increasing time periods caused a progressive decrease in cellular and mitochondrial MTT reduction in enterocytes and reperfusion showed further decrease of MTT formazan formation. Inclusion of 1 mM succinate, as respiratory substrate, showed reversal of suppression of mitochondrial function in 30-60 min ischemia whereas 90 min ischemia or short time period ischemia followed by 5 min reperfusion indicated an irreversible damage to mitochondria. This study indicated that mitochondria are a sensitive target of damage due to oxygen deficiency and possibly due to sudden burst of oxygen free radicals. Mitochondria can withstand short periods of ischemia whereas long duration ischemia or reperfusion results in irreversible damage to mitochondrial function.
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PMID:Enterocyte viability and mitochondrial function after graded intestinal ischemia and reperfusion in rats. 905 84

Contrast-enhanced dynamic study is easily feasible with a clinical MR system, for evaluating cerebral perfusion. A bolus of the paramagnetic contrast agents such as Gd-DTPA produces inhomogenity of the regional magnetic field between the capillaries and extravascular proton, and causes a decrease of signal intensity in the perfused region with T2*-weighted sequences. Echo planar imaging (EPI) is suitable for contrast-enhanced dynamic study, because it is markedly susceptible and provides high temporal-resolution. Tracer kinetic approaches are used for analysis of the dynamic data to acquire various perfusion parameters such as time delta R2* curve, rCBF, rCBV and MTT. T2*-weighted contrast-enhanced perfusion imaging is useful, especially, for detecting hyperacute ischemia and its therapeutic window, and depicting vasculature and ability of the brain tumors.
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PMID:[T2*-contrast perfusion study--principles, theory and clinical utility in evaluating cerebral hemodynamics]. 923 15

In this study, we determined whether the retina cell death observed in response to an ischemic-like insult is related to an overactivation of the ionotropic glutamate receptors and/or to a collapse of the energy levels. Cultured chick retina cells were submitted to 'chemical ischemia' by metabolic inhibition with sodium cyanide and iodoacetic acid, which block oxidative phosphorylation and glycolysis, respectively. The assessment of neuronal injury was made spectrophotometrically by quantification of cellularly reduced MTT, which gives information about mitochondrial function, or by staining with fluorescein diacetate (FDA), which correlates with changes in the plasma membrane permeability. 'Chemical ischemia' induced both an acute and a delayed time-dependent degeneration of chick retina cells. We observed that 2 min after the ischemic insult, the levels of ATP were reduced to a minimum. On the other hand, the metabolic inhibition induced the release of aspartate, glutamate and gamma-aminobutyric acid, and the activation of AMPA/kainate receptors during the period of metabolic arrest was partially responsible for the loss of mitochondrial function. However, the NMDA and non-NMDA receptor antagonists (MK-801 and CNQX) did not prevent the plasma membrane damage caused by sodium cyanide and iodoacetic acid. The results show that the collapse of the energy levels, rather than the increase in excitatory amino acids, appears to underlie the observed cell injury, suggesting an important relationship between ischemia-induced depletion of high-energy metabolites and retina cell degeneration.
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PMID:'Chemical ischemia' in cultured retina cells: the role of excitatory amino acid receptors and of energy levels on cell death. 936 12

The relationship between bioenergetics and the glutamate system was analyzed in a neuronal model of retinal cells in culture, submitted to glucose deprivation and exposed to glutamate for 2 h, and compared with exposure to glutamate in the presence of glucose. Under glucose deprivation, a reduction (about 1.1-fold) in the energy charge of the cells occurred, probably as a result of a decrement (by about 75%) in the cellular redox efficacy, as determined by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) test. In the absence of glucose, exposure of retinal cells to 10 microM glutamate potentiated the reduction in the energy charge (by about 1.2-fold) and induced a significant increase in the uptake of 45Ca2+ by the cells (1.3-fold), although no significant changes were observed in the presence of glucose. Under glucose deprivation, 100 microM glutamate caused an irreversible cell membrane damage, as shown by the significant increase in lactate dehydrogenase (LDH) leakage (about 1.8-fold). A significant increase in membrane depolarization, measured by the reduction of [3H]tetraphenylphosphonium+ ([3H]TPP+) uptake, was also observed after glutamate exposure in the absence of glucose. In the presence of glucose, high glutamate concentrations (10 mM) induced a major increase in Ca2+ entry into the cells and membrane depolarization, without affecting the energy charge or cell survival. In contrast, in the absence of glucose, 10 mM glutamate did not alter Ca2+ accumulation by the cells and a smaller decrease in membrane potential occurred, as compared to 100 microM glutamate exposure. Data shown in this study suggest that during a prolonged (2 h) and acute exposure to high glutamate (10 mM), under glucose deprivation conditions, the neuronal systems have "adaptive" mechanisms that allow the survival of cells. These findings may have implications in neuronal degeneration occurring during brain ischemia.
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PMID:Effect of glucose deprivation and acute glutamate exposure in cultured retinal cells. 974 74

