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Query: UMLS:C0917798 (cerebral ischemia)
 17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the distribution and time course of the microglial reaction in the rat dorsal hippocampus after 25-min transient forebrain ischemia (four-vessel occlusion model). Microglial cells were visualized in brain sections using lectin staining with the Griffonia simplicifolia B4-isolectin following intervals of reperfusion ranging from 20 min to 4 weeks. Increased staining of microglial cells was detected in the dentate hilus and area CA1 as early as 20 min after reperfusion. These same regions demonstrated more intense microglial staining after 24 h. The strongest microglial reaction was observed 4-6 days after reperfusion when reactive microglia were abundant throughout all laminae of CA1 and the dentate hilus. Following longer reperfusion intervals, the microglial reaction became less intense; however, it remained above normal levels until the end of the fourth week. At all time points examined, microglial reactivity in the CA3 pyramidal and dentate granule cell layers was considerably lower than that observed in CA1 and dentate hilus. Our results are consistent with the known serial pathological changes associated with cerebral ischemia, but, in addition, show that the examination of the microglial reaction provides an extremely sensitive indicator of subtle and morphologically nonapparent neuronal damage during the early stages of injury.
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PMID:The microglial reaction in the rat dorsal hippocampus following transient forebrain ischemia. 171 9

The relationship between the saccharide chain on the endothelial cell surface and the permeability of intracerebral blood vessels has been studied. In the present study, wheat germ agglutinin (WGA) was perfused into capillaries in the area postrema of the normal Mongolian gerbil, where the blood brain barrier (BBB) is known to lack, and into intracerebral blood vessels, the BBB of which had been destroyed by experimentally induced brain ischemia. The light microscopic features of the sections from WGA-perfused brain tissues of the normal gerbil revealed that most of the blood vessels, including capillaries in the brain parenchyma, showed positive findings (the reaction induced a very distinct staining of the vascular wall) from which the course and structure of the fine vessels could be determined. The reaction to WGA on the diaphragma fenestra (DF) in capillaries in the area postrema was relatively weak, and DF without the reaction were occasionally revealed by electron microscopy. The gerbil, in which cerebral ischemia had been induced, also showed partial defect of the reaction with WGA on the luminal side of the endothelial cells. The results of the present experiment suggest some degree of correlation between the saccharide chains, including the specific monosaccharide of WGA, on the endothelial cell surface and permeability. It was considered that lectin can be used as an index for morphological observations, suggesting an alteration in function of the endothelial cell membrane. In addition, the perfusion method in this experiment suggested the possibility of distinguishing pinocytotic vesicles from pits of cell membranes.
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PMID:Experimental study of WGA binding on the endothelial cell surface in cerebral ischemia. 298 Jan 3

