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)

Calbindin D28k (CaBP) is present throughout the entire cell volume of all dentate granule cells in the rat and its appearance is a useful indicator of their development and maturation. Kindling induces a dramatic reduction of granule cell CaBP content but does not make granule cells any more susceptible to the effects of ischemia in adult rats. Others have reported that the levels of CaBP are regulated by corticosterone but our results (in adrenalectomized Wistar or hypophysectomized Sprague-Dawley rats) suggest that any effect is small and transitory. Parvalbumin (PV) is located quite specifically within the entire cell volume of a subpopulation of GABAergic neurons both in the granule cell layer and hilar zone. It appears quite late in the development of the neurons. Reports that kindling induces an increase in PV immunoreactivity in neurons within the hippocampal formation are not supported by the direct measurement of PV levels by radioimmunoassay. Hypophysectomy resulted in a significant fall in PV levels in a number of brain areas including the combined dentate gyrus/CA3 region of the hippocampal formation.
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PMID:Calcium-binding proteins in the dentate gyrus. 146 67

We induced repeated focal cerebral ischemia in gerbils. Single 5-min ischemia produced neuronal damage limited to the ipsilateral CA1 and CA4 hippocampus. Two 5-min ischemic insults spaced at a 1-h interval caused selective neuronal damage to the CA1, CA3 and CA4 hippocampus, striatum, neocortex, and thalamus. Three 5-min ischemic insults at 1-h intervals produced infarction. Thus, repeated focal ischemia produced cumulative brain damage by conversion of sublethal damage into selective neuronal damage and of the neuronal damage into infarction.
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PMID:Repeated focal cerebral ischemia in gerbils is associated with development of infarction. 146 95

Transient (5-min) global forebrain ischemia, induced by four- vessel occlusion, was assessed using a multiple fixed-ratio, fixed-interval schedule of food presentation in five rats. Under control conditions, the schedule produced distinctive response rates in each schedule component. Initially, ischemia disrupted responding under both schedule components, and to approximately the same degree. In general, total session responses returned to pre-occlusion levels during the course of 45 post-occlusion days, however, response rates under the fixed-interval component showed slightly less recovery than those under the fixed-ratio component. Histological assessment revealed considerable variability in hippocampal damage between rats. Severe damage in the CA1, CA2, and CA3 formations was observed in a single rat, and that rat also showed the greatest degree of response disruption. These results suggest that schedule-controlled responding may be a valuable method for assessing the effects of ischemic injury, and thus, putative neuroprotective compounds, on complex behavior.
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PMID:Evaluation of transient forebrain ischemia induced by four vessel occlusion using schedule-controlled behavior. 148 34

Alterations of beta/A4 amyloid protein precursor (APP) were investigated immunohistochemically in the gerbil brain after transient global ischemia and subsequent reperfusion. Marked accumulation of this protein peaking at 24 h occurred in the neurons of the CA3 and paramedian region of the hippocampus as well as layers III, V and VI of the cerebral cortex. On the contrary, the accumulation was not observed in the neurons of the CA1 region. These results indicate that distribution of APP is altered depending on tissue viabilities after cerebral ischemia.
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PMID:Regional accumulation of amyloid beta/A4 protein precursor in the gerbil brain following transient cerebral ischemia. 149 78

Distributions of heat shock protein (HSP)-70 mRNAs and heat shock cognate protein (HSC)-70 mRNAs after 10 min of transient global ischemia were investigated in gerbil forebrain by in situ hybridization using cloned cDNA probes selective for the mRNAs. Expression of HSP70 immunoreactivity was also examined in the same brains. In hippocampal CA1 neuronal cells, in which only a minimal induction of immunoreactive HSP70 protein was found, the strong hybridization for HSP70 mRNA disappeared at around 2 days before the death of CA1 cells became evident. Furthermore, in hippocampal CA3 cells, a striking induction of HSP70 mRNA was sustained even at 2 days along with a prominent accumulation of HSP70 immunoreactivity. In contrast to the case of HSP70 mRNA, HSC70 mRNA was present in most neuronal cells, especially dense in CA3 cells, of the sham brain. A co-induction of HSP70 and HSC70 mRNAs was observed in several cell populations after the reperfusion with a peak at 8 h, although the magnitude of HSC70 mRNA induction was lower than that of HSP70 mRNA, particularly in CA1 cells. The expression of HSC70 mRNA in CA1 cells also disappeared at around 2 days. All the induced signals of HSP70 and HSC70 mRNAs in other cell populations were diminished and returned to the sham level, respectively, by 7 days. These results are the first to show the time courses of distribution of HSP70 and HSC70 mRNAs and the immunoreactive HSP70 protein in the same gerbil brain after ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Distributions of heat shock protein-70 mRNAs and heat shock cognate protein-70 mRNAs after transient global ischemia in gerbil brain. 150 43

