EC:4.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Autoradiographic localizations of major second messengers and a selective cyclic adenosine monophosphate (cyclic-AMP) phosphodiesterase in the brain were visualized in the gerbil and the rat using receptor autoradiography. [3H]Phorbol 12,13-dibutyrate (PDBu), [3H]inositol 1,4,5-trisphosphate (IP3), [3H]forskolin, [3H]cyclic-AMP, and [3H]rolipram were used to label protein kinase C, IP3 receptor, adenylate cyclase, cyclic-AMP-dependent protein kinase (cyclic-AMP-DPK), and Ca2+/calmodulin-independent cyclic-AMP phosphodiesterase (PDE), respectively. Most second messengers and rolipram binding activities were especially found in the limbic system, basal ganglia, and cerebellum. Marked differences were noted in the hippocampus, where cyclic-AMP and rolipram binding activities were very low in gerbils but high in rats. In contrast, regional localization in the binding sites of PDBu, IP3, and forskolin in gerbil brain was relatively similar to that in rat brain. Further, alteration of the cyclic-AMP and rolipram binding sites was studied in the gerbil hippocampus 7 days after 10-min cerebral ischemia. The results suggest that the gerbil differs from the rat with respect to the characteristic neurons or interneurons, especially in the hippocampal formation. This finding may help further elucidate the relationship or difference between gerbils and rats for brain function and behavioral pharmacology. Furthermore, our results suggest that cyclic-AMP and rolipram binding sites are predominantly distributed on the pyramidal cell layer of the hippocampal CA1 sector and that transient cerebral ischemia can cause marked reduction in these binding sites in the hippocampus.
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PMID:Mapping of second messenger and rolipram receptors in mammalian brain. 132 28

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.
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PMID:Postreceptor modulation of cAMP accumulation in rat brain particulate fraction after ischemia--involvement of protein kinase C. 135 40

Alterations of the second-messenger systems, adenylate cyclase (AC) and protein kinase C (PKC), and local cerebral blood flow (lCBF) were evaluated during experimental cerebral ischemia in gerbils employing a quantitative autoradiographic method, which permitted these three parameters to be measured in the same brain. Ischemia was induced by occlusion of the right common carotid artery for 6 h. Animals attaining more than 5 in their ischemic scores were utilized for further experiments. At the end of ischemia, lCBF was measured by the [14C]iodoantipyrine method. The AC and PKC activities were estimated by the autoradiographic technique developed in our laboratory using [3H]forskolin (FK) and [3H]phorbol-12,13-dibutyrate (PDBu), respectively. The lCBF fell below 10 ml/100 g/min in most cerebral regions on the ligated side. The greatest reduction in FK binding was noted in the olfactory tubercle, caudate-putamen, and globus pallidus, followed by the hippocampus and cerebral cortices. The FK binding tended to be low at lCBF less than 20 ml/100 g/min in the cerebral cortices. However, the PDBu binding was relatively well preserved in each cerebral structure, and no significant correlation between lCBF and PDBu binding was noted in the cerebral cortices. The AC system may thus be vulnerable to ischemic insult over extensive brain regions, while the PKC system may be relatively resistant to ischemia.
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PMID:Autoradiographic analysis on second-messenger systems and local cerebral blood flow in ischemic gerbil brain. 199 99

The effect of transient cerebral ischemia and intraventricular injection of kainic acid on adenylate cyclase and protein kinase C as labeled by [3H]forskolin ([3H]FOR) and [3H]phorboldibutyrate ester ([3H]PDBU) in several rat brain microregions was investigated in a quantitative autoradiographic study. Four days after transient four vessel occlusion a 80% loss of [3H]FOR and a 35% loss of [3H]PDBU binding could be measured in the CA1 stratum radiatum of operated Wistar rats as compared to control rats. Four days after intraventricular injection of kainic acid only a marginal loss of [3H]FOR and a 30% increase of [3H]PDBU binding was seen in the CA1 stratum radiatum while in the CA3 stratum lucidum and radiatum respectively a 30% loss of [3H]FOR and no significant change in [3H]PDBU binding was observed. As transient cerebral ischemia and intraventricular kainic acid injection are depleting the hippocampal CA1 region of CA1 pyramidal cells and axons of CA3 pyramidal cells respectively in rat brain, these findings strongly suggest that both adenylate cyclase and protein kinase C are localized in CA1 pyramidal cells of rat hippocampus.
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PMID:Post- and presynaptic lesions in the CA1 region of hippocampus: effect on [3H]forskolin and [3H]phorboldibutyrate ester binding. 203 10

