Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.11 (AMPK)
 12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transmitter dopamine reduces electrotonic coupling between retinal horizontal cells and increases their sensitivity to glutamate. Since in other systems single afferents establish mixed electrotonic and chemical excitatory synapses with their targets, dopamine might be expected there to depress one component of excitation while enhancing the other. This hypothesis was tested by applying dopamine locally in the vicinity of the lateral dendrite of the goldfish Mauthner cell (M cell) and monitoring the composite electrotonic and chemical excitatory postsynaptic potentials and currents evoked by ipsilateral eighth nerve stimulation. Dopamine produces persistent enhancements of both components of the postsynaptic response while it also increases input conductance. All these dopamine actions are prevented by superfusing the brain with saline containing the dopamine D1 receptor antagonist SCH-23390. Postsynaptic injections of the cAMP-dependent protein kinase inhibitor (Walsh inhibitor, or PKI5-24) block the dopamine-induced changes in synaptic transmission, implicating a cAMP-dependent mechanism. Furthermore, there is a dopaminergic innervation of the M cell, as demonstrated immunohistochemically with antibodies against dopamine and the rate-limiting enzyme in its synthetic pathway, tyrosine hydroxylase. Varicose immunoreactive fibers lie in the vicinity of the distal part of the lateral dendrite between the large myelinated club endings that establish the mixed synapses. As determined with electron microscopy, the dopaminergic fibers contain small vesicles, and they do not have synaptic contacts with either the afferents or the M cell, remaining instead in the synaptic bed. Taken together, these results suggest that dopamine released at a distance from these terminals increases the gain of this primary sensory input to the M cell, most likely through a phosphorylation mechanism.
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PMID:Dopamine enhances both electrotonic coupling and chemical excitatory postsynaptic potentials at mixed synapses. 133 56

Using homologous probes for the cloning of related genes within the family of guanine nucleotide-binding protein-coupled receptors, we have cloned the gene for the rhesus macaque D1 dopamine receptor. By using the rat D1 receptor coding sequence as a probe under high stringency conditions, the rhesus D1 receptor gene was isolated from a lambda EMBL3 rhesus genomic DNA library. The rhesus D1 dopamine receptor gene is intronless and encodes a 446-amino acid protein that contains two consensus sites for asparagine-linked glycosylation (Asn-5 and Asn-176) and two consensus sites for cAMP-dependent protein kinase phosphorylation (Thr-136 and Thr-268). The primary amino acid sequence of the rhesus D1 dopamine receptor shows an extremely high degree of similarity (99.6%) to the human D1 receptor. Genomic DNA analyses conducted with high and reduced stringency hybridizations indicate that the rhesus macaque D1 receptor is a member of a large multigene family. Like the human D1 receptor mRNA, the rhesus D1 receptor mRNA is approximately 4 kilobases in size and is localized predominantly in the caudate, with lesser amounts in the hippocampus and cortex. The rhesus D1 receptor coding region was inserted into the cytomegalovirus promoter-driven expression vector pcDNA-1, and the recombinant (pcDNA-D1) was cotransfected with the selectable marker pRSVneo, conferring G418 resistance, into D1 receptor-deficient C6 glioma cells. Analyses of the selected transfectant demonstrate the expression of a high affinity, functional D1 dopamine receptor. The D1 receptor radioligand [3H]SCH 23390 bound transfectant membranes with an affinity (Kd), of 0.3 nM; the D2-selective ligand spiperone, the dopamine receptor ligand clozapine, and the serotonin receptor antagonist ketanserin bound with considerably lower affinities (102, 80, and 95 nM, respectively). Both dopamine and the D1-selective agonist SKF 38393 inhibited the binding of [3H]SCH 23390 to transfectant cell membranes; the binding of these agonists was sensitive to GTP. Dopamine potently stimulated the accumulation of cAMP in transfected C6 cells, whereas SKF 38393 was a partial agonist in these cells. Also, the density of recombinant D1 receptors on the transfectant cells was decreased 40% upon treatment with 10 microM dopamine, indicating that occupation of recombinant D1 receptors by agonists alters surface expression of the receptors.
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PMID:Molecular cloning and expression of the rhesus macaque D1 dopamine receptor gene. 153 68

