UMLS:C0038454 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Enzyme activities and contents of manganese and copper-zinc superoxide dismutase (Mn-, Cu/Zn-SOD) and oxygen free-radical scavengers were determined in the myocardium (right, left ventricle) and brain (cerebral cortex, hippocampus) of 15 and 31 week old stroke-prone spontaneously hypertensive rats (SHRSP). 2. In 15 week old SHRSP myocardium, both Mn- and Cu/Zn-SOD activities were higher but in 31 week old SHRSP, these were lower than that in Wistar-Kyoto (WKY) rats. Further, correlation between Mn-SOD content and activity in 31 week old SHRSP myocardium showed that specific activity was lower than that in WKY. 3. In 15 and 31 week old SHRSP cerebral cortex and hippocampus, SOD content and activity showed a tendency to be lower than that in WKY. 4. These results indicate that enzymatically inactive or low-active Mn-SOD protein exists in SHRSP myocardium, and that the alteration of SOD may be one of the causative factors for the vulnerability of the myocardium and brain against O2-radicals.
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PMID:Regional distribution of superoxide dismutase in the brain and myocardium of the stroke-prone spontaneously hypertensive rat. 907 37

Apoptotic, rather than necrotic, nerve cell death now appears as likely to underlie a number of common neurological conditions including stroke, Alzheimer's disease, Parkinson's disease, hereditary retinal dystrophies and Amyotrophic Lateral Sclerosis. Apoptotic neuronal death is a delayed, multistep process and therefore offers a therapeutic opportunity if one or more of these steps can be interrupted or reversed. Research is beginning to show how specific macromolecules play a role in determining the apoptotic death process. We are particularly interested in the critical nature of gradual mitochondrial failure in the apoptotic process and propose that a maintenance of mitochondrial function through the pharmacological modulation of gene expression offers an opportunity for the effective treatment of some types of neurological dysfunction. Our research into the development of small diffusible molecules that reduce apoptosis has grown from studies of the irreversible MAO-B inhibitor (-)-deprenyl. (-)-Deprenyl can reduce neuronal death independently of MAO-B inhibition even after neurons have sustained seemingly lethal damage. (-)-Deprenyl can also influence the process outgrowth of some glial and neuronal populations and can reduce the concentrations of oxidative radicals in damaged cells at concentrations too small to inhibit MAO. In accord with earlier work of others, we showed that (-)-deprenyl alters the expression of a number of mRNAs or of proteins in nerve and glial cells and that the alterations in gene expression/protein synthesis are the result of a selective action on transcription. The alterations in gene expression/protein synthesis are accompanied by a decrease in DNA fragmentation characteristic of apoptosis and the death of responsive cells. The onco-proteins Bcl-2 and Bax and the scavenger proteins Cu/Zn superoxide dismutase (SOD1) and Mn superoxide dismutase (SOD-2) are among the 40-50 proteins whose synthesis is altered by (-)-deprenyl. Since mitochondrial membrane potential correlates with mitochondrial ATP production, we have used confocal laser imaging techniques in living cells to show that the transcriptional changes induced by (-)-deprenyl result in a maintenance of mitochondrial membrane potential, a decrease in intramitochondrial calcium and a decrease in cytoplasmic oxidative radical levels. We therefore propose that (-)-deprenyl acts on gene expression to maintain mitochondrial function and decrease cytoplasmic oxidative radical levels and thereby reduces apoptosis. An understanding of the molecular steps by which (-)-deprenyl selectively alters transcription may lead to the development of new therapies for neurodegenerative diseases.
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PMID:Apoptosis in neurodegenerative disorders: potential for therapy by modifying gene transcription. 926 33

Regional distribution and age-related change of Mn-, Cu/Zn-superoxide dismutase (SOD) and constitutive type of nitric oxide synthase (NOS) activities in the brain were determined using stroke-prone spontaneously hypertensive rats (SHRSP). In the hippocampus (HIP), Mn- and Cu/Zn-SOD activities in SHRSP of 31-week-old were significantly lower than those of 15-week-old or normotensive rats (WKY). From Mn-SOD immunohistochemical staining of several subfields of the HIP, our results suggested that SHRSP hippocampal CA1 was more vulnerable to oxidative stress compared with WKY and other subfields. In the 31-week-old SHRSP cerebral cortex (CC), the activities of Mn-, Cu/Zn-SOD and NOS were significantly lower than those in WKY. At this age, most of the SHRSP developed cerebral injuries. These observations indicated that hypertensive vascular disease observed in the SHRSP CC resulted from the decreased antioxidant capacity that is closely associated with the development of stroke and, in turn, shortened life span.
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PMID:Age-related change of antioxidant capacities in the cerebral cortex and hippocampus of stroke-prone spontaneously hypertensive rats. 1050 47

