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)

The objective of this study was to investigate the effects of trimetazidine (TMZ) on tissue damage in kidney after hindlimb ischemia-reperfusion (I/R), by assessing blood biochemical assay and histopathological analysis. Adult male Wistar rats were divided into two groups. TMZ 10 mg kg(-1)day(-1) was administrated twice a day for 10 days to the treatment group (group T, n=10). Sham group was given only 5% gum arabic (group S, n=10). On 11th day of treatment, 8h I/R period was performed on right hindlimb of the rats. At the end of reperfusion period, a 5 ml blood withdrawn from ascending aorta for biochemical assays and their right kidneys were harvested for histopathological examination. Superoxide dismutase, Na(+)-K(+) ATPase, and reduced glutathione levels were significantly increased in group T (P<0.001). On the other hand, myeloperoxidase and malondialdehyde levels were significantly less in group T than group S (P<0.001). Kidneys from the sham-operated group displayed intense leukocytic infiltration in histopathological examination. These overall results strongly suggested that TMZ contributes renal protection from hindlimb I/R injury by decreasing systemic oxidative stress.
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PMID:Effects of trimetazidine on tissue damage in kidney after hindlimb ischemia-reperfusion. 1236 97

Reperfusion of ischemic tissues can be associated with structural and functional injury, which is referred to as ischemia-reperfusion injury. Superoxide dismutase is an endogenous free radical scavenger that converts toxic oxygen derived free radicals to hydrogen peroxide. With the development of gene cloning technology, the potential of manipulating cells to overexpress endogenous proteins has been realized. Transgenic mice capable of overexpressing superoxide dismutase, and knockout mice in which the gene responsible for its production has been deleted, were used as a model to examine the protective effects of superoxide dismutase against ischemia-reperfusion injury. Epigastric island flaps were elevated in wild-type (control), transgenic superoxide dismutase 1, and knockout superoxide dismutase 1 mice and subjected to ischemic intervals of 0, 3, 6, 9, or 12 hours. Five animals were studied at each time point in each study group. Flap viability was assessed on postoperative day 7. Baseline wild-type flap survival was 100 percent after 3 hours of ischemia and subsequent reperfusion; survival decreased to 21 percent after 9 hours of ischemia. Transgenic mice had significantly higher flap survival than wild-type animals after 6 hours of ischemia and subsequent reperfusion (97.0 versus 85.2 percent) and after 9 hours of ischemia (82 versus 21 percent, p < 0.01). In knockout mice, there was complete flap necrosis after as little as 3 hours of ischemia. This study confirms the protective effects of superoxide dismutase against ischemia-reperfusion injury. In addition, its deficiency results in a dramatic susceptibility to ischemic injury.
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PMID:Protective effects of superoxide dismutase against ischemia-reperfusion injury: development and application of a transgenic animal model. 1249 86

There is evidence that oxidants generated during ischemic preconditioning (IPC) trigger or mediate cardioprotection. We examined whether a causal relationship exists between oxidant formation during ischemic preconditioning and cardioprotection. We monitored formation of dityrosine in crystalloid-perfused guinea pig isolated hearts after a preconditioning protocol and after prolonged ischemia. Superoxide dismutase, catalase, and glutathione (SCG), or the L-arginine analogue NGnitro L-arginine methyl ester (L-NAME) were given during preconditioning. Dityrosine was observed in the coronary effluent immediately after both stimuli, but not after bracketing with SCG or L-NAME. After prolonged ischemia, dityrosine was significantly lower in the IPC group than in other groups. IPC was evidenced by improved mechanical and metabolic function on reperfusion, and by reduced infarction. These effects were abrogated by either SCG or L-NAME. These data support the hypothesis that the formation of nitric oxide-derived oxidants during ischemic preconditioning is causally related to myocardial adaptation to reperfusion injury.
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PMID:Ischemic preconditioning: triggering role of nitric oxide-derived oxidants in isolated hearts. 1457 6

The role of reactive oxygen species in the pathogenesis of the neurotoxicity associated with ischemia-reperfusion, was investigated in a model of primary rat neuronal cultures and of differentiated PC12 cells, subjected to chemical ischemia by iodoacetic acid (IAA, 2.5 h) followed by a short period of reperfusion (1 h). The injury to the cells was assessed by lactate dehydrogenase (LDH) release into the culture media. The PC12 cells exhibited relative resistance to IAA cytotoxicity. Therefore these cells were studied at a 4-fold higher IAA concentration (400 microM instead of 100 microM for the neurons). The injury to both cell types was significantly greater in the short post-insult reperfusion (PIR) period than during the insult period. The presence, during the combined insult and PIR periods, of alpha-tocopherol (100 microM), melatonin (1 mM) and LY231617 (5 microM), conferred to both cell types considerable protection against the injury occurring during the insult and during the PIR periods (assessed separately). Superoxide dismutase (SOD; 500 IU/ml) conferred protection to the neurons, but not to the PC12 cells. When exposure to the antioxidants was limited to the short (15 min) pre insult period, only LY231617 conferred protection. In the neurons the protection occurred only during the insult period, whereas in the PC12 cells during both the insult and PIR periods. When the exposure to the antioxidants was limited to the PIR period, only SOD conferred protection and only in the neuronal cultures. These findings suggest that neuronal damage caused during ischemia-reperfusion can be diminished markedly by co-presence of antioxidants during the insult period. Certain antioxidants may protect the neurons even when present only before or after the insult.
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PMID:Reactive oxygen species play an important role in iodoacetate-induced neurotoxicity in primary rat neuronal cultures and in differentiated PC12 cells. 1462 25