The cellular localization of DARPP-32, a dopamine- and cAMP-regulated phosphoprotein of Mr 32,000 that appears to mediate certain actions of dopamine in the mammalian brain by acting as an inhibitor of protein phosphatase 1, was studied in the kidney of several species. DARPP-32 mRNA and DARPP-32-like immunoreactivity were found in the cytoplasm of cells in the thick ascending limb of the loop of Henle. The specific dopamine DA1 agonist SKF 82526 caused a dose-dependent inhibition of Na+,K+-ATPase activity, which could be blocked by SCH 23390, a specific DA1 antagonist, and by PKI-(5-24) amide, a specific inhibitor of cAMP-dependent protein kinase. The results indicate that DA1 dopamine receptors and DARPP-32, an intracellular third messenger for dopamine, are part of the signal-transduction process for dopamine acting on renal tubule cells.
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PMID:Dopamine- and cAMP-regulated phosphoprotein (DARPP-32) and dopamine DA1 agonist-sensitive Na+,K+-ATPase in renal tubule cells. 257 60

White bass (Roccus chrysops) retinal horizontal cells possess two types of voltage-activated calcium currents which have recently been characterized with regard to their voltage dependence and pharmacology (Sullivan, J., and E. M. Lasater. 1992. Journal of General Physiology. 99:85-107). A low voltage-activated transient current was identified which resembles the T-type calcium current described in a number of other preparations, along with a sustained high threshold, long-lasting calcium current that resembles the L-type calcium current. Here we report on the modulation of horizontal cell calcium channels by dopamine. Under whole-cell voltage clamp conditions favoring the expression of both calcium currents, dopamine had opposing actions on the two types of voltage-sensitive calcium currents in the same cone-type horizontal cell. The L-type calcium current was significantly potentiated by dopamine while the T-type current was simultaneously reduced. Dopamine had no effect on calcium currents in rod-type horizontal cells. Both of dopamine's actions were mimicked with the D1 receptor agonist, SKF 38393, and blocked by application of the D1 specific antagonist, SCH 23390. Dopamine's actions on the two types of calcium currents in white bass horizontal cells are mimicked by the cell membrane-permeant cyclic AMP derivative, 8-(4-chlorophenylthio)-cyclic AMP, suggesting that dopamine's action is linked to a cAMP-mediated second messenger system. Furthermore, the inhibitor of cAMP-dependent protein kinase blocked both of dopamine's actions on the voltage-dependent calcium channels when introduced through the patch pipette. This indicates that protein phosphorylation is involved in modulating horizontal cell calcium channels by dopamine. Taken together, these results show that dopamine has differential effects on the voltage-dependent calcium currents in retinal horizontal cells. The modulation of these currents may play a role in shaping the response properties of horizontal cells.
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PMID:Dopamine modulates in a differential fashion T- and L-type calcium currents in bass retinal horizontal cells. 822 12

To investigate whether expression of the renal angiotensinogen gene is regulated by dopaminergic receptors, we used opossum kidney (OK 27) cells with a fusion gene containing the 5'- flanking regulatory sequence of the rat angiotensinogen gene fused with a human growth hormone (hGH) gene as a reporter [pOGH, angiotensinogen nucleotide (N) -1498/+18], permanently integrated into their genomes. The level of expression of pOGH (angiotensinogen N-1498/+18) in OK 27 was evaluated by the amount of immunoreactive hGH (ir-hGH) secreted into the culture medium. In the absence of 3-isobutyl-1-methylxanthine (IBMX), addition of dopamine (10(-13) to 10(-5)M) had minimal effect on the expression of the pOGH (angiotensinogen N-1498/+18) in OK 27 cells. In the presence of IBMX, addition of low concentrations (10(-13) and 10(-7) M) of dopamine stimulated the expression of pOGH angiotensinogen N-1498/+18) in OK 27 cells in a dose-dependent manner, whereas high concentrations (i.e., > 10(-7) M) had minimal effect. The stimulatory effect of dopamine on the expression of pOGH (angiotensinogen N-1498/+18) was inhibited by the presence of SCH-23390 (D1-dopaminergic receptor antagonist) and spiperone (D2-dopaminergic receptor antagonist), but not by ketanserin (5 HT2/5HT1c-serotonergic receptor antagonist). Moreover, the stimulatory effect of dopamine was inhibited by the presence of U-73122 (an inhibitor of phospholipase C and phospholipase A2) or staurosporine (an inhibitor of protein kinase C) or (R)-p-adenosine 3',5'-cyclic monophosphorothioate (Rp-cAMP[S]; an inhibitor of cAMP-dependent protein kinase AI and II). Addition of low concentrations (10(-13) to 10(-9)M) of SKF-82958 (D1-dopaminergic receptor agonist) or PPHT (D2-dopaminergic receptor agonist) also stimulated the expression of pOGH (angiotensinogen N-1498/+18). The stimulatory effect of SKF-82958 was inhibited by the presence of SCH-23390 or Rp-cAMP[S], whereas the effect of PPHT was inhibited by the presence of spiperone or staurosporine. These studies demonstrate that the expression of pOGH (angiotensinogen N-1498/+18) in OK 27 cells is modulated by dopaminergic receptor agonists.
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PMID:Dopaminergic receptors and angiotensinogen gene expression in opossum kidney cells. 885 71