The morphological and histochemical changes in the rat brain, resulting from global cerebral ischemia due to cardiac arrest and cessation of respiratory function, connected with the disturbances of blood-brain barrier mechanisms inclined us to perform a series of studies on the localization of specific sugar residues in the membrane glycoprotein chains, using lectin techniques. Chosen lectins, represented by synthetic plant glycoproteins which are specifically bound to particular sugar residues located on the cell surfaces, made it possible to localize the following sugar residues: beta-D-galactose (using Ricinus communis agg.-RCA-1); beta-D-galactosyl (Ricinus communis agglutinin <RCA-1>), N-acetyl-glucosaminyl and N-acetyl-neuraminic acid (Wheat germ agglutinin WGA), N-acetyl-glucosaminyl (Helix pomatia agglutinin <HPA> and Dolichos biflorus agglutinin<DB A>), N-acetyl and N-glycol-neuraminic acid (Limax flavus agglutinin <LFA>), alpha-D-galactosyl and D-galactosyl neuraminic acid (Peanut agglutinin <PNA>), alpha-D-galactosyl and alpha-D-mannosyl (Concanavalin A <Con A>), alpha-D-galactosyl and alpha-D-galactopyranoside (Bandeirea simplicifolia agglutinin A <BSA>). In the presented paper changes in the localization of examined glycoconjugates found both in the vascular network as well as in other morphological elements of the brain (neurons, glial cells and neuropil), resulting from 10 min cardiac arrest, connected with global cerebral ischemia are characterized. In the group of control animals the strongest reaction of the vessels was obtained with RCA-1 and BSA, weaker with WGA and the weakest with DBA and LFA. Experimental rats, examined at different time following resuscitation showed significant changes in the histochemical reaction with use of different lectins. Sugar residues revealed by BSA disappeared from the brain vessels already 3 h following clinical death reappearing at 3 and 14 days after ischemia and regaining the picture described in control animals one year later. Additionally the experimental animals were characterized by a remarkably weaker reaction with WGA while location and intensity of RCA-1 receptors in the brain blood vessels remained unchanged or even increased. Additionally in the group of rats which survived 3 days after ischemia, the number of vascular receptors revealed by DBA also increased. The neuropil was characterized by a strong affinity to the sugar residues recognized by DBA, HPA, BSA, PNA, and LFA. As a rule it was stronger in the white structures of the brain than in the gray ones. Starting from the 24 h of postresuscitation till the end of the observation (1 year) staining reaction of neuropil with the above mentioned lectins was reduced. From the group of glycoconjugates used the strongest reaction in parenchymal brain cellular elements concerned those sugar residues which are identified Con A and HPA. In a group of experimental animals staining reaction with Con A was decreased whereas that with HPA was remarkably increased in all animals which survived ischemia. Additionally, BSA-recognized residues not detectable in normal conditions appeared in the neurons and glial cells of hippocampus and subiculum. The presented results indicate deep histochemical and probably functional changes taking place in endothelial cells as well as in other cellular elements of the brain and in neuropil of animals which survived clinical death. The abnormalities appearing in the early postischemic stage persisted for the long observation time indicating an active and progressing process leading to postischemic encephalopathy.
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PMID:Lectin histochemistry in the rats brain in experimental postresuscitation syndrome. (Early and late changes). 879 96

We investigated the expression of cyclin D1 and its kinase, cdk4, after induction of focal cerebral ischemia in the rat. Brain from rats (n = 6) subjected to 2 hours of transient middle cerebral artery occlusion and 46 hours of reperfusion, and control sham-operated (n = 3) and normal (n = 2) rats were processed for dual label immunohistochemical study for cellular identification of the expression of these cell cycle proteins. Antibodies raised against microtubule-associated protein 2 and neuronal specific enolase for neurons, glial fibrillary acidic protein for astrocytes, myelin basic protein for oligodendrocytes and lectin histochemical study with the B4-isolectin for microglia were used for cell type identification. Double staining for DNA fragmentation detection (TUNEL) and expression of cyclin D1 and cdk4 also was performed. Cyclin D1 and cdk4 were selectively expressed in morphologically intact or altered neurons and oligodendrocytes localized to the ischemic tissue. Apoptotic cells were not immunoreactive to cyclin D1 and cdk4 at 46 hours after 2 hours of middle cerebral artery occlusion. The selective expression of cell cycle proteins observed in nonapoptotic ischemic postmitotic neurons and oligodendrocytes suggests a role for these proteins in cell survival after transient focal cerebral ischemia.
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PMID:Immunoreactivity of cyclin D1/cdk4 in neurons and oligodendrocytes after focal cerebral ischemia in rat. 929 May 82

Severe transient focal cerebral ischemia causes brain infarction with a strong glial reaction. We have studied whether postischemic reactive glial cells express epidermal growth factor receptor (EGFR) following middle cerebral artery occlusion in the rat. We have also looked for signs of proliferating activity, as EGFR is known to be involved in cell growth and proliferation in certain non-neural cells. EGFR was studied using three different antibodies which were found to stain for a tyrosine-phosphorylated protein (p170) corresponding to the membrane-anchored EGFR. Neurons of the control brain were strongly immunoreactive to EGFR, but a decrease of EGFR-immunoreactivity was seen in the ipsilateral brain side from 24 h postischemia due to neuronal loss. However, the presence of abundant glial cells strongly immunoreactive to EGFR became apparent in this area from 4 days postischemia onward. The use of microglial (lectin or OX-42) and astroglial (GFAP) markers showed that these postischemic EGFR-stained cells were reactive microglia/macrophages and astroglia. The subcellular localization of EGFR in reactive microglia/macrophages was compatible with the network of the Golgi apparatus, as revealed with an antibody against a peripheral membrane-bound protein of the Golgi. The presence of abundant proliferating cells in the ischemic brain was detected from 4 days postischemia with an antibody against proliferating cell nuclear antigen. Proliferating reactive microglia/macrophages were abundant within the infarcted brain side, whereas proliferating astrocytes were found mainly in the immediate periphery of the infarct limiting the necrotic area from the undamaged tissue. These proliferating cells were immunoreactive to EGFR. The results show the presence of EGFR in postischemic reactive glial cells and suggest that EGFR-dependent pathways mediate signal transduction in reactive glia following transient focal cerebral ischemia.
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PMID:Epidermal growth factor receptor in proliferating reactive glia following transient focal ischemia in the rat brain. 960 Mar 80

