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)

The induction of c-fos protein-like immunoreactivity (CFPLI) was examined in the hippocampus of gerbils at several time points after transient global ischemia. c-Fos protein induction was largely confined to the dentate gyrus, CA3 and CA4 regions from 2 to 8 h after transient bilateral carotid occlusion. Little CFPLI was seen in the CA1 subfield, which is disproportionately sensitive to injury after global ischemia. c-Fos induction was completely blocked by pretreatment with MK-801 (3 mg/kg). Our results show that c-fos expression after global ischemia is NMDA receptor mediated, and mainly found in hippocampal neurons resistant to ischemic injury.
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PMID:Global ischemia induces NMDA receptor-mediated c-fos expression in neurons resistant to injury in gerbil hippocampus. 182 11

The distribution of brain cell injury following transient ischemia is remarkable because only certain neurons in distinct brain regions are destroyed (selective neuronal death). Because excitatory neurotransmitters (glutamate and aspartate) cause a similar pattern of selective neuronal death, it seemed only natural to associate these effects with the trauma of ischemia. This led to the formulation of the excitotoxin hypothesis, which explains selective neuronal death as a result of excessive interstitial concentration increases of excitatory amino acids during ischemia, resulting in the opening of receptor-coupled ionophores, of which calcium channels are of particular interest. A large influx of calcium associated with impaired intracellular calcium sequestration mechanisms due to energy failure activates a host of catabolic enzymes that ultimately will cause neuronal death. The purpose of this work was (a) to measure extracellular glutamate concentration increases during ischemia in a selective vulnerable brain region (rat CA1 hippocampus), (b) to evaluate the toxicity of such a concentration increase, and (c) to investigate the relationship between ischemia-induced glutamate accumulation and changes of calcium homeostasis. The execution of these experiments required a method that was able to sample excitatory amino acids in the brain extracellular space for subsequent analysis by high performance liquid chromatography (HPLC). The choice of the microdialysis technique proved most satisfactory and further mathematical analysis made it possible to transform dialysate glutamate concentrations to extracellular concentrations. The study demonstrated that extracellular glutamate in CA1 reached toxic concentrations during ischemia. There appeared to be a clear correlation between ischemia-induced glutamate accumulation and the decrease in extracellular calcium since both changes were prevented in the denervated CA1 (the destruction of glutamatergic innervation from CA3 protects CA1 pyramidal neurons from ischemic damage). By contrast, blockade of N-methyl-D-aspartate (NMDA) receptors with the glutamate antagonist APV was only partially effective in preventing the ischemia-induced calcium changes in CA1. Taken together, these results support the excitotoxin hypothesis but question the rational of treating neuronal injury caused by transient global ischemia exclusively with NMDA antagonists.
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PMID:The excitotoxin hypothesis in relation to cerebral ischemia. 193 86

The potential role of the nonconstitutive 72-kDa heat-shock protein (HSP72) in selective neuronal vulnerability to ischemia was studied in rats subjected to graded global ischemia. Immunocytochemistry using a monoclonal antibody against HSP72 was performed on tissue collected after 24 hr of reperfusion. The appearance of HSP72 immunoreactivity correlated in a graded fashion with those regions known to be selectively vulnerable in ischemia. That is, HSP72 was induced in only hilar interneurons and CA1 pyramidal cells following brief ischemia. After intermediate durations of ischemia, HSP72 was expressed in the CA3 neurons and cortical layers 3 and 5, and after the longest intervals, HSP72 appeared in dentate granule cells. Heat-shock protein expression preceded cell death (assessed with acid fuchsin staining) in all regions. This temporal profile suggests that the capability of neurons to express HSP72 is unlikely to account for selective vulnerability of different brain regions following ischemia; its role in neuroprotection during ischemic injury in vivo remains unknown.
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PMID:The temporal profile of 72-kDa heat-shock protein expression following global ischemia. 200 65

A quantitative autoradiographic study was made on the binding of the phosphatidylinositol system ligand [3H]inositol(1,4,5)-trisphosphate (IP3) to forebrain sections from rats decapitated various times after 10 min of forebrain ischemia. To investigate the effect of a deafferentation of the hippocampal CA1, kainic acid-induced CA3-lesioned rats with or without 10 min of cerebral ischemia, were also included. The highest binding was found in the hippocampal CA1. Ten min of cerebral ischemia did not change the binding significantly. Between 5 min and 1 h of recirculation there was a 25-35% binding decline in all regions. In the CA1, where the pyramidal cells became necrotic 6 days after ischemia, there was a further decline to 16% of control. In the cortex, where there is no necrosis in this model, binding did not return to control values until day 14. Four days after a selective CA3 lesion with kainic acid, there was a significant 25% decline in the cortex, dentate gyrus and CA1, whereas in the necrotic CA3 binding declined to 54% of control. Ten min of ischemia did not alter this binding significantly. This decrease in calcium mobilizing intracellular receptors after ischemia and seizures could be due to increased membrane degradation, or to a more specific down-regulation following increased intracellular concentration of calcium and IP3.
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PMID:Modification of [3H]inositoltrisphosphate binding in kainic acid-lesioned and postischemic rat hippocampus. 201 67