cAMP/cAMP-dependent protein kinase (PKA) signaling pathway has been recently proposed to participate in both the late phase of long term potentiation in the hippocampus and in the late, protein synthesis-dependent phase of memory formation. Here we report that a late memory consolidation phase of an inhibitory avoidance learning is regulated by an hippocampal cAMP signaling pathway that is activated, at least in part, by D1/D5 receptors. Bilateral infusion of SKF 38393 (7.5 microg/side), a D1/D5 receptor agonist, into the CA1 region of the dorsal hippocampus, enhanced retention of a step-down inhibitory avoidance when given 3 or 6 h, but not immediately (0 h) or 9 h, after training. In contrast, full retrograde amnesia was obtained when SCH 23390 (0.5 microg/side), a D1/D5 receptor antagonist, was infused into the hippocampus 3 or 6 h after training. Intrahippocampal infusion of 8Br-cAMP (1.25 microg/side), or forskolin (0.5 microg/side), an activator of adenylyl cyclase, enhanced memory when given 3 or 6 h after training. KT5720 (0.5 microg/side), a specific inhibitor of PKA, hindered memory consolidation when given immediately or 3 or 6 h posttraining. Rats submitted to the avoidance task showed learning-specific increases in hippocampal 3H-SCH 23390 binding and in the endogenous levels of cAMP 3 and 6 h after training. In addition, PKA activity and P-CREB (phosphorylated form of cAMP responsive element binding protein) immunoreactivity increased in the hippocampus immediately and 3 and 6 h after training. Together, these findings suggest that the late phase of memory consolidation of an inhibitory avoidance is modulated cAMP/PKA signaling pathways in the hippocampus.
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PMID:Involvement of hippocampal cAMP/cAMP-dependent protein kinase signaling pathways in a late memory consolidation phase of aversively motivated learning in rats. 919 88

To characterize and localize a K+/H+ antiport mechanism in the renal medullary thick ascending limb (MTAL), membrane vesicles were isolated from a rat MTAL homogenate. K+/H+ antiport (in > out H+ gradient-stimulated 86Rb+ uptake) was abolished by barium and verapamil (apparent Ki of 55 microM) but unaffected by other K+ channel blockers such as quinidine and high amiloride concentrations. SCH 28080, a H+/K+-ATPase blocker, did not affect K+/H+ antiport. K+/H+ antiport activity was correlated positively with the enrichment factor of the membranes in the apical marker enzyme alkaline phosphatase (r = 0.875, p < 0.01) and negatively correlated with the enrichment factor in basolateral Na+/K+-ATPase (r = -0.665, p < 0.05). Moreover, a functional interaction occurred with Na+/H+ exchange (NHE) consistent with colocation of K+/H+ antiport and apical NHE-3, not basolateral NHE-1. K+/H+ antiport was shown by intracellular pH measurements to be inhibited by arginine vasopressin and 8-bromo-cAMP through cAMP-dependent protein kinase (protein kinase A) activation. These results demonstrate the presence of a K+/H+ antiport mechanism, which is inhibited by arginine vasopressin via protein kinase A, in the apical membrane of the MTAL.
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PMID:Apical location and inhibition by arginine vasopressin of K+/H+ antiport of the medullary thick ascending limb of rat kidney. 932 90

