Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of transient forebrain ischemia on the temporal alteration of Ca2+/calmodulin-dependent kinase II (CaM kinase II) in the rat hippocampus was analysed by the immunohistochemical method using antigen-affinity purified polyclonal antibodies against CaM kinase II of rat brain. Six to twenty-four hours after ischemia, CA1 and CA3 pyramidal cells, and dentate granule cells lost CaM kinase II immunoreactivity in neuronal perikarya, although immunoreactivity in the dendritic fields was preserved. The recovery of immunoreactivity of the CA3 pyramidal cells and dentate granule cells was noted 3 days after recirculation. Seven days after ischemia, immunoreactivity in the CA1 subfield was greatly reduced. These results suggest that CaM kinase II molecules in the CA1 subfield are preferentially located on the CA1 pyramidal cells and that CaM kinase II plays a critical role in the reconstruction of neuronal cytoskeleton and neuronal networks damaged by ischemic insult.
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PMID:Ca2+/calmodulin-dependent protein kinase II immunoreactivity in the rat hippocampus after forebrain ischemia. 237 12

The factors responsible for the unusual susceptibility of the hippocampus to seizures and ischemic cell damage are not well understood. The CA1 pyramidal subfield of the hippocampus is particularly vulnerable to seizure activity and damage after ischemia. The possibility was examined that regional differences exist in extracellular volume, which might influence neuronal excitability and response to injury in the hippocampus. CA1 stratum pyramidale exhibited an exceptionally low extracellular volume fraction (EVF) of 0.12, whereas the EVFs of CA3 and dentate were considerably higher--0.18 and 0.15, respectively. The EVF of CA1 stratum pyramidale was reversibly reduced by 30 percent when the extracellular potassium concentration was raised from 3.5 to 8.5 mM, a procedure that induced spontaneous electrographic seizures in CA1. Thus there are regional variations in the properties of the extracellular space in the hippocampus that might underlie the propensity of the CA1 region to develop seizures and to suffer damage after ischemia.
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PMID:Regional variation of extracellular space in the hippocampus. 238 42

Incorporation of plasma [14C]palmitate into the hippocampus was measured using quantitative autoradiography and a ratio method of analysis between 10 min and 7 days after 5 min of bilateral occlusion of the common carotid arteries in awake gerbils. One day after carotid occlusion, relative palmitate incorporation was elevated by 16% and 20%, respectively (p less than 0.01), in the CA4 pyramidal cell layer and dentate gyrus of the hippocampus as compared with sham-operated animals. At 3 days, significant elevations of this magnitude were found in the CA3 and CA4 cell layers, and relative incorporation was reduced by 26% in the CA1 pyramidal cell layer. At 7 days, the only significant difference from control was a 15% elevated incorporation in the CA3 pyramidal cell layer. The results suggest that the turnover of palmitate-containing lipids is retained in the CA1 pyramidal layer of the gerbil hippocampus for 1 day and then reduced at 3 days after 5-min ischemia and that lipid synthesis is stimulated in hippocampal regions affected by but recovering from an ischemic insult (CA3, CA4, dentate gyrus).
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PMID:Regional [14C]palmitate incorporation into the hippocampus after transient cerebral ischemia in awake gerbils. 239 10

The localization and timing of cellular calcium loading and glial cell reaction in relation to selective death of hippocampal neurons was studied in Mongolian gerbils following transient forebrain ischemia. Two days after a 5-min period of ischemia, heavy calcium staining was histochemically demonstrated in circumscribed groups of nerve cells, located in the transition zone between the CA1 and CA3 areas. This preceded complete neuronal cell death that was quantitatively assessed by measuring the intensity of Nissl staining. After a 12-min period of ischemia, extensive calcium loading was observed in conjunction with severe neuronal damage throughout the CA1 region as well in the dorsal nuclei of the thalamus. The extent of calcium staining decreased with time and was not seen at stages later than 7 days. Already at 2 days after a 5-min period of ischemia, a strong increase of glial fibrillary acidic protein immunoreactivity was seen. This indicates a marked and early hypertrophy of astrocytes that was not accompanied by an obvious proliferation. Neither the astrocytic response nor the neuronal calcium accumulation were observed in gerbils pretreated with propentofylline, HWA 285 (10 mg/kg, i.p.) 15 min before bilateral carotid artery occlusion. Also, the decrease of Nissl staining in the CA1 area after 5 and 12 min of ischemia was considerably less pronounced and did not significantly differ from sham-operated controls.
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PMID:Ischemia-induced neuronal cell death, calcium accumulation, and glial response in the hippocampus of the Mongolian gerbil and protection by propentofylline (HWA 285). 244 6

