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)

Endothelin (ET) binding sites in male Wistar rat brains subjected to a 20-min four-vessel occlusion (transient forebrain ischemia model) which induces hippocampal neuron death, and in human brains with Alzheimer disease, were mapped by quantitative in vitro autoradiography employing [125I]ET-1 as a radioligand. Rats were decapitated 4 or 7 days after ischemia. In the rat brain, the [125I]ET-1 binding sites were remarkably increased in the hippocampal CA1 and dentate gyrus, ventral thalamic nucleus, and cortical vessels 4 and 7 days after ischemia, when many reactive astroglia were observed. The [125I]ET-1 binding sites decreased in the cerebral cortex affected by Alzheimer disease. The binding was abolished by 1 microM unlabeled ET-1, ET-3, sarafotoxin S6b, and BQ788 (an ETB antagonist) but not by BQ123 (an ETA antagonist), suggesting that the [125I]ET-1 binding sites are as ETB receptors. The present findings raise the possibility that a glial ET system could be responsible for the occurrence of ischemic neuron cell death.
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PMID:Endothelin receptors in ischemic rat brain and Alzheimer brain. 858 5

Central nervous system has a low antioxidative capacity, which is formed mainly by ascorbic acid. Therefore the cerebral tissue is threatened by the increased formation of free radicals and their metabolites (ROS--reactive oxygen species). ROS are formed such as in reperfusion phase after ischemia and in catecholamine metabolism, in oxidative stress due to hyperglycaemia. Polyunsaturated fatty acids (PUFA) are peroxidased by ROS; proteins and DNK are damaged as well. Free radicals are involved in etiology and pathogenesis of many CNS diseases, such as neuritis, Alzheimer disease, Parkinson disease, Huntington disease, aging and atherosclerosis of the brain, epilepsy, etc. During the antioxidant therapy it is necessary to consider the types of ROS, their origin and their mode of action, whether to administer hydrophilic or lipophilic antioxidants, eventually chelate agents, etc. Hydrophylic antioxidants are acting very soon after the administration, whereas the lipophilic ones reach their target tissues with a great delay. Therefore it is better to apply them preferentially like a prevention, if possible. Enzymatic antioxidants (SOD, GSPHx and catalase and others) are usually acting only for a short time. The methods of estimation of free radicals attacks are discussed as well their possible pathophysiological effects.
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PMID:[Free radicals in the central nervous system]. 866 12

B/A4 is the major component of brain amyloid plaque, one of the hallmarks of Alzheimer's disease (AD). B/A4 is a product of proteolytic processing of its precursor, the Alzheimer amyloid precursor protein (APP). Recently, apolipoprotein E (APO-E) has also been shown to be associated with Alzheimer's disease pathology because it is localized to plaques and tangles, and the gene encoding one of the isoforms of APO-E (E4) is associated with late-onset familial and sporadic AD. In addition, APO-E exhibits high affinity for binding to the B-peptide (B/A4). In this study, we have investigated changes in the steady state levels of APP, APO-E, and the astrocyte-specific marker, glial fibrillary acidic protein (GFAP) mRNA in the gerbil hippocampal CA1 region after a 10-min period of bilateral carotid occlusion-induced forebrain ischemia. Following this insult, we observed a loss of 90% of the CA1 neurons by 72 h post-ischemia. The mRNA levels on day 1 through day 7 post-ischemia were quantitated using an image analyzer. There was an increase in the transcription of APO-E and GFAP mRNAs, with the levels of APO-E mRNA being the highest (3-fold increase on day 7 post-ischemia) (P < 0.005). However, we did not see an increase in APP mRNA. In a parallel study [Hall, E.D. et al., Exp. Neurol., 135(1995) 17-27], we have also seen an increase in levels of APO-E and GFAP protein measured by immunocytochemistry. However, in contrast to the lack of an increase in APP mRNA, immunocytochemical measurement of APP did show an increase, perhaps due to delayed translation of previously formed mRNA. We suggest that neuronal injury or insult results in the induction of certain genes (and, therefore, protein synthesis) in the surrounding reactive astrocytes, and these proteins may contribute to post-injury amyloidogenesis.
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PMID:Induction of apolipoprotein E mRNA in the hippocampus of the gerbil after transient global ischemia. 873 65

