Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Activation of c-fos, an immediate early gene, and the subsequent expression of the Fos protein have been noted following focal cerebral ischemia. Fos and Jun form a heterodimer as activator protein 1 (AP-1), which transregulates the expression of several genes. To study the postischemic events related to c-fos expression, we suppressed the expression of c-fos by intraventricular infusion of an antisense oligodeoxynucleotide (anti-rncfosr115) of c-fos mRNA. The effectiveness of anti-rncfosr115 was confirmed first by its capability to block in vitro c-fos mRNA translation. In vivo, after intraventricular infusion of 32P-labeled anti-rncfosr115, the oligodeoxynucleotide was internalized within 6 hours and detectable also in the nucleic acids fraction up to 41 hours. Treatment of the recovered nucleic acids with RNase H separated the labeled oligodeoxynucleotide from the nucleic acid fraction, indicating an association of the antisense oligodeoxynucleotide and cellular RNA after uptake. When focal cerebral ischemia was induced 16 hours after the infusion of anti-rncfosr115, the postischemic increase in Fos expression and AP-1 binding activity were suppressed. Specificity of the effect of anti-rncfosr115 was suggested by its failure to suppress the DNA binding activity of nuclear cyclic AMP response elements. These results support the hypothesis that increased AP-1 binding activity following focal cerebral ischemia is dependent on Fos expression and can be inhibited in vivo by antisense c-fos oligodeoxynucleotides.
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PMID:Suppression of ischemia-induced fos expression and AP-1 activity by an antisense oligodeoxynucleotide to c-fos mRNA. 794 87

The effects of acetyl-L-carnitine (ALCAR) treatment on brain energy state recovery and lactic acid levels following 20 min ischemia and 2, 24 and 48 h reperfusion were investigated by 31P and 1H-NMR spectroscopy. Transient forebrain ischemia was induced by four-vessel occlusion method in fed 6-month-old Fischer rats. ALCAR or saline was administered by intraperitoneal route immediately after 20 min ischemia and again at 1, 4, 24 and 30 h during reperfusion. Twenty-min severe forebrain ischemia was associated with a marked decrease in phosphocreatine (PCr) and ATP levels and a corresponding increase in lactic acid, inorganic phosphate (Pi), AMP, creatine, glycerol 3-phosphate and alanine levels. Following reperfusion, a general tendency to restore pre-ischemic metabolite levels was observed. However, after 2 h reperfusion in saline-treated rats, lactic acid and Pi levels remained significantly higher, while ATP levels were still significantly lower than in non-ischemic controls. On the contrary, in ALCAR-treated animals a complete recovery of all metabolites including Pi and ATP was observed, while PCr levels were even more elevated compared with those in saline-treated rats. Furthermore lactic acid content was significantly lower than that in both saline-treated and non-ischemic control rats. It is concluded that a potential therapeutic role may be claimed for ALCAR in the treatment of cerebral ischemia through mechanisms that include faster recovery and improvement of brain energy production as well as a decreased lactic acid content during early post-ischemic reperfusion.
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PMID:Effect of acetyl-L-carnitine on recovery of brain phosphorus metabolites and lactic acid level during reperfusion after cerebral ischemia in the rat--study by 13P- and 1H-NMR spectroscopy. 803 36