Neurodevelopmental damage can occur as a result of in utero exposure to alcohol. Oxidative stress processes are one of many proposed mechanisms thought to contribute to nervous system dysfunction characterized in fetal alcohol syndrome (FAS). Therefore, this study examined neuroprotective effects of antioxidant supplementation during ethanol (EtOH) treatment (0, 200, 400, 800 or 1600 mg/dl) combined with concomitants of EtOH exposure: acute (2-h) ischemia (aISCH) and chronic (16-h) hypoglycemia (cHG). The antioxidants vitamin E and beta-carotene protected embryonic hippocampal cultures against 0-1600 mg/dl EtOH/aISCH/cHG treatments. In addition, neuronal viability, as measured by MTT ((3,4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide; 5 mg/ml)), was equal to untreated cultures when supplemented with vitamin E or beta-carotene at 0-800 mg/dl or 0-200 mg/dl EtOH/aISCH/cHG, respectively. These in vitro studies mirror potential in utero ethanol-exposed CNS conditions and may lead to therapeutic strategies targeted at attenuating neurodevelopmental FAS-related deficits.
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PMID:Vitamin E and beta-carotene protect against ethanol combined with ischemia in an embryonic rat hippocampal culture model of fetal alcohol syndrome. 1021 67

Reactive oxygen species have been implicated in cellular injury during ischemia/reperfusion (I/R). Mitochondria are one of the main targets of oxygen free radicals and damage to this organelle leads to cell death. Reports suggest that nitric oxide (NO) may offer protection from damage during I/R. This study has looked at the functional changes and lipid alteration to mitochondria during intestinal I/R and the protection offered by NO. It was observed that I/R of the intestine is associated with functional alterations in the mitochondria as suggested by MTT reduction, respiratory control ratio and mitochondrial swelling. Mitochondrial lipid changes suggestive of activation of phospholipase A(2) and phospholipase D were also seen after (I/R) mediated injury. These changes were prevented by the simultaneous presence of a NO donor in the lumen of the intestine. These studies have suggested that structural and functional alterations of mitochondria are prominent features of I/R injury to the intestine which can be ameliorated by NO.
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PMID:Attenuation of intestinal ischemia/reperfusion injury with sodium nitroprusside: studies on mitochondrial function and lipid changes. 1065 90

Activation of protein kinase C (PKC) and more recently mitogen-activated protein kinases (MAPKs) have been associated with the cardioprotective effect of ischemic preconditioning. We examined the interplay between these kinases in a characterized model of ischemic preconditioning in cultured rat neonatal ventricular cardiocytes where ectopic expression of active PKC-delta results in protection. Two members of the MAPK family, p38 and p42/44, were activated transiently during preconditioning by brief simulated ischemia/reoxygenation. Overexpression of active PKC-delta, rather than augmenting, completely abolished this activation. We therefore determined whether a similar process occurred during lethal prolonged simulated ischemia. In contrast to ischemia, brief, lethal-simulated ischemia activated only p38 (2.8+/-0.45 vs. basal, P<0.01), which was attenuated by expression of active PKC-delta or by preconditioning (0.48+/-0.1 vs. ischemia, P<0.01). To determine whether reduced p38 activation was the cause or an effect of protection, we used SB203580, a p38 inhibitor. SB203580 reduced ischemic injury (CK release 38.0+/-3.1%, LDH release 77.3+/-4.0%, and MTT bioreduction 127.1+/-4.8% of control, n=20, P<0.05). To determine whether p38 activation was isoform selective, myocytes were infected with adenoviruses encoding wild-type p38alpha or p38beta. Transfected p38alpha and beta show differential activation (P<0.001) during sustained simulated ischemia, with p38alpha remaining activated (1.48+/-0.36 vs. basal) but p38beta deactivated (0.36+/-0.1 vs. basal, P<0.01). Prior preconditioning prevented the activation of p38alpha (0.65+/-0.11 vs. ischemia, P<0.05). Moreover, cells expressing a dominant negative p38alpha, which prevented ischemic p38 activation, were resistant to lethal simulated ischemia (CK release 82.9+/-3.9% and MTT bioreduction 130.2+/-6.5% of control, n=8, P<0.05). Thus, inhibition of p38alpha activation during ischemia reduces injury and may contribute to preconditioning-induced cardioprotection in this model.
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PMID:The role of differential activation of p38-mitogen-activated protein kinase in preconditioned ventricular myocytes. 1105 45


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