We used monoclonal antibodies to examine the immunohistochemical distribution of the three major Ca(2+)-dependent protein kinase C (PKC) isozymes (I, II, and III) in ischemic gerbil hippocampus. Groups of four animals were sacrificed at 15 min, 4 h, 1 day, 2 days, 3 days, and 7 days after a 10-min episode of global forebrain ischemia. In control animals, PKC-I immunoreactivity was greater in CA1 neurons than in CA3-4. Terminal-like staining was not evident. PKC-II immunoreactivity was observed in all CA fields and in the outer molecular layer of the dentate gyrus. PKC-III staining was present in the CA fields, the inner molecular layer of the dentate gyrus and the subiculum. Dentate granule cells and mossy fibers were not stained with any of the PKC antibodies. Fifteen minutes and 4 h after ischemia, PCK-I, -II and -III immunoreactivity were all increased in CA1 neurons and PKC-III immunoreactivity alone was visualized in granule cells and mossy fibers. Staining patterns returned to baseline one day after ischemia. PKC-II and -III terminal-like staining were preserved in the stratum lacunosum-moleculare for 3 days and 2 days after ischemia respectively and then disappeared. The altered patterns of PKC staining in the hippocampus may reflect activation and/or down-regulation of PKC isozymes. Ca(2+)-dependent PKC isozymes may, therefore, potentially play a role in the pathogenesis of delayed ischemic neuronal death.
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PMID:Immunohistochemical distribution of protein kinase C isozymes is differentially altered in ischemic gerbil hippocampus. 152 42

The distribution of heat shock protein (HSP) 70 and heat shock cognate protein (HSC) 70 mRNA after 30 min of middle cerebral artery (MCA) occlusion was investigated in rat brain by in situ hybridization using cloned cDNA probes selective for the mRNAs. While HSP70 mRNA was hardly present at caudate and dorsal hippocampal levels of the sham brain this mRNA was greatly induced in cells of the MCA territory 1 h after reperfusion. Although the maximum amount of induced HSP70 mRNA in the caudate was much smaller than that in the cortex the maximum induction in the caudate (3 h) preceded that in the cortex (8 h). In contrast to the case of HSP70 mRNA, HSC70 mRNA was present in most cells of the sham brain, and was especially dense in hippocampal CA3 cells. Further induction of HSC70 mRNA was observed after reperfusion in the same cell populations, as in the case of HSP70 mRNA. HSC70 mRNA levels were significantly reduced in the caudate at 8 h when small amounts of HSP70 mRNA were still elevated. In the ipsilateral granule cells of the dentate gyrus and hippocampal CA3 cells a slight but significant induction of HSC70 mRNA was observed from 1 h to 1 day, while obvious induction of HSP70 mRNA never occurred. All the induced signals of HSP70 and HSC70 mRNA were diminished or returned to the sham level by 7 days, except for HSC70 mRNA in the caudate. These results are the first observations of the distribution of HSP70 and HSC70 mRNA after transient focal ischemia of rat brain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Distributions of heat shock protein (HSP) 70 and heat shock cognate protein (HSC) 70 mRNAs after transient focal ischemia in rat brain. 152 56