Sequential alterations in the binding of [3H]cyclic AMP (cAMP) as an indicator of cAMP-dependent protein kinase (cAMP-DPK) binding activity following transient cerebral ischaemia were studied in the gerbil brain using receptor autoradiography. Transient ischaemia was induced for 10 min. [3H]cAMP binding in the stratum oriens and pyramidale of the hippocampal CA1 sector significantly decreased in the early post-ischaemic stage and showed severe reduction 7 days and 1 month after recirculation. By contrast, [3H]cAMP binding showed no significant alterations in the stratum radiatum of the hippocampal CA1 sector and the stratum pyramidale of the hippocampal CA3 sector up to 48 h after ischaemia. However, the binding in these areas significantly decreased 7 days and 1 month after ischaemia. The stratum lacunosum-moleculare of the hippocampal CA1 sector and dentate gyrus showed no significant changes in [3H]cAMP binding throughout the recirculation period. However, in the dorsolateral part of the striatum, where severe neuronal damage was seen morphologically, [3H]cAMP binding was significantly reduced only one month after ischaemia. These results indicate that marked alteration of intracellular signal transduction precedes neuronal damage in the hippocampal CA1 sector, but not in the striatum. Furthermore, our autoradiographic data suggest that post-ischaemic alteration in [3H]cAMP binding between the hippocampal CA1 sector and striatum may be produced by different mechanisms.
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PMID:Sequential changes of [3H]cyclic AMP binding in the gerbil brain following transient cerebral ischaemia. 810 69

We investigated the postischemic alterations in dopamine D1 receptor and Ca2+/calmodulin independent cyclic adenosine monophosphate (cyclic AMP) selective phosphodiesterase in gerbils and examined the effect of pentobarbital on these alterations. [3H]SCH 23390 and [3H]rolipram, respectively, were used to label dopamine D1 receptor and Ca2+/calmodulin independent cyclic-AMP selective phosphodiesterase. Transient cerebral ischemia was induced for 10 min, and pentobarbital (40 mg/kg) was administered intraperitoneally 30 min prior to ischemia. 5 h after ischemia, [3H]rolipram binding decreased significantly in the striatum and hippocampus, whereas no significant change was found in [3H]SCH 23390 binding. 7 days after ischemia, however, there was a marked reduction in both [3H]SCH 23390 and [3H]rolipram binding in the striatum and hippocampus, where histological neuronal damage was found. Pentobarbital significantly ameliorated postischemic decreases in [3H]rolipram binding both 5 h and 7 days after recirculation in most areas studied. Furthermore, this drug significantly prevented postischemic reduction in [3H]SCH 23390 binding (only) 7 days after ischemia. These results suggest that alteration of cyclic AMP selective phosphodiesterase is more sensitive at an earlier stage after ischemic insult than that of dopamine D1 receptors. Our results also demonstrate that pentobarbital reduces the alteration in [3H]SCH 23390 and [3H]rolipram binding after cerebral ischemia.
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PMID:Effect of pentobarbital on postischemic SCH 23390 and rolipram binding in gerbil brain. 822 65

We studied the alterations in binding of cyclic AMP as an indicator of particulate cyclic AMP-dependent protein kinase binding activity following transient cerebral ischemia in Mongolian gerbils and examined the effects of vinconate and pentobarbital against alterations in the binding. 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]Cyclic AMP binding was significantly reduced in the hippocampus 5 h after ischemia, whereas the striatum showed no significant change in the binding. Seven days after ischemia, a severe reduction of [3H]cyclic AMP binding was noted in the dorsolateral striatum, hippocampal CA1 and CA3 sectors, and dentate gyrus. Intraperitoneal administration of vinconate (100 or 300 mg/kg) showed a significant elevation of [3H]cyclic AMP binding in the striatum, stratum pyramidale of hippocampal CA1 and CA3 sectors, and dentate gyrus 5 h after ischemia. By contrast, the intraperitoneal administration of pentobarbital (40 mg/kg) showed no significant alteration of [3H]cyclic AMP binding in most of these regions. However, vinconate and pentobarbital prevented a significant reduction of [3H]cyclic AMP binding in the dorsolateral striatum and stratum pyramidale of hippocampal CA3 sector 7 days after ischemia, although both drugs failed to prevent damage to the hippocampal CA1 sector. These results suggest that alteration in cyclic AMP binding may not be a major factor in causing ischemic neuronal damage.
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PMID:Changes of [3H]cyclic adenosine monophosphate binding in the gerbil brain following transient cerebral ischemia: an autoradiographic study and investigation of the effects of vinconate and pentobarbital. 838 51