We developed an antibody specific to beta-amyloid precursor protein (beta APP) fragments possessing the exact amino terminus of the beta-amyloid peptide and examined its induction in postischemic hippocampus. In control hippocampus, this APP fragment was lightly observed in pyramidal neurons of CA sectors and dentate granule cells. Transient forebrain ischemia enhanced accumulation of the APP fragment in CA1 pyramidal neurons. Seven days after the ischemia, while the APP fragment was still observed in dentate granule cells and CA3 neurons, it disappeared in dead CA1 neurons. While astrocytes did not show in any immunoreactivity throughout the experiment, those in the CA1 sector showed moderate immunoreactivity 7 days after the ischemia. The APP fragment has a cytotoxic effect on cultured neurons. These results suggest that the accumulation of the cytotoxic APP fragment in CA1 neurons may play a role in the development of delayed neuronal death after the ischemic insult.
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PMID:Cytotoxic fragment of amyloid precursor protein accumulates in hippocampus after global forebrain ischemia. 889 94

We have investigated the cerebral cortex of Alzheimer's disease in which small infarcts are found on postmortem neuropathological examination. In areas that have been subjected to recent ischemia, immunohistochemical staining for amyloid beta-protein (A beta) is much less intense than in the non-ischemic surround. However, the infiltrating brain macrophages contain granules immunopositive for C-terminal fragments of A beta. The immunohistochemical profile indicates that A beta in these granules lacks epitopes in the N-terminal fragments. These data suggest that appropriately stimulated macrophages can phagocytose A beta deposits and that digestion of the N-terminal region is an early consequence of this phagocytosis.
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PMID:The amino-terminally truncated forms of amyloid beta-protein in brain macrophages in the ischemic lesions of Alzheimer's disease patients. 897 93

We studied the role of the amyloid precursor protein (APP) in ischemic brain damage using transgenic mice overexpressing APP. The middle cerebral artery (MCA) was occluded in FVB/N mice expressing APP695.SWE (Swedish mutation) and in nontransgenic littermates. Infarct volume (cubic millimeters) was assessed 24 hr later in thionin-stained brain sections. The infarct produced by MCA occlusion was enlarged in the transgenics (+32 +/- 6%; n = 12; p < 0. 05; t test). Measurement of APP by ELISA revealed that, although relatively high levels of Abeta were present in the brain of the transgenics (Abeta1-40 = 80 +/- 19 pmol/g; n = 6), there were no differences between ischemic and nonischemic hemispheres (p > 0.05). The reduction in cerebral blood flow produced by MCA occlusion at the periphery of the ischemic territory was more pronounced in APP transgenics (-42 +/- 8%; n = 9) than in controls (-20 +/- 8%; n = 9). Furthermore, the vasodilatation produced by neocortical application of the endothelium-dependent vasodilator acetylcholine (10 microM) was reduced by 82 +/- 5% (n = 8; p < 0.05) in APP transgenics. The data demonstrate that APP overexpression increases the susceptibility of the brain to ischemic injury. The effect is likely to involve the Abeta-induced disturbance in endothelium-dependent vascular reactivity that leads to more severe ischemia in regions at risk for infarction. The cerebral vascular actions of peptides deriving from APP metabolism may play a role in the pathogenic effects of APP.
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PMID:Increased susceptibility to ischemic brain damage in transgenic mice overexpressing the amyloid precursor protein. 931 87