Much interest has recently been shown in apoptosis-mediated roles in the pathophysiology of mitochondrial diseases, because mitochondrial defects are implicated in a wide variety of degenerative diseases. We investigated whether apoptotic events occurred in skeletal muscles of patients with mitochondrial diseases, including chronic progressive external ophthalmoplegia (CPEO), Kearns-Sayer syndrome (KSS), and mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes (MELAS). In a immunohistochemical study, stainings for 8-hydroxy-deoxyguanosine (8-OH-dG), 4-hydroxy-nonenal (4-HNE), Mn-SOD, Bcl-2, cytochrome c, DNase I and Bcl-x L showed a pronounced granular distribution in the cytochrome c oxidase (COX)-negative ragged-red fibers (RRFs). On the other hand, the signals for Bax, p53, Fas and caspase 3 were not obviously increased in RRFs. In situ labeling of DNA breaks demonstrated preferential signals not only in myonuclei but also in subsarcolemmal regions of RRFs, indicating that mitochondrial as well as myonuclear DNA is fragmented in RRFs. An immunoblotting study demonstrated that cytochrome c was increased in the cytosol of diseased muscles and that DNase I was increased in mitochondria, compared to that of normal muscles. No difference was observed between protein bands at 20 kDa corresponding to caspase 3 in diseased and normal muscles. These findings demonstrate that these mitochondrial diseases harbor unique apoptosis-related changes that differ from caspase 3-dependent apoptosis. It is thought that these changes are induced by superoxide overproduction and cytochrome c release resulting from an inherent mitochondrial defect and that the events are associated with DNase I activation.
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PMID:Apoptosis-related changes in skeletal muscles of patients with mitochondrial diseases. 1181 Jan 83

Gene transfer may be appropriate for therapeutic protocols targeted at the vascular endothelium. Endothelial dysfunction is the principal phenotype associated with atherosclerosis and hypertension. Oxidative stress has been implicated in the development of endothelial dysfunction. We have explored the ability of overexpressing anti-oxidant genes (superoxide dismutases; SODs) in vitro and in vivo to assess their potential for reversing endothelial dysfunction in a rat model, the stroke-prone spontaneously hypertensive rat (SHRSP). Western blotting and immunofluorescence assays in vitro showed efficient overexpression of MnSOD and ECSOD with respect to localisation to the mitochondria and extracellular surface, respectively. Transgene functional activity was quantified with SOD activity assays. MnSOD and ECSOD overexpression in intact SHRSP vessels in vivo led to endothelial and adventitial overexpression. Pharmacological assessment of transduced vessels following in vivo delivery by basal NO availability quantification demonstrated that the "null" adenovirus and MnSOD adenovirus did not significantly increase NO availability. However, AdECSOD-treated carotid arteries showed a significant increase in NO availability (1.91 +/- 0.04 versus 0.75 +/- 0.08 g/g, n = 6, P = 0.029). In summary, efficient overexpression of ECSOD, but not MnSOD in vivo, results in improved endothelial function in a rat model of hypertension and has important implications for the development of endothelial-based vascular gene therapy.
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PMID:Adenovirus-mediated overexpression of extracellular superoxide dismutase improves endothelial dysfunction in a rat model of hypertension. 1185 69

Stroke is one of the major causes of morbidity and mortality in recent. Oxygen free radicals produced during cerebral infarction increases the damage to neurons. Superoxide dismutase (SOD) is the endogenous antioxidant enzyme that can effectively scavenge superoxide radicals. Catechin is a hydrophilic antioxidant usually existed in tea, fruits and vegetables. In the cultured rat brain astrocytes (RBA), the activity of SOD (both Cu, Zn-SOD and Mn-SOD subtypes) was markedly increased by incubation with catechin at low concentration (0.1 microM) for 2 days (short-term) and 7 days (long-term). This stimulatory effect of catechin was not related to the incubating concentration. Similar changes were also observed in the gene expression of SOD in RBA. The increase in quantity of SOD-messenger RNA was remarkable and seemed to be more obvious than the other antioxidants such as vitamin E. This result shows that catechin is an effective antioxidant to increase the activity of SOD in RBA which would be beneficial to neurons subjected to oxygen free radical damage.
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PMID:Effect of catechin on the activity and gene expression of superoxide dismutase in cultured rat brain astrocytes. 1214 26

This study investigated the possibility that hyperglycemia induces early expression of various superoxide dismutases (SOD) and nitric oxide synthases (NOS) following focal cerebral ischemia in the rat. MnSOD, CuZnSOD, nNOS and eNOS mRNA and protein expression were examined 3 h after permanent middle cerebral artery occlusion under acute hyperglycemic or normoglycemic conditions. 2,3,5-triphenyltetrazolium chloride (TTC) treatment post-mortem revealed a significant area at risk of infarction following ischemia in hyperglycemic compared to normoglycemic rats. Although no changes in MnSOD, CuZnSOD, nNOS and eNOS mRNA expression were detected, Western blots of ischemic cortex revealed an increase in MnSOD and CuZnSOD protein expression in hyperglycemic compared to normoglycemic rats. Pre-treatment of hyperglycemic rats with the NOS inhibitors L-nitroarginine methyl ester (L-NAME) and 7-nitroindazole (7-NI) or dehydroascorbic acid (DHA), a superoxide scavenger, significantly reduced the TTC delineated zone. The hyperglycemia-induced post-transcriptional upregulation of MnSOD and CuZnSOD levels suggest a response to increased superoxide production which, in the presence of increased nitric oxide production, may play a major role in the increased risk of damage following hyperglycemic stroke.
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PMID:Expression of superoxide dismutase in hyperglycemic focal cerebral ischemia in the rat. 1538 Jun 26

