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: EC:3.1.4.3 (phospholipase C)
18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although it is suggested that in the renal proximal tubules, dopamine D1 receptor activation causes inhibition of Na+/K+ATPase via a phospholipase C and protein kinase C coupled pathway, the direct stimulation of protein kinase C by dopamine has not been reported. The present study was designed to examine the effects of dopamine and selective dopamine D1 receptor and dopamine D2 receptor agonists on protein kinase C activity. The renal proximal tubule suspensions were obtained from male Sprague-Dawley rats. The tubules were incubated separately with dopamine and fenoldopam in the presence or absence of dopamine D1 receptor antagonist, SCH 23390 ([(R)-(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1H-3- benzazepine]). The protein kinase C activity was measured by using a kinase target peptide, conjugated to a fluorescent molecule in water. The amino acid sequence of this peptide is, Proline-Leucine-Serine-Arginine-Threonine-Leucine-Serine-Valine-Alanine- Alanine-Lysine(PKSRTLSVAAK). We found that dopamine and fenoldopam [6-chloro-2,3,4,5-tetrahydro-1-(4-hydroxyphenyl)-1H-3-benzazepine-7,8-di ol] produced concentration-dependent increases in protein kinase C activity, which was blocked by SCH 23390. However, the dopamine D2 receptor agonist, bromocriptine [(5' alpha)-2-bromo-12'-hydroxy-2'-(1-methyl-ethyl)-5'-(2-methylpropyl)erg o- taman-3',6',18-trione] failed to stimulate protein kinase C activity at all the concentrations tested. These results provide direct evidence that dopamine stimulates protein kinase C activity via activation of dopamine D1 receptors.
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PMID:Dopamine causes stimulation of protein kinase C in rat renal proximal tubules by activating dopamine D1 receptors. 762 15

Dopamine and the D1 receptor agonist SKF 38393 activate the phospholipase C-mediated hydrolysis of phosphoinositides in brain slices. This action is selectively inhibited by SCH-23390, thus suggesting its mediation through the dopamine D1 receptor. To determine if the dopamine receptor that mediates phosphoinositide hydrolysis is the adenylyl cyclase-linked D1 receptor or a different subtype of the dopamine D1 receptor, 20 benzazepine compounds that were previously characterized as selective dopamine D1 receptor agonists were tested for stimulation of phosphoinositide hydrolysis in rat striatal slices and for activation of adenylyl cyclase in rat striatal membranes. The compounds displayed a range of potencies and efficacies in stimulating adenylyl cyclase or phosphoinositide hydrolysis. Compounds such as SKF 81427 and SKF 38393 were as efficacious as dopamine in stimulating phosphoinositide hydrolysis, whereas other compounds, including SKF 85174 and SKF 86284, although showing high efficacy in stimulating cyclic AMP, failed to stimulate inositol phosphate formation. There was no correlation between the potencies (r = 0.016; p > 0.95) or efficacies (r = -0.294; p > 0.24) of the tested compounds in stimulating cyclic AMP formation and phosphoinositide hydrolysis. These observations indicate that the D1-like dopamine receptor that mediates phosphoinositide hydrolysis is pharmacologically distinct from the classic D1 receptor that is coupled to stimulation of cyclic AMP formation.
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PMID:Evidence for a distinct D1-like dopamine receptor that couples to activation of phosphoinositide metabolism in brain. 790 49

Morphological transformation of Chinese hamster ovary (CHO) cells can be induced by exogenous addition of cyclic AMP (cAMP) or through the stimulation of G protein-coupled receptors ectopically expressed in these cells. The morphological transformation has been shown to represent a phenotypic suppression of CHO cell tumorigenic potential. Studies were undertaken to determine which receptor-activated signal transduction pathway initiates the progression from a tumorigenic to a non-tumorigenic phenotype. Stimulation of CHO cells expressing the dopamine D1 receptor (CHOD1) with a D1 selective agonist, SKF38393, resulted in an increase in cAMP accumulation which correlated with morphologic transformation. SKF38393 had no effect on intracellular calcium levels, arguing against a requirement for phospholipase C or calcium mobilization in the D1-stimulated morphology change. In contrast, stimulation of muscarinic m5 (CHOm5) or vasopressin V1a (CHOV1a) receptors expressed in CHO cells with carbachol or arginine vasopressin (AVP), respectively, did not result in an increase in intracellular calcium and a morphology change. The time course of carbachol-stimulated calcium influx correlated with the time course of morphological transformation, but not with carbachol-stimulated cAMP or inositol, 1,4,5-trisphosphate (IP3) accumulation. Furthermore, no increase in cAMP accumulation was observed in AVP-stimulated CHOV1a cells, suggesting a cAMP-independent stimulation of the transformation process. Carbachol-stimulated CHO cells expressing the m2 muscarinic receptor (CHOm2) failed to undergo a morphological transformation, yet released IP3. Therefore, phospholipase C-mediated signal transduction is not sufficient for the morphological transformation of CHO cells. It appears that receptor-stimulated morphologic transformation of CHO cells can be induced via two independent signaling pathways, mediated by adenylate cyclase or receptor-operated calcium channels.
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PMID:Independent induction of morphological transformation of CHO cells by receptor-activated cyclic AMP synthesis or by receptor-operated calcium influx. 861 96