Five minutes of bilateral carotid occlusion in unanesthetized gerbils produced substantial changes in spontaneous locomotor activity. Behavior was decreased after 1 hr of reperfusion and was increased at 24 hrs post-ischemia. Adenylate cyclase activity was measured in homogenates of frontal cortex and hippocampus at 90 min and 24 hrs following 5 min of cerebral ischemia. Enzyme activity was determined in the absence and presence of the activators guanosine-5'-triphosphate (GTP), guanylyl-5'-imidodiphosphate (GppNHp), isoproterenol (Iso) plus GTP, and forskolin (Fors) plus GTP. Homogenates responded with expected increases over basal adenylate cyclase activity with addition of all activators. An additional small increase in isoproterenol-stimulated activity was observed in frontal cortex homogenates at 90 min post-ischemia. No other significant changes in adenylate cyclase activity were observed after either 90 min or 24 hrs of reperfusion. The substantial increases in locomotor activity evident at 24 hrs after transient ischemia are not associated with measurable changes in adenylate cyclase activity in homogenates of frontal cortex or hippocampus.
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PMID:Adenylate cyclase activity and motor behavior following cerebral ischemia in the unanesthetized gerbil. 404 Sep 98

Autoradiographic visualization of the Bmax (maximal binding capacity) and Kd (dissociation constant) of [3H]phorbol 12,13-dibutyrate (PDBu) and [3H]forskolin (FK) was performed after 30-min unilateral carotid artery occlusion in the gerbil brain. These parameters and the local cerebral blood flow (CBF) were measured at the level of the caudate-putamen in the same brain using a digital image processing technique developed in our laboratory. The local CBF was measured at the end of the experiment. [3H]PDBu and [3H]FK were utilized as specific ligands to assess the activities of protein kinase C (PKC) and adenylate cyclase (AC), respectively. The local CBF on the occluded side was severely reduced and ranged from 0.2 to 9.0 ml/100 g/min, whereas the local CBF on the non-occluded side exhibited a moderate reduction except in the midline regions. The Bmax values of PDBu and FK were significantly increased not only on the occluded side but also on the non-occluded side in the ischemia group as compared to the corresponding values in the sham group. In contrast, the Kd value of each ligand remained unchanged in the ischemia group. These findings suggest that both the adenylate cyclase and protein kinase C systems may be significantly and diffusely activated in the initial stage of brain ischemia. Thus, severe hemispheric cerebral ischemia in the acute phase may induce severe perturbation of the second messenger systems in extensive bilateral regions.
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PMID:Enhanced maximal binding capacity (Bmax) of second messenger ligand in the acute phase of cerebral ischemia--direct visualization by digital image analysis. 809 Mar 67

We investigated the long-term changes that occur in the gerbil brain following transient cerebral ischemia using histology and receptor autoradiography. Transient ischemia was induced for 3 and 10 min, and animals were allowed to survive for 8 months. A histological study showed that 3-min ischemia caused neuronal damage and mild atrophy only in the hippocampal CA1 sector, and that 10-min ischemia produced severe neuronal damage and marked shrinkage in the hippocampal CA1 and CA3 sectors. Furthermore, severe neuronal damage was seen in the striatum after 10-min ischemia. Autoradiography study revealed that 3-min ischemia caused a significant reduction in [3H] naloxone binding in the frontal cortex, striatum, dentate gyrus, and thalamus, whereas [3H]SCH 23390 and [3H] forskolin binding was not significantly altered in all regions. In contrast, 10-min ischemia produced marked alteration in these binding sites in the striatum, hippocampus, thalamus, and substantia nigra. The alteration was especially notable in the hippocampal region and substantia nigra. These results indicate that hippocampal damage after transient ischemia, compared with that in other regions, is not static, but particularly progressive. Furthermore, they demonstrate a reduction in adenylate cyclase system in the striatum and substantia nigra after transient ischemia. Moreover, our results suggest that long-term survival after ischemia may induce synaptic modification of neurotransmitter and adenylate cyclase system in the hippocampus.
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PMID:Long-term observations in gerbil brain following transient cerebral ischemia: autoradiographic and histological study. 827 28

