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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The superoxide (O2.-) scavenging activity and the neuroprotective effects of pterin-6-aldehyde (P6A), a xanthine oxidase inhibitor, were examined and compared with those of alpha-phenyl-N-tert-butyl nitrone (PBN), a spin trapping agent. The scavenging activity of P6A was more potent than that of PBN by 150-fold in neutrophil/phorbol myristate acetate O2.- generating system. P6A attenuated the neuronal damage with a much smaller dose and a greater efficiency than PBN in global brain ischemia in gerbils. These findings suggest that P6A is a more potent neuroprotective agent than PBN and has possible therapeutic effects against various diseases in which O2.- is involved.
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PMID:Neuroprotective effects of pterin-6-aldehyde in gerbil global brain ischemia: comparison with those of alpha-phenyl-N-tert-butyl nitrone. 950 30

We present analytical and neuroprotective data on a unique spin trapping agent derived from a novel chemical class known as an azulenyl nitrone (AZN). Based on Colorimetric properties, AZN was used to assess the formation of free radicals in a bilateral carotid occlusion (BCO) model in gerbils by monitoring the conversion of the nitrone to the aldehyde in affected tissue. In addition, AZN was tested as a neuroprotectant in this model regarding the preservation of CA1 pyramidal cells of the hippocampus following transient ischemia/reperfusion. AZN was electrochemically oxidized to give the aldehyde using an HPLC system with on line electrochemical oxidation. The oxidation potential associated with a 50% loss of AZN occurred at about 600 mV (half-wave potential versus palladium electrode). The major product detected as AZN oxidation occurred in an aqueous methanolic medium was the corresponding azulenyl aldehyde. Oxidation of AZN was inversely related to the formation of the aldehyde. Based on this test, we considered the in vivo conversion of AZN to aldehyde to be a measurement of oxidative stress in tissue. Results show that 0.3% of hippocampal AZN was converted to aldehyde in animals treated as shams. However, in gerbils subjected to a 7-min ischemic insult plus 7-min reperfusion, the conversion rate was about 3 times higher at 1.0%. In this model, surviving CA1 hippocampal neurons were counted from gerbils that were subjected to 7 mins of BCO followed by 5 days of reperfusion. In sham animals, about 89 cells were counted in a selected field of CA1 neurons. With injury, only 27 cells on average survived (70% loss) and were counted from this selected field. Under similar conditions and AZN treatment, 57 cells survived (36% loss). We conclude, therefore, that the demonstrated neuroprotection occurs because AZN neutralizes radicals which contribute to neuronal damage following ischemia/reperfusion.
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PMID:Azulenyl nitrones: colorimetric detection of oxyradical end products and neuroprotection in the gerbil transient forebrain ischemia/reperfusion model. 958 4

Giant cell arteritis (GCA) is a systemic vasculitis preferentially affecting large and medium-sized arteries. Inflammatory infiltrates in the arterial wall induce luminal occlusion with subsequent ischemia and degradation of the elastic membranes, allowing aneurysm formation. To identify pathways relevant to the disease process, differential display-PCR was used. The enzyme aldose reductase (AR), which is implicated in the regulation of tissue osmolarity, was found to be upregulated in the arteritic lesions. Upregulated AR expression was limited to areas of tissue destruction in inflamed arteries, where it was detected in T cells, macrophages, and smooth muscle cells. The production of AR was highly correlated with the presence of 4-hydroxynonenal (HNE), a toxic aldehyde and downstream product of lipid peroxidation. In vitro exposure of mononuclear cells to HNE was sufficient to induce AR production. The in vivo relationship of AR and HNE was explored by treating human GCA temporal artery-severe combined immunodeficiency (SCID) mouse chimeras with the AR inhibitors Sorbinil and Zopolrestat. Inhibition of AR increased HNE adducts twofold and the number of apoptotic cells in the arterial wall threefold. These data demonstrate that AR has a tissue-protective function by preventing damage from lipid peroxidation. We propose that AR is an oxidative defense mechanism able to neutralize the toxic effects of lipid peroxidation and has a role in limiting the arterial wall injury mediated by reactive oxygen species.
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PMID:Aldose reductase functions as a detoxification system for lipid peroxidation products in vasculitis. 1019 73