Global ischemia was produced in adult rats by combining bilateral carotid artery occlusions with systemic hypotension for 5 or 10 minutes. Induction of the 72 kD heat shock protein (HSP72) in the hippocampus was examined immunocytochemically 18-24 hours later. Several patterns of HSP72-like immunoreactivity (HSP72LI) were observed. Five minutes of ischemia induced HSP72 in isolated columns of CA1a pyramidal neurons, or throughout CA1 pyramidal neurons and dentate hilar neurons. Ten minutes of ischemia induced marked HSP72LI in CA3 pyramidal neurons, moderate HSP72LI in dentate granule cells, and minimal HSP72LI in CA1 pyramidal, dentate hilar neurons, and hippocampal glia. Two hippocampi subjected to 10 minutes of ischemia exhibited marked HSP72LI in capillary endothelial cells but no neuronal or glial HSP72LI. It is proposed that (a) the induction of HSP72 in hippocampal sectors correlates with their vulnerability to global ischemia (CA1 greater than hilus greater than CA3 greater than dentate gyrus); (b) the induction of HSP72 in hippocampal cells correlates with their vulnerability to global ischemia in that mild ischemia induced HSP72 only in neurons, moderate ischemia in neurons and glia, and severe ischemia only in capillary endothelial cells; (c) the failure to induce HSP72 in hippocampal neurons in 2 cases of 10 min ischemia may be related to severe injury causing disruption of protein synthesis in these cells.
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PMID:Induction of heat shock protein 72-like immunoreactivity in the hippocampal formation following transient global ischemia. 201 84

In this report we describe changes in the intracellular redistribution of raf serine/threonine protein kinase (product of the raf proto-oncogene family) in hippocampal neurons following cerebral ischemia in Mongolian gerbils. For immunohistochemical localization studies polyclonal antisera specific for each of the A, B, and Raf-1 isotypes of raf, as well as a pan-raf antisera, were employed. Of these, only sera recognizing B-raf, as well as the general v-raf (raised against the conserved C-terminal region) were positive, indicating that B-raf is the major isotype in this neuronal region. Three different ischemic models were used (repeated 3 times for two min and single 5 or 15 min occlusions, of the common carotid arteries) to demonstrate that ischemic insult causes redistribution of raf protein kinase into the cell nucleus of hippocampal neurons. Increased amounts of raf protein in the nuclei of pyramidal cells following ischemia was confirmed by Western blot analysis of isolated nuclear fractionations. Moreover, an elevation in the level of nuclear raf protein also was detected in the contralateral (i.e. non-occluded hemisphere) neurons of CA1 and CA3 subfields 4 days after the ischemic insult indicating a possible transsynaptic increase in the amount of raf protein along with redistribution. The intranuclear translocation of the immunoreactive material started from the perinucleolar rim and with time extended throughout the nucleus. Enhanced levels and altered redistribution of the raf polypeptide in the nuclei of pyramidal cells of the CA3 subfield appears to be reversible and returns to the normal level 12 days following the ischemic insult.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cerebral ischemia induces transient intracellular redistribution and intranuclear translocation of the raf proto-oncogene product in hippocampal pyramidal cells. 206 47

The relationship between neuronal calcium binding protein content (calbindin D28K: CaBP and parvalbumin: PV) and vulnerability to ischemia was studied in different regions of the rat brain using the four vessel occlusion model of complete forebrain ischemia. The areas studied, i.e. the hippocampal formation, neocortex, neostriatum and reticular thalamic nucleus (RTN), show a characteristic pattern of CaBP and PV distribution, and are involved in ischemic damage to different degrees. In the hippocampal formation CaBP is present in dentate granule cells and in a subpopulation of the CA1 pyramidal cells, the latter being the most and the former the least vulnerable to ischemia. Non-pyramidal cells containing CaBP in these regions survive ischemia, whereas PV-containing non-pyramidal cells in the CA1 region are occasionally lost. Hilar somatostatin-containing cells and CA3 pyramidal cells contain neither PV nor CaBP. Nevertheless, the latter are resistant to ischemia and the former is the first population of cells that undergoes degeneration. Supragranular pyramidal neurons containing CaBP are the most vulnerable cell group in the sensory neocortex. In the RTN the degenerating neurons contain both PV and CaBP. In the neostriatum, ischemic damage involves both CaBP-positive and negative medium spiny neurons, although the degeneration always starts in the dorsolateral neostriatum containing relatively few CaBP-positive cells. The giant cholinergic interneurons of the striatum contain neither CaBP nor PV, and they are the most resistant cell type in this area. These examples suggest the lack of a consistent and systematic relationship between neuronal CaBP or PV content and ischemic vulnerability. It appears that some populations of cells containing CaBP or PV are more predisposed to ischemic cell death than neurons lacking these proteins. These neurons may express high levels of calcium binding proteins because their normal activity may involve a high rate of calcium uptake and/or intraneuronal release.
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PMID:Relationship of neuronal vulnerability and calcium binding protein immunoreactivity in ischemia. 207 50