Receptor autoradiographic and histological techniques were used to investigate the long-term changes that occur in the gerbil brain following the induction of transient cerebral ischemia. Transient ischemia was induced for 3 and 10 min, and animals were allowed to survive for eight months. Autoradiographic analysis of second messenger systems showed that 3-min ischemia caused a significant reduction in [3H]inositol-1,4,5-trisphosphate binding in the hippocampal CA1 sector, whereas the alteration in [3H]phorbol 12,13-dibutyrate, [3H]forskolin and [3H] cyclic-AMP bindings was not found in this region. In the striatum, 3-min ischemia caused no significant alteration in [3H]phorbol 12,13-dibutyrate, [3H]inositol-1,4,5-trisphosphate and [3H]forskolin binding sites, whereas the [3H]cyclic-AMP binding showed a significant elevation. The thalamus exhibited a significant elevation only in the [3H]inositol-1,4,5-trisphosphate binding sites. Following 10-min ischemia, [3H]phorbol 12,13-dibutyrate, [3H]inositol-1,4,5-trisphosphate and [3H]cyclic-AMP binding sites revealed a significant reduction in the hippocampus, whereas the [3H]forskolin binding showed a significant elevation in this area. In the striatum, 10-min ischemia caused no significant alteration in [3H]phorbol 12,13-dibutyrate, [3H]inositol-1,4,5-trisphosphate and [3H]cyclic-AMP binding sites. However, marked reduction in the [3H]forskolin binding was seen in the striatum. Furthermore, the substantia nigra also exhibited a significant reduction in [3H]forskolin binding. Histological studies suggested that 3-min ischemia can produce severe neuronal damage and mild shrinkage to the hippocampal CA1 sector. They also showed that 10-min ischemia can cause severe tissue shrinkage and severe neuronal damage in the hippocampal CA1 sector and hippocampal CA3 sector. Thus, the hippocampal damage following ischemia was not static but progressive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Postischemic changes of intracellular second messengers in the gerbil brain after long-term survival: an autoradiographic study. 838 52

Previous studies have shown that global cerebral ischemia induced by decapitation leads to the stimulated hydrolysis of poly-phosphoinositides. In this study, the decapitation model was used to further examine the temporal events related to metabolism of Ins(1,4,5)P3 and the release of diacylglycerols (DGs) and free fatty acids (FFAs) in the mouse brain. Since lithium administration is known to inhibit inositol monophosphatase activity in brain, the effects of acute lithium injection on Ins(1,4,5)P3 metabolism were also examined. Cerebral ischemia induced by decapitation of C57 Bl/6J mice resulted in transient increases of Ins(1,4,5)P3, Ins(1,4)P2 and Ins(4)P which peaked at 35, 65 and 125 s, respectively. The level of Ins(1)P, however, was not altered. Mice administered lithium by intraperitoneal injection (8 meq/kg for 4 h) gave rise to a 40- and 4-fold increase in levels of Ins(1)P, Ins(4)P, respectively, a 20% increase in levels of Ins(1,4)P2 but no apparent changes in the levels of Ins(1,4,5)P3. Decapitation also induced an increase in the levels of DGs and FFAs. Unlike the transient appearance of Ins(1,4,5)P3, however, DG levels increased steadily for 2 min and then reached a plateau whereas the FFAs showed a lag time of 35 s prior to a biphasic increase. During the initial 2 min after decapitation, there was a preferential increase in the DG species containing 18:0 and 20:4. Lithium administration did not alter the decapitation-induced release of DG and FFA. As expected, decapitation gave rise to a rapid decrease in the levels of phosphocreatine and ATP and the decline in ATP was marked by a transient appearance of ADP and a concomitant increase in AMP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolism of inositol 1,4,5-trisphosphate in mouse brain due to decapitation ischemic insult: effects of acute lithium administration and temporal relationship to diacylglycerols, free fatty acids and energy metabolites. 849 Jul 17