The ubiquitin-proteasome protein degradation pathway is crucial in controlling intracellular levels of a variety of short-lived proteins and maintaining cellular growth and metabolism. In a previous study, we showed the accumulation of conjugated ubiquitin in CA1 neurons of the gerbil after 5 min of forebrain ischemia (; ). The accumulation of conjugated ubiquitin may reflect proteasome malfunction. In the present study, we investigated the effects of proteasome inhibitors on primary neuronal cultures to determine whether proteasomal malfunction induces neuronal death. When carbobenzoxy-Leu-Leu-Leu-aldehyde or lactacystin, two different types of proteasome inhibitors, were separately used to suppress proteasome activity, we observed induction of apoptotic neuronal cell death in both cases. During the apoptotic process, mitochondrial membrane potential was disrupted, cytochrome-c was released from mitochondria into the cytosol, and caspase-3-like proteases were activated. Apoptosis was inhibited by pretreatment with acetyl-aspartyl-glutamyl-valyl-aspart-1-aldehyde or overexpression of Bcl-x/(L). These results demonstrated that suppression of proteasome function induces neuronal apoptosis via the release of cytochrome c from mitochondria and activation of caspase-3-like proteases.
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PMID:Proteasome inhibitors induce cytochrome c-caspase-3-like protease-mediated apoptosis in cultured cortical neurons. 1062 3

In histological studies using retinas, eyes are commonly fixed with aldehyde derivatives administered by immersion or perfusion. However, the histology of rat retinas chemically fixed as a whole eye is typically inferior to the histology of retinas that are immediately fixed after acute dissection from the rest of the eye. Chemical fixation without dissection often results in neuronal swelling resembling excitotoxic damage induced by ischemia because the retina is protected by the sclera and is thus poorly accessible to immersion or perfusion fixation techniques. In order for the acute dissection technique to work properly, it must be completed in a timely manner, which may be difficult under some circumstances. Microwave irradiation is an alternative method for fixing tissues that are inaccessable to chemicals. We examined the effectiveness of microwave irradiation of the whole eye as a substitute for acute retinal dissection. To study the feasibility of microwave methods, we compared retinal morphology using microwave irradiation to morphology using conventional immersion fixation methods. Eyes were removed from rats, placed in a container with 2 or 20 ml artificial cerebrospinal fluid (aCSF) and irradiated with a household microwave oven. For morphological comparison, control eyes were immersed in a chemical fixative containing 1% paraformaldehyde and 1.5% glutaraldehyde. All eyes were embedded in araldite for evaluation by light microscopy. Retinal segments acutely isolated before immersion fixation revealed intact histology whereas retinal segments exposed to 60 min of simulated ischemia showed severe neuronal degeneration. Using an immersion technique, the retinas of chemically fixed whole eyes showed neuronal swelling similar to excitotoxic ischemic damage, suggesting that conventional immersion methods provide poor whole eye fixation. The neuronal degeneration observed with conventional immersion fixation was not found in retinas of whole eyes fixed with 20 sec of microwave irradiation. During microwave irradiation the temperature in the bathing aCSF rose to 55-72 degrees C. In some eyes, overcooking produced chromatin clumping and a small loss of contrast in staining. Although nuclear clumping and diminished staining occasionally result from overcooking, ischemic damage is well controlled with microwave fixation of enucleated eyes. When the optimal conditions are defined, microwave fixation may be preferable for retinal histology if chemical fixation following acute dissection is not feasible.
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PMID:Comparison of rat retinal fixation techniques: chemical fixation and microwave irradiation. 1065 44