The pathogenetic mechanisms causing a dementing brain disease after temporary ischemia, heat shock, or brain trauma are surveyed. These lesions increase beta amyloid precursor protein (beta APP) synthesis. This process is potentiated by an ischemic glutamate release that opens cellular Ca2+ channels, inhibiting glucose turnover and ATP production, which is, under these conditions, accompanied by the generation of beta amyloid (beta A), even in young persons. Beta amyloid starts a vicious circle by inactivating the glycolytic key enzyme, phosphofructokinase, which, with age, exhausts the functional reserve capacity of the brain. This demonstrates that beta A is an epiphenomenon of a dementing brain disease, triggered by the disturbance of glucose turnover and oxidative phosphorylation. Clinical studies have shown that a dementing brain disease can be clearly objectified and monitored by 18F-2-deoxyglucose PET studies. This paper looks briefly at pharmacologic approaches to this disease using models of temporary ischemia, the testing of 14C-deoxyglucose turnover, or examination with 31P magnetic resonance spectroscopy techniques. In conclusion, the key process of all dementing brain diseases of the Alzheimer type is a decreased glucose turnover and subsequently decreased oxidative phosphorylation, linked directly to a secondary amyloid formation and nerve cell atrophy.
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PMID:Pathogenesis of decreased glucose turnover and oxidative phosphorylation in ischemic and trauma-induced dementia of the Alzheimer type. 932 94

Zinc is an important trace element in biology. An important pool of zinc in the brain is the one present in synaptic vesicles in a subgroup of glutamatergic neurons. In this form it can be released by electrical stimulation and may serve to modulate responses at receptors for a number of different neurotransmitters. These include both excitatory and inhibitory receptors, particularly the NMDA and GABA(A) receptors. This pool of zinc is the only form of zinc readily stained histochemically (the chelatable zinc pool), but constitutes only about 8% of the total zinc content in the brain. The remainder of the zinc is more or less tightly bound to proteins where it acts either as a component of the catalytic site of enzymes or in a structural capacity. The metabolism of zinc in the brain is regulated by a number of transport proteins, some of which have been recently characterized by gene cloning techniques. The intracellular concentration may be mediated both by efflux from the cell by the zinc transporter ZrT1 and by complexing with apothionein to form metallothlonein. Metallothionein may serve as the source of zinc for incorporation into proteins, including a number of DNA transcription factors. However, zinc is readily released from metallothionein by disulfides, increasing concentrations of which are formed under oxidative stress. Metallothionein is a very good scavenger of free radicals, and zinc itself can also reduce oxidative stress by binding to thiol groups, decreasing their oxidation. Zinc is also a very potent inhibitor of nitric oxide synthase. Increased levels of chelatable zinc have been shown to be present in cell cultures of immune cells undergoing apoptosis. This is very reminiscent of the zinc staining of neuronal perikarya dying after an episode of ischemia or seizure activity. Thus a possible role of zinc in causing neuronal death in the brain needs to be fully investigated. intraventricular injections of calcium EDTA have already been shown to reduce neuronal death after a period of ischemia. Pharmacological doses of zinc cause neuronal death, and some estimates indicate that extracellular concentrations of zinc could reach neurotoxic levels under pathological conditions. Zinc is released in high concentrations from the hippocampus during seizures. Unfortunately, there are contrasting observations as to whether this zinc serves to potentiate or decrease seizure activity. Zinc may have an additional role in causing death in at least some neurons damaged by seizure activity and be involved in the sprouting phenomenon which may give rise to recurrent seizure propagation in the hippocampus. In Alzheimer's disease, zinc has been shown to aggregate beta-amyloid, a form which is potentially neurotoxic. The zinc-dependent transcription factors NF-kappa B and Sp1 bind to the promoter region of the amyloid precursor protein (APP) gene. Zinc also inhibits enzymes which degrade APP to nonamyloidogenic peptides and which degrade the soluble form of beta-amyloid. The changes in zinc metabolism which occur during oxidative stress may be important in neurological diseases where oxidative stress is implicated, such as Alzheimer's disease, Parkinson's disease, and amyotrophic lateral sclerosis (ALS). Zinc is a structural component of superoxide dismutase 1, mutations in which give rise to one form of familiar ALS. After HIV infection, zinc deficiency is found which may be secondary to immune-induced cytokine synthesis. Zinc is involved in the replication of the HIV virus at a number of sites. These observations should stimulate further research into the role of zinc in neuropathology.
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PMID:Zinc metabolism in the brain: relevance to human neurodegenerative disorders. 936 Dec 93