We investigated the effect of dopamine on the vascular Na+-pump activity in isolated rat tail artery sections. Effect of dopamine on vascular tone was also assessed using a perfused tail artery preparation. Dopamine inhibited the Na+-pump activity in isolated rat tail arteries in a dose-dependent manner. Both SKF-38393 HCl, a selective dopamine D1 receptor agonist, and quinpirole HCl, a selective dopamine D2 receptor agonist inhibited the Na+-pump activity. The inhibition of the Na+-pump activity. The inhibition of the Na+-pump by dopamine was accompanied with a transient increase in the vascular tone. SKF-38393, but not quinpirole produced a sustained increase in the vascular tone. Tissues preincubated simultaneously with SCH-23390 HCl, a selective dopamine D1 receptor antagonist, and sulpiride, a selective dopamine D2 receptor antagonist, prevented the dopamine inhibition of the Na+-pump activity. Pertussis toxin blocked the Na+-pump inhibition produced by the dopamine D1 receptor agonist but not by the dopamine D2 agonist. Similarly, the dopamine D1 receptor but not dopamine D2 agonist increased the rate of phosphoinositide hydrolysis in rat tail artery sections. Our results indicate that dopamine inhibition of the Na+-pump is mediated by a pertussis toxin-sensitive mechanism and may be coupled to the activation of the phospholipase C system in rat tail arteries. The modulation of the Na+-pump by dopamine may contribute to the vascular tone.
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PMID:Regulation of Na(+)-pump activity by dopamine in rat tail arteries. 866 11

We investigated the effect of dopamine on Na+,K(+)-ATPase activity in cultured aortic smooth muscle cells. Na+,K(+)- ATPase activity was measured by a coupled enzyme assay. Our results demonstrate that dopamine and dopamine receptor agonists, SKF-38393 (a D1 receptor agonist) and quinpirole (a D2 receptor agonist) produced 62%, 50% and 49% inhibition of Na+,K(+)-ATPase activity in aortic smooth muscle cells, respectively. The combination of the two agonists produced inhibition similar to that of dopamine. Dopamine- and the agonist-induced Na+,K(+)-ATPase inhibition was blocked by selective receptor antagonists. The Na+,K(+)-ATPase inhibition by SKF-38393 but not by quinpirole was abolished by pertussis toxin. Na+,K(+)-ATPase inhibition was also achieved by guanosine triphosphate analog GTP-gamma-S. SKF-38393 but not quinpirole stimulated phosphoinositide hydrolysis rate in rat aortic slices. SKF-38393-induced phosphoinositide hydrolysis stimulation was reversed by SCH-23390, a dopamine D1 receptor antagonist, and attenuated by pertussis toxin. In conclusion, our observations indicate that dopamine and dopamine receptor agonists inhibit Na+,K(+)-ATPase activity through specific vascular receptors. Dopamine D1 receptors are linked to pertussis toxin sensitive-mechanism(s) and a GTP-binding protein appears to be coupled to the enzyme inhibition. Finally, the inhibition of Na+,K(+)-ATPase activity in response to dopamine D1 receptor activation may be mediated by the phospholipase C signaling pathway.
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PMID:Regulation of Na+,K(+)-ATPase activity by dopamine in cultured rat aortic smooth muscle cells. 881 57