Xanthine oxidase (XO)-catalyzed nitrite reduction with nitric oxide (NO) production has been reported to occur under anaerobic conditions, but questions remain regarding the magnitude, kinetics, and biological importance of this process. To characterize this mechanism and its quantitative importance in biological systems, electron paramagnetic resonance spectroscopy, chemiluminescence NO analyzer, and NO electrode studies were performed. The XO reducing substrates xanthine, NADH, and 2,3-dihydroxybenz-aldehyde triggered nitrite reduction to NO, and the molybdenum-binding XO inhibitor oxypurinol inhibited this NO formation, indicating that nitrite reduction occurs at the molybdenum site. However, at higher xanthine concentrations, partial inhibition was seen, suggesting the formation of a substrate-bound reduced enzyme complex with xanthine blocking the molybdenum site. Studies of the pH dependence of NO formation indicated that XO-mediated nitrite reduction occurred via an acid-catalyzed mechanism. Nitrite and reducing substrate concentrations were important regulators of XO-catalyzed NO generation. The substrate dependence of anaerobic XO-catalyzed nitrite reduction followed Michaelis-Menten kinetics, enabling prediction of the magnitude of NO formation and delineation of the quantitative importance of this process in biological systems. It was determined that under conditions occurring during no-flow ischemia, myocardial XO and nitrite levels are sufficient to generate NO levels comparable to those produced from nitric oxide synthase. Thus, XO-catalyzed nitrite reduction can be an important source of NO generation under ischemic conditions.
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PMID:Characterization of the magnitude and kinetics of xanthine oxidase-catalyzed nitrite reduction. Evaluation of its role in nitric oxide generation in anoxic tissues. 1131 67

Mitochondrial dysfunction is a characteristic of ischemia/reperfusion (I/R) injury in the heart. While oxidative stress has been implicated in mitochondrial damage in I/R injury, the underlying mechanisms are unclear. 4-Hydroxynonenal (HNE) is a toxic aldehyde generated by lipid peroxidation. The purpose of the present study was to assess the role of HNE in I/R-induced damage of a crucial component of the mitochondrial electron transport chain, cytochrome c oxidase (COX). I/R was induced in male WKY rats by 15 mins of ischemia followed by reperfusion for up to 3 h. COX activity was measured spectrophotometrically at 550 nm. HNE adducts with COX subunits were detected by Western Blot using an HNE-histidine antibody. HNE and reduced glutathione (GSH) contents were measured in mitochondria by HPLC. Following 3 h of reperfusion, COX activity was reduced to 59% of control, accompanied by increases in HNE adducts with COX (P<0.05). Mitochondrial HNE content in reperfused hearts was increased to 165% of control, whereas GSH was decreased to 62% of control (P<0.05). After purified COX was incubated with HNE in vitro, COX activity was decreased progressively with increasing concentrations of HNE, accompanied by concentration-dependent formation of HNE adducts with COX. GSH prevented HNE adduct formation as well as COX inhibition by HNE. These results suggest that HNE, via adduct formation with COX subunits, plays an important role in COX dysfunction caused by reperfusion. The findings also indicate that decreases in mitochondrial GSH stores in reperfused myocardium could potentiate HNE-mediated COX damage.
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PMID:Role of 4-hydroxynonenal in modification of cytochrome c oxidase in ischemia/reperfused rat heart. 1170 37