Although interleukin-6 (IL-6) has various neuroprotective effects against cerebral ischemia, the topographic distribution and cellular source of IL-6 after cerebral ischemia remain unclear. In the current study, the localization of IL-6 protein was immunohistochemically examined in rats after 3.5, 12, 24, and 48 hours of reperfusion after 1.5 hours of middle cerebral artery occlusion. Middle cerebral artery occlusion was induced by the intraluminal suture method. The specificity of the anti-IL-6 antibody used in the current study was confirmed by Western blot analysis and an immunoabsorption test. To identify the cellular source, lectin histochemical study and immunohistochemical study with microtubule-associated protein-2, ED1, and glial fibrillary acidic protein also were carried out. The sham group did not show any clear IL-6 immunoreactivity. After 3.5 hours of reperfusion, IL-6 immunoreactivity was first detected on the reperfused side, and it was upregulated, especially in the periinfarct region, after 24 hours of reperfusion. Also, IL-6 was expressed after 3.5 hours of reperfusion in the contralateral cerebral cortex and bilateral hippocampi. Double staining showed that the cells containing IL-6 were neurons and round-type microglia, not astrocytes. The current findings suggest that IL-6 expression in ischemically threatened neurons and reactive microglia is closely associated with brain tissue neuroprotective mechanisms against cerebral ischemia.
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PMID:Temporal profile and cellular localization of interleukin-6 protein after focal cerebral ischemia in rats. 1056 72

The cytokine leukemia inhibitory factor (LIF) modulates neuronal function during development and promotes neuronal survival after peripheral nerve injury, but little is known about LIF expression after cerebral ischemia. In the present study, the localization of LIF protein was immunohistochemically examined in rats after 3.5, 12, 24, 48, and 96 hours of reperfusion following 1.5 hours of middle cerebral artery occlusion (MCAO) induced by the intraluminal suture method. Double-staining immunohistochemistry with microtubule-associated protein-2 (MAP2), glial fibrillary acidic protein (GFAP), lectin histochemistry, and interleukin (IL) 6 was also performed. The sham group and immunosorption test did not show any clear LIF immunoreactivity. Definite LIF immunoreactivity was first detected after 12 hours of reperfusion in each of the brain regions examined: ischemic core, periinfarct region, and contralateral cortex. However, expression of LIF was most prominent in the periinfarct region at each time point, peaked at 24 hours, and then gradually declined until 96 hours of reperfusion. Some LIF-positive neurons in the periinfarct region expressed IL-6. At 96 hours of reperfusion, GFAP-labeled astrocytes around the infarct core also expressed LIF protein. Induction of LIF mRNA and protein was also confirmed by reverse transcription polymerase chain reaction and western blot analysis, respectively. These findings suggest that LIF expression in ischemically threatened neurons may reflect a repair or defense mechanism against the ischemic insult.
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PMID:Immunohistochemical detection of leukemia inhibitory factor after focal cerebral ischemia in rats. 1077 10