After an ischemic episode, reperfusion causes profound oxidative stress in the vasculature of the afflicted tissue/organ. The dysregulated accumulation of reactive oxygen species (ROS), such as superoxide, has been closely linked to the production and release of proinflammatory mediators, a profound increase in adhesion molecule expression by the vascular endothelium, and infiltration of neutrophils during ischemia-reperfusion (I/R). Superoxide dismutase (SOD) has been shown to protect tissues and organs against I/R-induced injury; however, the drug had to be continuously perfused or kidneys had to be occluded to prevent clearance. We used intravital microscopy, a system that allowed us to visualize neutrophil-endothelial interactions within the mesenteric postcapillary venules of cats subjected to I/R and tested the hypothesis that I/R-induced neutrophil recruitment was inhibited by treatment with SOD2/3. SOD2/3 is a chimeric fusion gene product that contains the mature SOD2 as well as the COOH-terminal "tail" of SOD3 and, unlike the three naturally occurring SODs (SOD1, SOD2, and SOD3), which bear a net negative charge at pH 7.4, SOD2/3 is positively charged and physiologically stable. Our results suggest that not only does SOD2/3 have a much greater efficacy in vivo than the native human SOD2, but its administration prevents I/R-induced neutrophil-endothelial cell interactions and microvascular dysfunction. Moreover, our data support the hypothesis that reactive oxidants mediate I/R-induced injury and that the chimeric recombinant SOD2/3 has the potential to be a therapeutic agent against this debilitating illness.
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PMID:Chimeric SOD2/3 inhibits at the endothelial-neutrophil interface to limit vascular dysfunction in ischemia-reperfusion. 1508 76

A single exposure to nitric oxide (NO) donors produces a long-lasting hyporesponsiveness to phenylephrine (HRP) in rat aorta rings. Here the authors investigate the role of the endothelial layer in the development of NO-induced HRP and the putative role of endothelium-derived vasoconstrictors in counteracting it. The NO donor S-nitrosoacetyl-D,L-penicillamine (SNAP) induced a dose-dependent reduction in the maximal effect (Emax) of phenylephrine. In rings without endothelium, Emax dropped to 60%, 25%, and 10% of control values 1 h after a 30-min incubation with SNAP (2, 20, and 200 microM, respectively). In contrast, the presence of endothelium prevented the HRP induced by 2 microM SNAP and significantly reduced the HRP elicited by 20 and 200 microM SNAP (Emax reductions of 50% and 65%, respectively), thereby characterizing the endothelium protective effect. Superoxide dismutase (SOD; 100 IU/mL), MnTBAP (a nonenzymatic SOD mimetic; 100 microM), captopril (10 microM), MK886 (a lipoxygenase inhibitor; 10 microM) and BQ 123 (endothelin receptor A antagonist; 1 microM) did not change the endothelium protective effect. Therefore, increased release of vasoconstrictors that would counteract NO-induced loss in phenylephrine responses cannot account for the protective effect of endothelium. In contrast, oxidation of sulphydryls with DTNB prevented the onset of SNAP-induced HRP. A better understanding of mechanisms by which the endothelial layer (or protein sulphydryl groups present in it) exerts its protective effect towards the NO-induced loss in physiological vasoconstriction is likely to be of value in cardiovascular conditions such as ischemia/reperfusion and septic shock.
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PMID:The presence of the endothelial layer reduces nitric oxide-induced hyporesponsiveness to phenylephrine in rat aorta. 1537 Feb 95

Superoxide dismutase (SOD) has now been known for 35 years. While the superoxide radical and SOD have been implicated in many disease states including inflammatory diseases, diseases of ischemia and reperfusion, neurodegenerative diseases, and cancer, as well as more subtle roles in cell signaling and perhaps in immune function, SOD is not yet in widespread usage in human clinical medicine. One obstacle has been that none of the three human SODs possesses attractive pharmacological properties to make it a clinically useful therapeutic agent. These problems may be overcome either by the design of SOD-mimetic drugs or by genetically re-engineering the human SOD genes to produce SODs with more desirable and controllable properties for human clinical usage. A second obstacle has been the fact that a delicate balance is involved between superoxide and SOD. Produced in proper amount, superoxide is a normal and useful metabolite, serving important roles as a signaling molecule in processes such as cell division, and even serving to act as a terminator of lipid peroxidation. When flagrantly overproduced, however, the radical can initiate lipid peroxidation, protein oxidation, and DNA damage, leading to cell dysfunction and death by apoptosis or necrosis. It is these paradoxical properties that complicate the precise restoration of optimal balance between superoxide and SOD when that balance has been upset by injury, disease, or aging.
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PMID:SOD, oxidative stress and human pathologies: a brief history and a future vision. 1586 6