Previously, in monkeys undergoing 20 min whole brain ischemia we demonstrated that the activated calpain-induced lysosomal disruption with the resultant leakage of cathepsins B and L, causes neuronal death in the cornu Ammonis (CA) 1 sector on day 5. Selective cathepsin inhibitors significantly protected ischemic CA1 neurons from delayed necrosis. Recently, pyridoxal phosphate (PLP) and pyridoxal (hydrochloride) (PL) were demonstrated to inhibit cathepsins B and L in vitro, because the active aldehyde at position 4 of the pyridine ring has an affinity for the active site -SH of cysteine residues of cathepsins. Here, we studied whether PLP and PL can, in vivo, protect monkey CA1 neurons from ischemic insult. In monkeys undergoing 20 min whole brain ischemia, 15 mg/kg body weight/day of drugs were intravenously injected for 10 days before and after the ischemic insult. Histological analysis of the surviving CA1 neurons was done using the hippocampus resected on day 5 after ischemia. For PLP or PL, approximately 17% (P = 0.0639) or 54% (P < 0.0001) of the total population (100%) of control CA1 neurons were, respectively, saved from the ischemia-induced neuronal death, showing a remarkable contrast to the surviving neurons (approximately 3.9%) in non-treated monkeys. These data suggested that PL (perhaps PLP intracellularly) is useful as a novel neuroprotectant in primates.
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PMID:Neuroprotective effects of pyridoxal phosphate and pyridoxal against ischemia in monkeys. 1184 15

Cerebral ischemia stimulates increased activity of polyamine oxidase, a ubiquitous enzyme that catabolizes polyamines to produce 3-aminopropanal. 3-Aminopropanal is a reactive aldehyde that mediates progressive neuronal necrosis and glial apoptosis. Here we report that increased levels of 3-aminopropanal-modified protein levels in humans after aneurysmal subarachnoid hemorrhage correlate with the degree of cerebral injury as measured by admission Hunt/Hess grade. In vitro screening of clinically approved drugs reveals that N-2-mercaptopropionyl glycine (N-2-MPG), an agent clinically approved for prevention of renal stones in patients with cysteinuria, significantly inhibits the cytotoxicity of 3-aminopropanal. N-2-MPG reacts with 3-aminopropanal to yield a nontoxic thioacetal adduct, as confirmed by electrospray ionization mass spectroscopy. Administration of N-2-MPG in clinically relevant doses to rats significantly reduces cerebral 3-aminopropanal-modified protein immunoreactivity and infarct volume in a standardized model of middle cerebral artery occlusion, even when the agent is administered after the onset of ischemia. These results implicate 3-aminopropanal as a therapeutic target for cerebral ischemia.
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PMID:Neuroprotection in cerebral ischemia by neutralization of 3-aminopropanal. 1194 72

Small heat shock proteins (sHsps) are a large family of proteins with monomeric molecular weight of 12-43 kDa, present within the prokaryotic and eukariotic cell as large oligomeric complexes, ranging in size from 200-800 kDa. Unlike the high molecular weight Hsps, which are involved in protein folding in vivo, under normal conditions, sHsps play an important role in protecting organism from stress. SHsps share an evolutionarily conserved sequence of 80-100 amino acids, located in the C-terminal region, and called "alpha-crystallin domain"; its role in subunits interactions has been recently underlined by site-directed spin labeling studies and by fluorescence resonance energy transfer data. The N-terminal region, preceding the alpha-crystallin domain, is variable in length and amino acid sequence, contributing to structural diversity between different sHsps and having a role in multimerization. The alpha-Crystallin domain is followed by C-terminal extension, a polar structure, involved in protein solubility, which share no sequence homology. Expression of sHsps is induced in response to various kinds of stress including heat shock, oxidative stress, osmostress, or ischemia, but some sHsps are expressed constitutively under physiological conditions. In vitro, sHsps selectively bind and stabilize proteins and prevent their aggregation at elevated temperatures in an ATP-independent way and protect enzymes against heat-induced inactivation. Our own studies focused on the chaperone-like activity of alpha-crystallin, the major protein component of vertebrate lens, using another system than heat-induced aggregation. Our data demonstrated that alpha-crystallin specifically protects enzymes against inactivation by different posttranslational modifications such as glycation, carbamylation and aldehyde binding, and also reactivates GuHCl-denatured enzymes. Complex formation between alpha-crystallin and the denatured enzymes, was suggested as a mechanism of protection.
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PMID:Chaperone-like activity of alpha-crystallin and other small heat shock proteins. 1236 33


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