Intracellular accumulation of Ca2+ after brain ischemia is regarded as one of the principal causes of neuronal death, but details of the intracellular events occurring after Ca2+ accumulation have not yet been described. We propose that a calcium-activated neutral proteinase which can degrade neuronal cytoskeletal proteins might link Ca2+ accumulation and irreversible injury of the neuronal intracellular structure. First, therefore, we examined the distribution of calcium-activated neutral proteinase in normal brains. Immunohistochemical distribution of calcium-activated neutral proteinases (CANP) with high and low sensitivity to Ca2+ (muCANP and mCANP) and of endogenous CANP inhibitor was investigated in the dorsal hippocampus of the rabbit. muCANP-immunoreactivity was detected in almost all of the pyramidal cells and granule cells and in some other neurons. A full-length staining from perikarya to dendrites was shown in muCANP-positive neurons. mCANP-immunoreactivity was found mainly in four kinds of hippocampal interneurons: 1) basket cells in the stratum oriens of Ammon's horn, 2) pyramidal basket cells at the boundary of pyramidal cell layer and stratum oriens, 3) polymorphic cells in the hilar region of dentate gyrus, and 4) pyramidal or fusiform basket cells at the inner boundary of the granule cell layer and the hilar region. The distribution of these four kinds of neurons was similar to that of parvalbumin-containing GABAergic neurons. CANP inhibitor immunoreactivity was confined to pyramidal cells in the CA3-CA3c region and some hilar neurons.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunohistochemical distribution of calcium-activated neutral proteinases and endogenous CANP inhibitor in the rabbit hippocampus. 208 9

The purpose of this study was to examine the distribution of neuronal damage following transient cerebral ischemia in the rat model of four-vessel occlusion utilizing light microscopy as well as 45Ca-autoradiography. Transient ischemia was induced for 30 min. The animals were allowed to survive for 7 d after ischemia. In the animals subjected to ischemia, the most frequently and seriously damaged areas were the paramedian region of hippocampus, the hippocampal CA1 sector, and the dorsolateral part of striatum, followed by the inferior colliculus, the substantia nigra, the frontal cortex, and the thalamus, which were moderate damaged. Furthermore, the cerebellar Purkinje neurons, the hippocampal CA4 sector, the medial geniculate body, and the hippocampal CA3 sector were slightly affected. 45Ca-autoradiographyic study also revealed calcium accumulation in the identical sites of ischemic neuronal damage, except for the frontal cortex. Regional cerebral blood flow during 10 min of ischemia was severely decreased in selectively vulnerable areas. The blood flow in the medial geniculate body, the substantia nigra, the inferior colliculus, and the cerebellum was less pronounced than that in the selectively vulnerable areas. The present study demonstrates that transient cerebral ischemia can produce significant neuronal damage not only in the selectively vulnerable regions, but also in the brainstem.
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PMID:Neuronal damage and calcium accumulation following transient cerebral ischemia in the rat. 209 66

Induction of messenger RNA encoding the 70-kDa heat shock or stress protein, hsp70, and the product of the proto-oncogene c-fos was evaluated in gerbil hippocampus by in situ hybridization at various recirculation intervals after 5 minutes of ischemia. Striking increases in c-fos RNA were observed in dentate granule cells within 15 minutes of recirculation and remained evident through 1 hour, returning to undetectable control levels by 3 hours. Modest c-fos hybridization was seen in CA1 and CA3 neurons during the same time course. These results are consistent with the rapid and transient stimulation-induced c-fos expression observed in many experimental systems. Hsp70 expression showed a longer time course, being strongly induced in all major hippocampal neuron populations within 3 hours and persisting for approximately 12 hours in dentate granule cells and through 24 hours in CA3 pyramidal neurons. Notably, the most prolonged expression of hsp70 RNA was observed in vulnerable CA1 neurons that minimally accumulate the immunoreactive protein, with hybridization detected essentially until the death of this cell population at 3-4 days. These studies demonstrate an overlapping distribution of hsp70 and c-fos expression in gerbil hippocampus after ischemia, although there are differences in time course and in the relative induction observed in different neuron populations. The transient increase in c-fos hybridization in dentate granule cells is identical to that seen in various seizure paradigms and provides further support for activation of hippocampal circuitry after ischemia. The prolonged time course of hsp70 messenger RNA expression in vulnerable CA1 neurons may provide a molecular correlate of proposed excitotoxic mechanisms mediating delayed neuronal death.
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PMID:70-kDa heat shock protein and c-fos gene expression after transient ischemia. 212 54

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