Superoxide dismutase (SOD) is one of the most effective mechanisms in physiology for inactivating reactive oxygen species. Elevated SOD activity can be therapeutically useful by protecting against oxidative stress-induced neurotoxicity. Acutely increased extracellular-SOD (EC-SOD) activity protects against neurobehavioral impairment caused by acute ischemia. Chronically increased EC-SOD activity may also be therapeutically useful by protecting against chronic oxidative stress-induced neurobehavioral damage that accumulates during the aging process. We have found that mice with genetic overexpression of EC-SOD do not show the aging-induced decline in learning and memory that control, wild type mice show. From 14-22 months of age, the EC-SOD overexpressing mice have significantly better spatial learning working memory function than that of controls. This effect is specific to the aging period. Young adult EC-SOD overexpressing mice do not have better learning and memory function than controls. The beneficial effects of increased EC-SOD activity with aging may be achieved without risk of impairment during younger ages by chronically administering EC-SOD mimetics from mature adulthood into the aging period. Novel EC-SOD mimetics may be useful in attenuating aging-induced cognitive impairments and other aspects of physiological decline with aging.
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PMID:Extracellular superoxide dismutase (EC-SOD) quenches free radicals and attenuates age-related cognitive decline: opportunities for novel drug development in aging. 1597 18

Lithium carbonate used in the long-term treatment of manic-depressive illness has been reported to lead to progressive renal impairment in rats and humans. Caffeic acid phenethyl ester (CAPE), a component of honeybee propolis, protects tissues from reactive oxygene species mediated oxidative stress in ischemia-reperfusion and toxic injuries. The beneficial effect CAPE on lithium-induced nephrotoxicity has not been reported yet. The purpose of this study was to examine a possible renoprotective effect of CAPE against lithium-induced nephrotoxicity in a rat model. Twenty-two adult male rats were randomly divided into three experimental groups, as follows: control group, lithium-treated group (Li), and lithium plus CAPE-treated group (Li+CAPE). Li were treated intraperitoneally (i.p.) with 25 mg/kg Li2CO3 solution in 0.9% NaCl twice daily for 4 weeks. CAPE was co-administered i.p. with a dose of 10 microM/kg/day for 4 weeks. Serum Li, blood urea nitrogen and plasma creatinine, urinary N-acetyl-beta-D-glucosaminidase (NAG, a marker of renal tubular injury), and malondialdehyde (MDA, an index of lipid peroxidation), were used as markers of oxidative stress-induced renal impairment in Li-treated rats. Superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GSH-Px) activities were studied to evaluate the changes of antioxidant status in renal tissue. Serum Li levels were found high in the Li and Li+CAPE groups. In Li-administrated rats, urinary NAG and renal MDA levels were increased according to control and Li+CAPE groups (p < 0.05). CAPE caused a significant reduction in the levels of these parameters. Likewise, renal SOD, CAT and GSH-Px activities were decreased in Li-administrated animals; CAPE caused a significant increase in the activities of these antioxidant enzymes. In conclusion, CAPE treatment has a protective effect against Li-induced renal tubular damage and oxidative stress in a rat model.
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PMID:Lithium-induced renal toxicity in rats: protection by a novel antioxidant caffeic acid phenethyl ester. 1613 21

Reamberin in a dose of 25 mg/kg (succinate concentration) was injected intravenously for 3 days starting from the 1st hour after skin ischemia modeling. This treatment decreased activities of lactate dehydrogenase, aspartate transaminase, and creatine phosphokinase in skin homogenates by 1.6 times, 19%, and 51.3%, respectively. The index of cytolysis decreased by 18%. Reamberin had an energotropic effect, which manifested in an increase in the total ATP content and concentration of creatine phosphate (by 16 and 10%, respectively). After administration of Reamberin, activity of the succinate-ubiquinone reductase system increased by 17%. Under these conditions succinate dehydrogenase activity exceeded the normal by 21%. Reamberin had no effect on the mitochondrial NADH-ubiquinone reductase system in dermal cells during skin ischemia. Superoxide dismutase activity in the area of necrosis increased to the control level on day 3 of treatment with Reamberin. Activities of catalase and glutathione peroxidase increased by 13 and 19%, respectively. Our results indicate that the course of intravenous treatment with Reamberin for 3 days contributes to an increase in reserve capacities of the antioxidant protection system and produces a protective effect during skin ischemia.
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PMID:Protective effect of reamberin on functional activity of mitochondria during skin ischemia. 1667 75

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