There is considerable evidence that complement activation occurs within the CNS in inflammatory and degenerative disorders, but little is known about its involvement in the pathophysiology of cerebral ischemia. Our study sought to characterize the glial response and the expression of complement factors after permanent focal cerebral ischemia in the mouse, using semiquantitative reverse transcription-polymerase chain reaction (RT-PCR), in situ hybridization, and immunohistochemistry. mRNA expression of glial fibrillary acidic protein (GFAP) increased at day 1 and peaked 3 days after middle cerebral artery (MCA) occlusion in the perifocal area. Immunohistochemical staining for GFAP indicated that astroglia were activated the day after MCA occlusion. Microglial activation, as assessed by lectin-binding experiments, increased by 1 day after MCA occlusion in the perifocal area and peaked at 3 days postocclusion. RT-PCR experiments demonstrated an increased expression of clusterin, C1qB, and C4 mRNA in the ischemic cortex, with a peak level at 3 days after MCA occlusion. Clusterin, C1qB, and C4 mRNA were located in the perifocal area, as assessed by in situ hybridization. Reactive astrocytes within the cortex medial to the ischemic lesion were found to be strongly immunoreactive for clusterin. In addition, we observed C1q-positive macrophage-like cells within the infarcted core at 3 days postocclusion. At 7 days after the onset of ischemia, increased C4 immunostaining was restricted to perifocal neurons. We conclude that local expression of complement components may contribute to the inflammation observed in this model, thereby representing an important process in secondary injury mechanisms after focal cerebral ischemia.
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PMID:Glial responses, clusterin, and complement in permanent focal cerebral ischemia in the mouse. 1081 5

We have recently demonstrated that the beta-galactoside-specific lectin galectin-3 is expressed by microglial cells in vitro, but not by normal resting microglia in vivo. In the present study, we have analyzed the expression of galectin-3 by microglia under traumatic conditions in vivo using two experimental rat models which substantially differ in the severity of lesion related to a breakdown of the blood-brain barrier (BBB) and the occurrence of inflammatory processes. These two features are absent after peripheral nerve lesion and present after cerebral ischemia. Here we show that, following facial nerve axotomy under conditions allowing (nerve anastomosis) or not subsequent regeneration (nerve resection), galectin-3 is not expressed by microglia in the corresponding facial nucleus 1-112 days after lesion. Galectin-3 is also absent in microglia at sites of a defective BBB in the normal brain, such as the circumventricular organs. Following experimental ischemia (i.e., permanent occlusion of the middle cerebral artery), in contrast, galectin-3 becomes strongly expressed by activated microglia as early as 48 hours after trauma, as determined by immunohistochemistry and Western blot analysis. Our findings suggest that the expression of galectin-3 by microglia in vivo correlates with the state of microglial activation.
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PMID:Galectin-3 is upregulated in microglial cells in response to ischemic brain lesions, but not to facial nerve axotomy. 1093 29

Spatial and temporal relations between transcriptional factor NF kappa B activation and glia reaction in gerbil hippocampus after transient cerebral ischemia has been studied. Activation of protein binding to NF kappa B consensus oligonucleotide was determined by electrophoretic mobility gel shift assay (EMSA) in homogenates from dorsal (DP- an equivalent of CA1 sector) and abdominal (AbP- containing CA2-4 and gyrus dentatus) parts of hippocampus. A significant activation of NF kappa B binding was observed exclusively in DP as early as 3 h after ischemia and at this time that response preceded any other morphological signs of postischemic tissue injury. This early enhancement of NF kappa B binding was followed by microglia activation visualized in CA1 pyramidal region at 24 h of recovery by histochemical staining with lectin from Ricinus communis (RCA-120). Simultaneously, only a moderate increase of immunostaining against glial fibrillary acidic protein (GFAP) was observed homogeneously in all parts of hippocampus. This uniform pattern of astrogliosis was preserved until postischemic day 3-4, when apoptotic DNA fragmentation in CA1 pyramidal neurons had been clearly documented by TUNEL staining. At this period however, continuous elevation of NF kappa B binding in DP corresponded with similar response manifested also in AbP of the hippocampus. These results evidence a preferential NF kappa B involvement in an early microglia activation in the apoptogenic CA1 sector, although its role in a later astrocytic response to ischemia could not be neglected too.
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PMID:Interrelations between nuclear-factor kappa B activation, glial response and neuronal apoptosis in gerbil hippocampus after ischemia. 1131 21


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