Noradrenaline (NA) metabolism in the neocortex and hippocampus was examined in rats at 1, 24, and 48 h following 15 min of reversible forebrain ischemia. As assessed by the ratio of accumulated 3,4-dihydroxyphenylalanine (DOPA) to the tissue NA level after inhibition of DOPA decarboxylase, the NA turnover rates were markedly increased (120-148% above the control) at 1 h postischemia in both the neocortex and hippocampal formation (CA1 and CA3 plus dentate gyrus). The DOPA:NA ratio went back to control levels after longer postischemic survival times. The ratio between levels of the deaminated NA metabolite, 3,4-dihydroxyphenylethyleneglycol (DOPEG), and NA, which gives another measure of NA turnover rate, showed similar changes. In the neocortex and the CA3 plus dentate gyrus, the DOPEG:NA ratio was markedly increased (89-118%) 1 h after the ischemia, but this change had disappeared at 24 and 48 h. Thus, both the DOPA accumulation experiments and the NA and DOPEG measurements indicate that following transient forebrain ischemia, there is an increased NA turnover in the hippocampus and cortex only in the early recirculation period and not after longer postischemic survival times. The degree of neuronal necrosis in the CA1 region was examined light microscopically on celestine blue-acid fuchsin-stained sections at 24, 48, and 96 h following the ischemic insult. The neuronal damage in CA1 was sparse after 24 h of recovery, had increased markedly after 48 h, and was very pronounced at 96 h.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Noradrenaline metabolism in neocortex and hippocampus following transient forebrain ischemia in rats: relation to development of selective neuronal necrosis. 250 51

Since ionic Ca2+ binds with intracellular calmodulin (CaM) before activating proteases, kinases, and phospholipases, demonstration of persistent Ca2+-CaM binding in neurons destined to show ischemic cellular injury would support the concept that elevated intracellular Ca2+ plays a causative role in ischemic neuronal damage. In order to characterize Ca2+-CaM binding, we used a sheep anti-CaM antibody (CaM-Ab) which recognizes CaM that is not bound to Ca2+ or brain target proteins. Therefore, immunohistochemical staining of brain sections by labeled CaM-Ab represented only unbound CaM. Six normal rats were compared to 15 animals rendered ischemic for 30 min by a modification of the four-vessel occlusion model. Animals were killed immediately after ischemia, and after 2 and 24 h of reperfusion. Brain sections through hippocampus were incubated in CaM-Ab, and a diaminobenzadiene labeled anti-sheep secondary antibody was added to stain the CaM-Ab. Staining in the endal limb of dentate, dorsal CA1, lateral CA3, and parietal cortex was graded on a 4-point scale. All normal animals had grade 4 staining indicating the presence of unbound CaM in all four brain regions. Ischemic animals demonstrated reduced (grade 0 to 2) staining in the CA1 and CA3 regions immediately and 2 and 24 h after ischemia (p less than 0.01 for both regions at all three time intervals) indicating persistent binding of CaM with Ca2+ and target proteins in these regions. Staining decreased in dentate and cortex up to 2 h after ischemia (p = 0.02 for both regions) but returned toward normal by 24 h.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunohistochemical determination of calcium-calmodulin binding predicts neuronal damage after global ischemia. 251 Dec 11

The hippocampus is a brain structure specifically vulnerable to short periods of transient cerebral ischemia, and which displays delayed neuronal necrosis. Protein ubiquitination is a posttranslational modification of proteins and an important factor in heat shock response and a regulator of ATP-dependent protein degradation. Using affinity purified antibodies against ubiquitin and ubiquitin-protein conjugates we have found that the ubiquitin immunoreactivity (UIR), normally present in all neurons of the hippocampus, disappears in the early recirculation period following cerebral ischemia from all hippocampal cells except the interneurons. Later UIR reappears in the different hippocampal regions over a 72 h period in the following order: granule cells-CA3 pyramidal cells-CA2 pyramidal cells. This is the inverse order of sensitivity of these cells to ischemia. The UIR never recovers in the CA1 pyramidal neurons where a 95% neuronal necrosis is seen following three days of recovery. We propose that the loss of UIR in the pyramidal neurons in the CA1 region signifies a persistent impairment of protein ubiquitination, and thus a change in the turnover of structural and regulatory proteins, which could be an essential part of the mechanism of slow neuronal death following cerebral ischemia.
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PMID:Impairment of protein ubiquitination may cause delayed neuronal death. 254 80