In a rabbit spinal cord ischemia model (RSCIM), the time courses of neuropathological damage of the spinal cord and neurological impairment of the motor functions are well established, demonstrating that the extent of neuropathological damage and the severity of neurological impairment are closely correlated. We used the RSCIM to elucidate the effects of reversible (15 min) and irreversible (60 min) ischemia on the endogenous levels of amyloid protein precursors (APPs) at both the mRNA and protein levels in the caudolumbar/sacral region of the spinal cord. We speculate that endogenous APPs are induced by ischemia as either trophic factors or stress-induced proteins in the RSCIM. A 15-min occlusion transiently increased the APP protein levels in neurons, which returned to the original levels by the end of 60 min occlusion. The increase in APP protein levels during 15-min ischemic insult does not appear to involve regulation at the mRNA level. The increased level of APPs, particularly of the soluble form, could support the possibility that APPs play a neuroprotective role in the RSCIM as stress-induced proteins. In contrast, failure to maintain the increased APP protein levels or to increase the mRNA, as seen in the 60-min ischemia samples, may be one of the causal factors that induce necrosis and neuronal cell death leading to irreversible neurological impairment.
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PMID:Reversible ischemia increases levels of Alzheimer amyloid protein precursor without increasing levels of mRNA in the rabbit spinal cord. 938 69

The beta-amyloid (A beta 1-40) peptide has previously been shown to enhance phenylephrine contraction of aortic rings in vitro. We have employed a novel observation, that A beta peptides enhance endothelin-1 (ET-1) contraction, to examine the relationship between vasoactivity and potential amyloidogenicity of A beta peptides, the role played by free radicals and calcium in the vasoactive mechanism, and the requirement of an intact endothelial layer for enhancement of vasoactivity. Rings of rat aortae were constricted with ET-1 before and after addition of amyloid peptide and/or other compounds, and a comparison was made between post- and pre-treatment contractions. In this system, vessel constriction is consistently dramatically enhanced by A beta 1-40, is enhanced less so by A beta 1-42, and is not enhanced by A beta 25-35. The endothelium is not required for A beta vasoactivity, and calcium channel blockers have a greater effect than antioxidants in blocking enhancement of vasoconstriction by A beta peptides. In contrast to A beta-induced cytotoxicity, A beta-induced vasoactivity is immediate, occurs in response to low doses of freshly solubilized peptide, and appears to be inversely related to the amyloidogenic potential of the A beta peptides. We conclude that the mechanism of A beta vasoactivity is distinct from that of A beta cytotoxicity. Although free radicals appear to modulate the vasoactive effects, the lack of requirement for endothelium suggests that loss of the free radical balance (between NO and O2-) may be a secondary influence on A beta enhancement of vasoconstriction. These effects of A beta on isolated vessels, and reported effects of A beta in cells of the vasculature, suggest that A beta-induced disruption of vascular tone may be a factor in the pathogenesis of cerebral amyloid angiopathy and Alzheimer's disease. Although the mechanism of enhanced vasoconstriction is unknown, it is reasonable to propose that in vivo contact of A beta peptides with small cerebral vessels may increase their tendency to constrict and oppose their tendency to relax. The subclinical ischemia resulting from this would be expected to up-regulate beta APP production in and around the vasculature with further increase in A beta formation and deposition. The disruptive and degenerative effects of such a cycle would lead to the complete destruction of cerebral vessels and consequently neuronal degeneration in the affected areas.
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PMID:Characteristics of the in vitro vasoactivity of beta-amyloid peptides. 951 24

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