UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Astrocytic activation plays a major role in homeostatic maintenance of the central nervous system in response to neuronal damage. To assess the reactivity of astrocytes in transient cerebral ischemia of the gerbil, we studied the levels of glial fibrillary acidic protein (GFAP) and its mRNA. GFAP mRNA increased by 4 h after carotid artery occlusion, reached peak levels by 72 h with a 12-fold increase over control and then started declining as early as 96 h postischemia. An examination of the specific regions of the brain revealed an increase in GFAP mRNA associated with the forebrain, midbrain, hippocampus and striatum. GFAP mRNA in the non-ischemic cerebellum however, remained expressed at constitutively low levels. Immunoblot analysis with anti-GFAP antibodies demonstrated a 2- to 3-fold increase in the protein after 24 and 48 h of reperfusion. Pretreatment with pentobarbital and 1-(5'-oxohexyl)-3-methyl-7-propyl xanthine (HWA 285), the drugs that have been shown to protect against ischemic damage, prevented the increase in GFAP mRNA in the cortex following ischemic injury. Forebrain ischemia also induced vimentin mRNA and protein quantities by 12 h of reperfusion in the cortex. The levels of c-fos and preproenkephalin mRNA increased rapidly within 1 h after ischemic injury, demonstrating a temporal difference in mRNA changes following ischemia. These results indicate that an increase in GFAP and vimentin, the two glial intermediate filament proteins in the area of the ischemic lesion may be associated with a glial response to injury.
Brain Res Mol Brain Res 1992 Apr
PMID:Transient ischemia stimulates glial fibrillary acid protein and vimentin gene expression in the gerbil neocortex, striatum and hippocampus. 131 93

The brain cyclic AMP generation was studied in rats subjected to 15 min of cardiac arrest. We have used a particulate, synaptoneurosomal fraction to demonstrate the effect of ischemia in vivo on the responsiveness of adenylate cyclase (AC) system. It has been shown that, although there is a slight decrease in AC activity after ischemia, the in vitro fractions produce more cAMP in response to a variety of stimuli, suggesting an indirect, nonadenylate cyclase activation mechanism. For elucidation of this mechanism we have probed phorbol-12,13-dibutyrate (PDBu) as a direct PKC activator, forskolin to activate the catalytic subunit of AC, and cholera toxin (CT) for stabilizing the active, GTP-bound form of stimulatory guanine nucleotide binding protein (Gs). All these postreceptor AC modulators as well as the receptor activators such as adenosine and alpha 1-adrenergic agonists markedly enhanced cAMP production in the rat brain particulate fraction, although the postischemic hyperactive response to these stimuli was still present. However, when AC was stimulated by the combination of CT and PDBu, cAMP responses were identical in both control and postischemic fractions. The data, taken together, support the hypothesis that ischemia increases cAMP accumulation by facilitating the postreceptor AC activation through a PKC-involving pathway and by promoting the stronger coupling of membrane AC receptors with G-protein. Protein kinase C (PKC) activity during cerebral ischemia was also investigated. In contradistinction to our expectation PKC decreased significantly in the ischemic brain to 85% of the control activity in the cytosol and 72% in the membranes. However, in the incubated post-ischemic brain particulate fraction a relative increase in the membrane-bound form of the enzyme, from 30% for control to 53% for ischemia, was observed. This may suggest that ischemia-induced membrane changes could promote the enzyme translocation/activation during recovery, resulting in the sensitization of cAMP producing system.
Mol Chem Neuropathol 1992 Aug
PMID:Postreceptor modulation of cAMP accumulation in rat brain particulate fraction after ischemia--involvement of protein kinase C. 135 40

A transient cerebral ischemia produced in rats by 4-vessel occlusion, produces with a delay of 24 h a fall in the number of somatostatin-containing neurons. In the present study we show that this loss is preceded by a loss of somatostatin mRNA that starts as soon as 30 min after the anoxic episode. By 24 h of revascularization the surviving somatostatinergic hilar cells present a transient recovery of hybridization signal. This effect could be related to a previously reported increase in intracellular calcium.
Brain Res Mol Brain Res 1991 Jul
PMID:Transient cerebral ischemia induces changes in SRIF mRNA in the fascia dentata. 168 5

Cerebral ischemia and reperfusion results in an active series of metabolic events, eventually leading to cell death. The expression of specific genes during cerebral ischemia and reperfusion may play an important, determinant role in the mechanisms controlling cellular processes. Ten minutes of bilateral carotid occlusion in the Mongolian gerbil was found to increase the messenger RNA for both the c-fos and c-jun protooncogenes. The changes in gene expression were detected in the regions of ischemia, specifically the cortex and striatum, and no increases were seen in either the brain stem or the cerebellum, which possess a separate circulation. Induction of protooncogene mRNA is correlated to the duration of ischemia, i.e., the longer the time of ischemia, the greater the increase in c-fos expression. Pretreatment of animals with pentobarbital reduced the effect of the ischemic insult and prevented the increase in c-fos mRNA. Analysis of the c-fos and c-jun proteins after ischemia demonstrated an increase in the formation of a functional transcriptional complex and association with the AP-1 binding region. These findings suggest that ischemic cell death and recovery in neurodegenerative disorders such as stroke may involve the regulated expression of these protooncogenes early in the pathway of ischemia.
J Mol Neurosci 1991
PMID:Ischemic induction of protooncogene expression in gerbil brain. 190 65