Our previous in vitro microperfusion studies established that dopamine inhibits sodium chloride transport in the rat medullary thick ascending limb. The present study was designed to determine the intracellular signaling pathway mediating this response. The dopamine D1 receptor agonist fenoldopam (1 microM) inhibited sodium chloride transport in the thick ascending limb by 42+/-5%. The dopamine D1 receptor antagonist R-(+)-7-Chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1H-3-benzazepine-HCl (SCH-23390) completely blocked this effect of fenoldopam. Suppression of protein kinase A activity using either myristoylated protein kinase inhibitor (PKI) or N-[2-(p-Bromocinnamylamino)ethyl]-5-isoquinolinesulfonamide.2HCl (H-89), as well as suppression of phospholipase C activity using 1-(6-((17 beta-3-methoxyestra-1,3,5(10)-trien-17-yl)amino)hexyl)-1H-pyrrole-2,5-dione (U-73122), had no effect on fenoldopam-dependent inhibition of transport. In contrast, inhibition of phospholipase A2 activity using E-6-(Bromomethylene)tetrahydro-3-(1-naphthalenyl)-2H-pyran-2-one (HELSS) significantly attenuated the effect of fenoldopam by 74%. The cytochrome P-450 monooxygenase inhibitor 17-octadecynoic acid (17-ODYA) and the protein kinase C inhibitor staurosporine both significantly attenuated the effects of fenoldopam by 67%. Exposure to 20-Hydroxy-(5Z, 8Z, 11Z, 14Z)-eicosatetraenoic acid (20-HETE) inhibited transport by 31+/-5%, and this effect was significantly attenuated by 66% in the presence of staurosporine. We propose a signaling pathway in which dopamine activates a calcium-independent phospholipase A2 in the medullary thick ascending limb. Released arachidonic acid is then metabolized to 20-HETE which subsequently increases protein kinase C activity that acts as a final transport effector.
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PMID:Dopamine D1 receptor-dependent inhibition of NaCl transport in the rat thick ascending limb: mechanism of action. 1289 37

The effects of dopamine D1 receptor agonists are often presumed to result from an activation of adenylyl cyclase, but dopamine D1 receptors may also be linked to other signal transduction cascades and the relative importance of these various pathways is currently unclear. SKF 83959 is an agonist at dopamine D1 receptors linked to phospholipase C, but has been reported to be an antagonist at receptors linked to adenylyl cyclase. The current report demonstrates that SKF 83959 induces pronounced, nonpatchy, expression of the immediate-early gene product Fos in the striatum of intact rats which can be converted to a patchy pattern by pretreatment with the dopamine D2-like receptor agonist quinpirole. In rats with unilateral 6-hydroxydopamine lesions SKF 83959 induces strong behavioral rotation and a greatly potentiated Fos response. All of the responses to SKF 83959, in both intact and dopamine-depleted animals, can be blocked by pretreatment with the dopamine D1 receptor antagonist SCH-23390. In intact subjects, SKF 83959 induced Fos expression less potently than the standard dopamine D1 receptor agonist SKF 82958, but the two drugs were approximately equipotent in deinnervated animals. These results demonstrate for the first time that possession of full efficacy at dopamine D1 receptors linked to adenylyl cyclase is not a necessary requirement for the induction of striatal Fos expression in intact animals and suggest that alternative signal transduction pathways may play a role in dopamine agonist induced Fos expression, especially in dopamine-depleted subjects.
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PMID:The atypical dopamine D1 receptor agonist SKF 83959 induces striatal Fos expression in rats. 1632 97

Classical agonists of the dopamine D1 receptor activate both adenylyl cyclase and phospholipase C (PLC) signaling pathways. As a result, the extent to which these two pathways are essentially involved in various effects produced by D1 receptor agonists is currently uncertain. In the present report we examined the effects of SKF 83822, a dopamine D1 agonist which has been reported to activate adenylyl cyclase, but not PLC, on behavior and immediate early gene (IEG) expression in rats with unilateral 6-hydroxydopamine lesions. SKF 83822 (25-100 microg/kg) induced dose dependent contralateral rotation in these subjects, and, additionally, stimulated strong expression of the IEG products c-Fos, Fra2, Zif/268 and Arc in the deinnervated striatum. All of these effects could be antagonized by pretreatment with the selective D1 dopamine antagonist SCH 23390 (0.5 mg/kg). Although PLC may be involved in many effects mediated through dopamine D1 receptors, these results suggest that direct activation of PLC is not necessary for the induction of either rotation or IEG expression in dopamine depleted rats.
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PMID:Rotation and immediate-early gene expression in rats treated with the atypical D1 dopamine agonist SKF 83822. 1730 71