Tumor suppressor genes encode proteins involved in growth regulation in differentiating and proliferating cells. Previous work from our laboratory has demonstrated that the neurofibromatosis 1 (NF1) tumor suppressor gene is dramatically upregulated in astrocytes stimulated with dibutyryl cyclic AMP and proinflammatory cytokines. To explore the possibility that the NF1 gene product, neurofibromin, plays a role in the reactive gliosis seen in response to cerebral ischemia, expression of NF1 was examined in both focal and global models of rat cerebral ischemia. In this report, we demonstrate the increased expression of both neurofibromin and glial fibrillary acidic protein (GFAP) in astrocytes surrounding areas of focal ischemia. Similar increases in neurofibromin and GFAP immunoreactivity were also observed in reactive astrocytes in the hippocampal region in a global model of ischemia. These results suggest a novel role for the NF1 tumor suppressor gene in growth regulatory pathways involved in cellular remodeling and in response to injury.
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PMID:Increased expression of the neurofibromatosis 1 (NF1) gene product, neurofibromin, in astrocytes in response to cerebral ischemia. 882 Sep 72

The effects of an adenosine deaminase inhibitor (deoxycoformycin, 500 mu g/kg) and of an inhibitor of nucleoside transport (propentofylline, 10 mg/kg) on adenosine and adenine nucleotide levels in the ischemic rat brain were investigated. The brains of the rats were microwaved before, at the end of a 20 min period of cerebral ischemia (4 vessel occlusion + hypotension), or after 5, 10, 45, and 90 min of reperfusion. Deoxycoformycin increased brain adenosine levels during both ischemia and the initial phases of reperfusion. AMP levels were elevated during ischemia and after 5 min of reperfusion. ATP levels were elevated above those in the non-treated animals after 10 and 45 min of reperfusion. ADP levels were elevated above the non-drug controls at 90 min. These increases in ATP, ADP and AMP resulted in significant increases in total adenylates during ischemia, and after 10 min and 90 min of reperfusion. Propentofylline administration resulted in enhanced AMP levels during ischemia but did not alter adenosine or adenine nucleotide levels during reperfusion in comparison with non-treated controls.
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PMID:Effects of an inhibitor of adenosine deaminase, deoxycoformycin, and of nucleoside transport, propentofylline, on post-ischemic recovery of adenine nucleotides in rat brain. 913 41

Cerebral ischemia and trauma lead to rapid increases in cerebral concentrations of cyclic AMP and dehydroascorbic acid (DHAA; oxidized vitamin C), depletion of intracellular ascorbic acid (AA; reduced vitamin C), and formation of reactive astrocytes. We investigated astrocytic transport of AA and DHAA and the effects of cyclic AMP on these transport systems. Primary cultures of astrocytes accumulated millimolar concentrations of intracellular AA when incubated in medium containing either AA or DHAA. AA uptake was Na+-dependent and inhibited by 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS), whereas DHAA uptake was Na+-independent and DIDS-insensitive. DHAA uptake was inhibited by cytochalasin B, D-glucose, and glucose analogues specific for facilitative hexose transporters. Once inside the cells, DHAA was reduced to AA. DHAA reduction greatly decreased astrocytic glutathione concentration. However, experiments with astrocytes that had been previously depleted of glutathione showed that DHAA reduction does not require physiological concentrations of glutathione. Astrocyte cultures were treated with a permeant analogue of cyclic AMP or forskolin, an activator of adenylyl cyclase, to induce cellular differentiation and thus provide in vitro models of reactive astrocytes. Cyclic AMP stimulated uptake of AA, DHAA, and 2-deoxyglucose. The effects of cyclic AMP required at least 12 h and were inhibited by cycloheximide, consistent with a requirement for de novo protein synthesis. Uptake and reduction of DHAA by astrocytes may be a recycling pathway that contributes to brain AA homeostasis. These results also indicate a role for cyclic AMP in accelerating the clearance and detoxification of DHAA in the brain.
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PMID:Cerebral astrocytes transport ascorbic acid and dehydroascorbic acid through distinct mechanisms regulated by cyclic AMP. 916 31


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