Phosphatidylinositol (PI), phosphatidylinositol 4-phosphate (PIP), phosphatidylinositol 4, 5-bisphosphate (PIP2), 1, 2-diglyceride (DG), lysophosphatidylcholine (LPC), and free fatty acids (FFA) contents, as well as their fatty acid composition, were measured in transient global cerebral ischemia. ATP and CTP were also studied. Male Wistar rats were subjected to 1, 5, and 30 min of ischemia and 10, 30, and 60 min of recirculation following 30 min of ischemia. In addition, for the quantification of PI, PIP, and PIP2, rats were also subjected to 30 and 60 min of recirculation following 5 min of ischemia. PIP2 and PIP decreased rapidly during 5 min of ischemia and recovered completely after recirculation. DG increased almost at the same rate during ischemia and returned to normal after recirculation. PI showed almost no changes throughout entire course. LPC increased during 5 min of ischemia and returned to normal after recirculation. Stearic acid and arachidonic acid contained in DG increased during 5 min of ischemia, whereas saturated fatty acids increased in LPC. Among the FFA accumulated during ischemia, stearic acid and arachidonic acid increased rapidly and were followed by increases of other FFA. From these results, the pathways for the increase of FFA during ischemia and the fate of FFA after recirculation are discussed. In addition, the importance of the changes of PIP, PIP2, and LPC is also discussed.
Mol Chem Neuropathol 1990 Jun
PMID:Changes of polyphosphoinositides, lysophospholipid, and free fatty acids in transient cerebral ischemia of rat brain. 196 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.
Mol Chem Neuropathol 1990 Jun
PMID:Neuronal damage and calcium accumulation following transient cerebral ischemia in the rat. 209 66

Laser-Doppler flowmetry is a new technique for noninvasive and continuous measurement of local microcirculatory cerebral and spinal-cord blood flow. The flow estimate by this technique is based on the assessment of the Doppler shift of low-power laser light, which is scattered by moving red blood cells. Laser-Doppler flowmetry has been validated for various organs, including the central nervous system. These studies revealed a linear relationship between relative changes of the Doppler signal and blood flow over a wide range of pharmacological as well as pathological flow alterations, including cerebral ischemia. The usefulness of laser-Doppler flowmetry in experimental as well as clinical applications has received growing attention. The superiority of the technique lies in its high spatial and temporal resolution. Disadvantages are the difficulty of obtaining absolute flow values and the sensitivity to artifacts. The versatility and on-line capacity of laser-Doppler flowmetry might allow new insights into the pathophysiology of alterations of the cerebral and spinal-cord microcirculation.
Mol Chem Neuropathol 1990 Jan
PMID:Laser-Doppler flowmetry. A review of its application for measuring cerebral and spinal cord blood flow. 227 6

In order to understand the role of monoamines in cerebral ischemia, 3-methoxy-4-hydroxyphenylglycol(MHPG), 5-hydroxyindoleacetic acid (5-HIAA), and homovanillic acid(HVA), the three major unconjugated monoamine metabolites in cerebrospinal fluid (CSF), of 33 patients and 18 controls were measured with high performance liquid chromatography. Results showed all three metabolites were raised in patients with severe ischemia, but only MHPG and 5-HIAA were elevated significantly, MHPG changes more quickly and regularly as a consequence of cerebral ischemia than the two others. A positive correlation between any pair of metabolites was found in controls and in patients in the first week after stroke, but not at the end of the second week. Computer assisted multivariate analysis indicated 5-HIAA and MHPG correlated more closely with the state of illness in the acute stage, whereas HVA correlated the least. Possible explanations for the changes of CSF levels of amine metabolites are discussed.
Mol Chem Neuropathol 1989 Apr
PMID:Monoamine metabolites in cerebrospinal fluid during and after acute cerebral ischemia. 247

Neuronal cell degeneration was studied in vitro in primary rat brain neuronal cultures grown in serum-free, chemically defined, CDM R12 medium, by measuring lactate dehydrogenase (LDH) released in the culture medium. A Ca2+-dependent neuronal cell degeneration was observed after prolonged and transient exposure 30 microM veratridine. The release of LDH occurred gradually and could be completely prevented by 2 mM ethylene glycol bis (beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid, 0.1 microM tetrodotoxin, and 1 microM flunarizine. Flunarizine was without effect on neuronal cell loss induced by 1 mM glutamate, 1 mM kainic acid, and 5 mM KCN. The lack of effect on neurotoxicity induced by 1 mM glutamate differentiates flunarizine from N-methyl-D-aspartate antagonists such as MK-801. The latter protected at nanomolar concentrations against glutamate-induced neuronal cell death but had a maximal effect only at 0.1 mM on the veratridine-induced released LDH. It is suggested that, besides the excitatory amino acid receptor pathway, prolonged opening of the veratridine-sensitive Na+ channel can be neurotoxic. The latter can be prevented by flunarizine. The role of Na+ channel blockers as therapeutic agents in cerebral ischemia is discussed.
Mol Pharmacol 1989 Oct
PMID:Ca2+-mediated neuronal death in rat brain neuronal cultures by veratridine: protection by flunarizine. 255 10

Twelve rabbits underwent 20-min of complete cerebral ischemia. They were given PGI2 for 3 min before and during ischemia and for 15 min after ischemia. Control animals with complete cerebral ischemia over the same period of time were not given PGI2 medication. The animals treated with PGI2 were found to have recovered bioelectric activity of the cerebral cortex in half the time that it took the control group. A positive effect of PGI2 on some parameters of the peripheral blood system after ischemia was observed. Under the conditions of this experiment PGI2 did not effect the ultrastructural changes in motor cortex neuron nuclei. The changes were manifested in numerous vesicular structures and nuclear inclusions. The inclusions took the forms of clusters, rodlets, and lattices constructed of filaments and/or tubules. The number of vesicular structures and inclusions grew with the lapse in time after ischemia.
Exp Mol Pathol 1988 Apr
PMID:The effects of prostacyclin on early ultrastructural changes in the neuron nuclei of the motor cortex in rabbits after complete 20-min cerebral ischemia. 328 Mar 43

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