After 10-60 min of normothermic complete ischemia, hippocampal slices were prepared and allowed to recover for 60 min. The presence or absence of an evoked transsynaptic response was measured in CA1, CA3, and dentate gyrus. A selective vulnerability of the field excitatory postsynaptic potential to ischemia was found (CA1 greater than CA3 greater than dentate gyrus). Recovery of synaptic transmission in CA1 and CA3 was significantly improved by decreasing extracellular Ca2+ and increasing Mg2+ after ischemia. Addition of an N-methyl-D-aspartate antagonist further improved functional recovery. Postischemic reduction in extracellular Cl- increased recovery in CA1 and CA3, whilst reduction in Na+ was deleterious.
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PMID:Selective vulnerability of synaptic transmission in hippocampus to ex-vivo ischemia: effects of extracellular ionic substitution in the postischemic period. 254 84

The influence of transient forebrain ischemia on the temporal alteration of glutamate receptors in the hippocampal formation was analyzed by means of in vitro quantitative receptor autoradiography. We compared the binding of N-methyl-D-aspartate (NMDA) receptors using [3H]3-[+/-)2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid (CPP), noncompetitive NMDA antagonist binding sites using [3H]N-(1-(2-thienyl)-cyclohexyl)-3,4-piperidine (TCP), and kainate (KA) receptors. In the CA1 subfield of the hippocampus, the number of NMDA receptors and noncompetitive NMDA antagonist binding sites remained constant during the early stage of recirculation when the CA1 pyramidal cells remained histologically intact. A significant reduction of these receptor densities was observed 7 days following ischemia, when NMDA receptors and noncompetitive NMDA antagonist binding sites lost 64 and 29% of their binding sites in the stratum radiatum of the CA1, respectively. The KA receptor density in the CA1 subfield decreased by 44% 7 days after ischemia. Marked loss of the above-mentioned receptors in the CA1 after selective depletion of the CA1 pyramidal cells indicated that NMDA receptors, noncompetitive NMDA antagonist binding sites, and KA receptors in the CA1 are predominantly localized on the CA1 pyramidal cells. NMDA receptor density in the CA3 gradually decreased during the recirculation period. The stratum moleculare of the dentate gyrus, whose structure was histologically intact after ischemic insult, also showed a reduction of NMDA receptors 7 days following ischemia. [3H]KA receptor density in the stratum lucidum of the CA3 and in the hilus also decreased during recirculation. These
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PMID:Excitatory amino acid binding sites in the rat hippocampus after transient forebrain ischemia. 255 Apr 93

In cerebral asphyxia, enhanced postsynaptic stimulation of N-methyl-D-aspartate (NMDA) receptor by excessive glutamate may mediate neuronal injury and death. The neuroprotective potential of the novel, potent NMDA receptor antagonist MK-801 was assessed by evaluating hippocampal behavioral and histologic outcomes in an experimental rat model of neonatal hypoxia/ischemia. Seven-day-old rats with and without MK-801 pretreatment were subjected to unilateral carotid ligation followed by 2 hours of hypoxia. At age 30 days, spontaneous alternation behavior was measured using a conventional wooden T maze. Hypoxic-ischemic animals pretreated with saline demonstrated a significant impairment in spontaneous alternation behavior compared with that of normal control rats and the hypoxic-ischemic rats pretreated with MK-801. Hippocampal neuronal damage in the CA1 and CA3 regions was prevented in animals pretreated with MK-801 vs saline-treated controls. Therefore, while saline-treated rats with hippocampal lesions showed defective memory and hippocampal neuronal destruction, pretreatment with MK-801 protected rats. Thus, MK-801 appears to protect hippocampal neurons from hypoxia/ischemia and may be potentially beneficial in preventing neonatal asphyxial brain damage.
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PMID:MK-801 prevents hippocampal neurodegeneration in neonatal hypoxic-ischemic rats. 255 68


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