We studied the alterations in the binding of muscarinic cholinergic and adenosine A1 receptors following transient cerebral ischemia in Mongolian gerbils and examined the effects of the novel vinca alkaloid derivative vinconate and pentobarbital against the alterations in the binding of these receptors. Animals were allowed to survive for 5 h and 7 days after 10 min of cerebral ischemia induced by bilateral occlusion of common carotid arteries. [3H]Quinuclidinyl benzilate (QNB) and [3H]cyclohexyladenosine (CHA) were used to label muscarinic cholinergic and adenosine A1 receptors, respectively. The [3H]QNB and [3H]CHA bindings showed no significant alteration in the gerbil brain 5 h after ischemia. However, these bindings in the striatum, the hippocampal CA1 sector, and the hippocampal CA3 sector revealed a significant reduction 7 days after ischemia. The [3H]CHA binding also showed a significant decline in the dentate molecular layer 7 days after ischemia. Intraperitoneal application of vinconate (100 and 300 mg/kg) 10 min and pentobarbital (40 mg/kg) 30 min before ischemia showed a mild reduction in the [3H]CHA binding in the brain 5 h after ischemia. Especially, the reduction was found in the hippocampal CA1 sector and the dentate molecular layer. However, the [3H]QNB binding revealed no significant alteration in the brain 5 h after ischemia. Seven days after ischemia, both drugs prevented a marked reduction in the [3H]CHA binding in the striatum, but not in the hippocampal CA1 sector, the hippocampal CA3 sector, and the dentate molecular layer. By contrast, vinconate and pentobarbital failed to prevent the reduction in the [3H]QNB binding in the striatum. Morphological study indicated that vinconate and pentobarbital ameliorated the neuronal damage to the striatum, but not the hippocampal damage 7 days after ischemia. This histological finding was relatively consistent with the alteration in the [3H]CHA binding. These receptor autoradiographic and histological data suggest that vinconate and pentobarbital can protect the brain from both cellular and functional consequences of ischemia. These findings are of interest in relation to the mechanisms of ischemic brain damage.
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PMID:Postischemic alteration of muscarinic acetylcholine and adenosine A1 binding sites in gerbil brain. Protective effects of a novel vinca alkaloid derivative, vinconate, and pentobarbital using an autoradiographic study. 152 67

Transient arrest of the cerebral blood circulation results in neuronal cell death in selectively vulnerable regions of the rat brain. To elucidate further the involvement of glial cells in this pathology, we have studied the temporal and spatial distribution pattern of activated microglial cells in several regions of the ischemic rat brain. Transient global ischemia was produced in rats by 30 min of a four-vessel occlusion. Survival times were 1, 3, and 7 days after the ischemic injury. The microglial reaction was studied immunocytochemically using several monoclonal antibodies, e.g., against CR3 complement receptor and major histocompatibility complex (MHC) antigens. Two recently produced monoclonal antibodies against rat microglial cells, designated MUC 101 and 102, were also used to identify microglial cells. Following ischemia, the microglial reaction was correlated with the development of neuronal damage. The earliest presence of activated microglial cells was observed in the dorsolateral striatum, the CA1 area, and the dentate hilus of the dorsal hippocampus. However, the microglial reaction was not confined to areas showing selective neuronal damage, but also occurred in regions that are rather resistant to ischemia, such as the CA3 area. Particularly in the frontoparietal cortex, the appearance of MHC class II-positive microglial cells provided an early indication of the subsequent distribution pattern of neuronal damage. The microglial reaction would thus seem to be an early, sensitive, and reliable marker for the occurrence of neuronal damage in ischemia.
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PMID:Immunocytochemical study of an early microglial activation in ischemia. 154 98

We show a differential up-regulation of immunomolecules in the rat dorsal hippocampus accompanying neuronal cell death as a consequence of transient forebrain ischemia (four-vessel occlusion model). Using a panel of monoclonal antibodies (mAbs), we have examined the time course of expression of major histocompatibility complex (MHC) antigens class I (OX-18) and class II (OX-6), leukocyte common antigen (OX-1), CD4 (W3/25) and CD8 (OX-8) antigens, CR3 complement receptor (OX-42), as well as brain macrophage antigen (ED2). The study was performed at time intervals ranging from 1 to 28 days after reperfusion. Throughout all post-ischemic time periods, strongly enhanced immunoreactivity on microglial cells in the CA1 region and dentate hilus and, to a lesser extent, in CA3 was demonstrated with mAb OX-42. MHC class I-positive cells (OX-18) appeared on day 2, whereas cells immunoreactive with OX-1 and W3/25 became evident in the CA1 and hilar regions on post-ischemic day 6. In contrast, MHC class II (Ia) antigen was first detected on indigenous microglia by day 13. In some animals, the OX-8 antibody resulted in the labelling of scattered CD8-positive lymphocytes, but perivascular inflammatory infiltrates were absent. No changes in the expression of ED2 immunoreactivity on perivascular cells could be observed. The results show that following ischemic injury, microglial cells demonstrate a time-dependent up-regulation and de novo expression of certain immunomolecules, indicative of their immunocompetence. The findings are compared with those obtained in other models of brain injury.
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PMID:Progressive expression of immunomolecules on microglial cells in rat dorsal hippocampus following transient forebrain ischemia. 155 47

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