The early phase of preconditioning (PC) lasts 2 to 3 hours and protects against myocardial infarction, but not against stunning. In contrast, the late phase of PC lasts for 3 to 4 days and protects against both myocardial stunning and infarction, making this phenomenon more clinically relevant. Late PC is a genetic reprogramming of the heart that involves the activation of several stress-responsive genes, which ultimately results in the development of a cardioprotective phenotype. Sublethal ischemic insults release chemical signals (nitric oxide [NO], adenosine, and reactive oxygen species) that trigger a series of signaling events (eg, activation of protein kinase C, Src protein tyrosine kinases, Janus kinases 1/2, and nuclear factor-kappaB) and culminates in increased synthesis of inducible NO synthase, cyclooxygenase-2, heme oxygenase-1, aldose reductase, Mn superoxide dismutase, and probably other cardioprotective proteins. In addition to ischemia, heat stress, exercise, and cytokines can also induce a similar series of events. Perhaps most importantly, many pharmacologic agents (eg, NO donors, adenosine receptor agonists, endotoxin derivatives, or opioid receptor agonists) can mimic the effects of ischemia in inducing the late phase of PC, suggesting that this phenomenon might be exploited therapeutically. The purpose of this review is to summarize the mechanisms that underlie the late phase of ischemic PC.
Stroke 2004 Nov
PMID:Delayed adaptation of the heart to stress: late preconditioning. 1545 41

The study of oxidative contributions to aging has reached sufficient maturity to support the development of interventional strategies designed to forestall or reverse protein cross-linking, oxidation of DNA and lipids, and mitochondrial senescence associated with chronic pathology and aging. Catalytic antioxidants, including combined superoxide dismutase (SOD) and catalase mimics, extend the lifespan of oxidatively compromised animals such as Mn-SOD knockout mice, and will be entering the clinic for radiation-induced dermatitis. Substituted phenacylthiozolium compounds that slow the formation and break extant protein cross-linkages formed via Maillard reactions, restoring vascular compliance in aged animals, and are showing efficacy in clinical trials. Non-feminizing estrogen analogs (eg, 17- alpha estradiol) block cytotoxicity in a host of oxidative stress models and moderate neuronal loss in MCAO stroke models. Efficacy of the polycyclic phenols is synergistically amplified by glutathione supplementation, suggesting that the two function as a redox couple analogous to vitamin E and ascorbate. Finally, discovery of novel small molecules designed to stabilize mitochondrial function during Ca(2+)-induced oxidative stress, such as that occurring during stroke or myocardial ischemia reperfusion, will be accelerated by a proprietary fluorescence resonance energy transfer assay developed at MitoKor. Maintaining mitochondrial function under these circumstances will improve cellular bioenergetic and oxidative status, and hence moderate secondary necrosis and apoptosis.
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PMID:Oxidative Stress and Aging - Second International Conference. Technologies for assessment and intervention strategies. 2-5 April 2001, Maui, USA. 1599 30

Bradykinin is considered an important mediator of the inflammatory response in both the peripheral and the central nervous system and it has attracted recent interest as a potential mediator of brain injury following stroke. Bradykinin is recognized to play an important role in ischemic brain. We investigated the effect of bradykinin postconditioning on ischemic damage after 8 min of ischemia (four-vessel occlusion) and 3 days of reperfusion. Bradykinin was administered after 2 days of reperfusion at a dose of 150 microg/kg (i.p.). Catalase (CAT) activity was significantly increased in all examined regions (cortex, hippocampus and striatum) 3 days after 8 min of ischemia, but postconditioning decreased this activity below the control values. The total activity of superoxide dismutase (SOD) 3 days after ischemia was at control level with or without postconditioning. However, the analysis of individual SODs separately revealed interesting differences; while the activity of CuZnSOD was significantly decreased 3 days after ischemia, the activity of MnSOD was significantly increased compared to control levels. In both cases, postconditioning returned SOD activity to control levels. These findings are interesting because MnSOD is a mitochondrial enzyme and its activity in the cytosol suggests that a possible mechanism of protection provided by postconditioning could include prevention of release of mitochondrial proteins to the cytoplasm, resulting in protection against the mitochondrial pathway of apoptosis. 8 min of ischemia alone caused the degeneration of 52.37% neurons in the hippocampal CA1 region 3 days later. Bradykinin used as postconditioning 2 days after the same interval of ischemia enabled the survival of more than 97% of CA1 neurons. This study demonstrated that bradykinin postconditioning induces protection against ischemic brain injury and promotes neuronal survival.
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PMID:Effects of bradykinin postconditioning on endogenous antioxidant enzyme activity after transient forebrain ischemia in rat. 1808 Jan 86

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