Invertebrate visual iG(q)alpha is homologous to mammalian mG(q)alpha in two of the three domains important for G protein interaction with receptors; the C-terminus and the linker regions that connect the helical and ras-like domains of the alpha subunit. The third receptor-interacting domain, the N-terminus, contains a six amino acid extension MTLESI in mG(q)alpha that is not present in iG(q)alpha. In co-expression studies we assessed the promiscuity and efficacy of receptor coupling to phospholipase C (PLC) by iG(q)alpha, a non-palmitoylated mutant iG(q)alpha(C3,4A), mG(q)alpha and G(15)alpha. The invertebrate G proteins and mG(q)alpha only coupled to G(q)-coupled receptors (m1 muscarinic acetylcholine receptor (mChR1), alpha(1A)-adrenergic receptor (alpha1-AR)) and not to the G(i/s)-coupled receptors (CCR1 receptor, beta2-adrenergic receptor or dopamine D1 receptor) while G(15)alpha coupled to all receptors. iG(q)alpha and iG(q)alpha(C3,4A) both had double the efficacy for PLC activation compared to the mammalian G proteins when co-expressed with mChR1 and alpha1-AR. The increased efficacy of iG(q)alpha compared to mG(q)alpha was also seen downstream of PLC with carbachol stimulation of the mitogen-activated protein kinase, ERK1/2. Addition of the MTLESI extension onto the N-terminus of iG(q)alpha decreased its efficacy by 35% whereas deletion of this sequence from mG(q)alpha increased its efficacy by 60% in the PLC and ERK1/2 assays. iG(q)alpha, iG(q)alpha(C3,4A) and mG(q)alpha all displayed similar receptor-independent AlF(4)(-)activation of PLC and guanosine triphosphate hydrolysis (GTPase) activity. iG(q)alpha, and iG(q)alpha(C3,4A) both had increased receptor-activated guanosine 5'-[gamma-[(35)S]thio]triphosphate ([(35)S]GTPgammaS) binding when compared to mG(q)alpha when co-expressed with the mChR1. These results demonstrate that G(q) protein efficacy is at least partially determined by the presence of the amino-terminal MTLESI extension. Comparison of [(35)S]GTPgammaS binding rates helps explain the increased efficacy of the invertebrate G proteins.
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PMID:Receptor-coupling properties of the invertebrate visual guanine nucleotide binding protein iGqalpha. 1756 78

Curcumin, an active principle component in rhizome of Curcuma longa, has proved its merit for diabetes through its anti-oxidative and anti-inflammatory properties. This study aims at evaluating the effect of curcumin in modulating the altered dopaminergic receptors, CREB and phospholipase C in the cerebral cortex and cerebellum of STZ induced diabetic rats. Radioreceptor binding assays and gene expression was done in the cerebral cortex and cerebellum of male Wistar rats using specific ligands and probes. Total dopaminergic receptor binding parameter, B(max) showed an increase in cerebral cortex and decrease in the cerebellum of diabetic rats. Gene expression studies using real time PCR showed an increased expression of dopamine D1 and D2 receptor in the cerebral cortex of diabetic rats. In cerebellum dopamine D1 receptor was down regulated and D2 receptor showed an up regulation. Transcription factor CREB and phospholipase C showed a significant down regulation in cerebral cortex and cerebellum of diabetic rats. We report that curcumin supplementation reduces diabetes induced alteration of dopamine D1, D2 receptors, transcription factor CREB and phospholipase C to near control. Our results indicate that curcumin has a potential to regulate diabetes induced malfunctions of dopaminergic signalling, CREB and Phospholipase C expression in cerebral cortex and cerebellum and thereby improving the cognitive and emotional functions associated with these regions. Furthermore, in line with these studies an interaction between curcumin and dopaminergic receptors, CREB and phospholipase C is suggested, which attenuates the cortical and cerebellar dysfunction in diabetes. These results suggest that curcumin holds promise as an agent to prevent or treat CNS complications in diabetes.
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PMID:Curcumin modulates dopaminergic receptor, CREB and phospholipase C gene expression in the cerebral cortex and cerebellum of streptozotocin induced diabetic rats. 2051 44


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