Pituitary adenylate cyclase-activating polypeptides and PAC1-R are expressed during early embryogenesis and PACAP's neurotrophic action supports a role in neuronal development. In the adult brain PACAP functions as a neuroprotective factor that attenuates the neuronal damage resulting from various insults. The tumor suppressor gene p53 and the new zinc finger protein Zac regulate apoptosis and cell cycle arrest through unrelated pathways and both genes are up-regulated under cerebral ischemia. We report here that p53 and Zac induce expression of the PAC1-R gene. By this mechanism p53 and Zac could fine-tune the balance between death promoting and protective signals and may thus fulfil a dual role in ischemia.
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PMID:Induction of the PAC1-R (PACAP-type I receptor) gene by p53 and Zac. 1036 51

Recent advances in molecular biology, biochemistry, cell biology and behavioral pharmacology together with the development of more selective ligands to the various adenosine receptors have increased our understanding of the functioning of central adenosine A(2A) receptors. The A(2A) receptor is one of four adenosine receptors found in the brain. Its expression is highest in striatum, nucleus accumbens and olfactory tubercles, although it also occurs in neurons and microglia in most other brain regions. The receptor has seven transmembrane domains and couples via Gs to adenyl cyclase stimulation. Antagonistic interactions between A(2A) receptors and dopamine D(2) receptors have been described, as stimulation of the A(2A) receptor leads to a reduction in the affinity of D(2) receptors for D(2) receptor agonists. The A(2A) receptor is thought to play a role in a number of physiological responses and pathological conditions. Indeed, A(2A) receptor antagonists may be useful for the treatment of acute and chronic neurodegenerative disorders such as cerebral ischemia or Parkinson's disease. A(2A) receptor agonists may treat certain types of seizures or sleep disorders. This review discusses the characteristics, distribution, pharmacochemical properties and regulation of central A(2A) receptors, as well as A(2A) receptor-mediated behavioural responses and their potential role in various neuropsychiatric disorders.
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PMID:Central adenosine A(2A) receptors: an overview. 1061 96

Hepatocyte growth factor (HGF) is a multifunctional protein that exerts trophic effects on neural cells. HGF is expressed in normal brains and increased after brain injury. Recent studies suggest that neurons and astrocytes are the main producers of HGF in the brain. Here we report that microglia also produce HGF both in vitro and in vivo. Treatment of cultured microglia with prostaglandin E(2) (PGE(2)), one of the major inflammatory mediators in the brain, induced significant production of HGF, and this induction was suppressed by pretreatment with the adenylate cyclase inhibitor SQ22536, suggesting that the induction of HGF by PGE(2) in microglia proceeds via a cAMP-mediated pathway. We further investigated whether microglia also produce HGF in vivo under the pathological condition of cerebral ischemia. We found that HGF expression was increased after permanent occlusion of the middle cerebral artery (MCA), and double immunohistochemical staining revealed that the most of HGF-positive cells were microglia. PGE(2) level was increased 8 hr after start of MCA occlusion, and this enhancement is in parallel with the increase in HGF expression, suggesting that PGE(2) not only may induce HGF production in microglia in vitro but may also be an inducer in vivo.
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PMID:Induction of hepatocyte growth factor (HGF) in rat microglial cells by prostaglandin E(2). 1105 8

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