To investigate the role of the cAMP-dependent protein kinase (PKA) in the desensitization and down-regulation of the D(1) dopamine receptor, we stably expressed the rat cDNA for this receptor in mutant Chinese hamster ovary (CHO) cell lines deficient in PKA activity. The 10260 mutant CHO cell line has been characterized as expressing less than 10% of type I and type II PKA activities relative to the parental 10001 CHO cell line. The 10248 mutant CHO line lacks type II PKA activity and expresses a defective type I PKA. The transfected parental and mutant cell lines were found to express approximately 1 pmol/mg D(1) receptor binding activity (B(max)) as determined using [(3)H]SCH-23390 binding assays. All three cell lines demonstrated similar levels of dopamine-stimulated adenylyl cyclase activity. Pretreatment of all three CHO cells with dopamine resulted in desensitization of the adenylyl cyclase response, although the maximum desensitization was attenuated by 20 and 40% in the 10260 and 10248 cell lines, respectively. Dopamine also promoted, in a time- and dose-dependent fashion, a >90% down-regulation of D(1) receptors in the parental cell line but only a 50 and 30% decrease in the 10260 and 10248 cells, respectively. Similarly, treatment of the cells with the membrane-permeable cAMP analog 8-(4-chlorophenylthio)-cAMP induced functional desensitization and down-regulation of the D(1) receptor, although it was not as great as that observed with agonist pretreatment. As with the agonist pretreatments, the 8-(4-chlorophenylthio)-induced responses were attenuated in the mutant cells with the 10248 line exhibiting the least desensitization/down-regulation. Our results suggest that PKA significantly contributes to the desensitization and down-regulation of D(1) receptors in CHO cells and that type II PKA may be the more relevant isoform with respect to regulating D(1) receptor function.
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PMID:Altered regulation of the D(1) dopamine receptor in mutant Chinese hamster ovary cells deficient in cyclic AMP-dependent protein kinase activity. 1077 12

Recent findings implicate the prefrontal cortex (PFC) and, in particular, frontocortical dopamine acting at D1-like receptors, in working memory. However, the mechanisms underlying this function of dopamine remain unknown. The present studies evaluated the hypothesis that dopamine contributes to working memory through its action on the 2nd messenger cyclic 3',5'-adenosine monophosphate (cAMP) and cAMP-dependent protein kinase (PKA). Thus, rats were trained to perform random foraging or delayed (30 min) nonmatching-to-position (delayed win-shift) tasks on the radial maze. With hippocampal output to the frontal cortex disconnected by injecting lidocaine (20 microg/0.5 microl) unilaterally into the ventral subiculum, contralateral frontocortical injections of lidocaine (20 microg/0.5 microl) or the D1-like dopamine receptor antagonist SCH 23390 (0.5 microg/0.5 microl) impaired delayed win-shift but not random foraging, replicating previous findings. In similarly disconnected rats, frontocortical injections of the PKA inhibitor Rp-cAMPS (5.0 and 10.0, but not 1.0, microg/0.5 microl) selectively impaired delayed nonmatching-to-position. Results suggest that activation of the cAMP-PKA pathway by dopamine acting at D1-like receptors in the frontal cortex is necessary for working memory.
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PMID:Hippocampal-prefrontocortical circuits: PKA inhibition in the prefrontal cortex impairs delayed nonmatching in the radial maze in rats. 1177 52

The effects of cyclic AMP (cAMP)-related compounds on in vivo [(3)H]SCH 23390 binding to striatal dopamine D(1) receptors were investigated using autoradiography in order to clarify the possible regulation of the cAMP-dependent mechanisms in the in vivo ligand-receptor bindings in the living brain. Intrastriatal infusion of the cAMP analogue, N6,2'-O-dibutyryl-cyclic AMP (db-cAMP; 5, 25 and 100 nmol/side) produced a dose-dependent increase of in vivo [(3)H]SCH 23390 binding in conscious rats. This increasing effect of [(3)H]SCH 23390 binding completely disappeared by 6 h after the infusion of db-cAMP. A similar increase of in vivo [(3)H]SCH 23390 binding to striatal D(1) receptors was also observed by intrastriatal injection of 8-bromo-cyclic AMP (8Br-cAMP, 100 nmol/side). Pretreatment with Rp-cyclic AMP triethylamine (Rp-cAMPS, 100 nmol/side), an inhibitor of the cAMP-dependent protein kinase (PKA), completely blocked the increasing effect of [(3)H]SCH 23390 binding induced by db-cAMP. In contrast, in vitro [(3)H]SCH 23390 binding was not significantly altered by intrastriatal infusion of db-cAMP, which indicated that the maximum number of binding sites (B(max)) for D(1) receptors was not changed. The kinetic analysis employed the graphical method indicated that a db-cAMP-induced increase of in vivo [(3)H]SCH 23390 binding was mainly due to an increase in the bimolecular association rate constant (k(on)). These results strongly indicate that the PKA-mediated phosphorylation may play a pivotal role in the regulating the in vivo [(3)H]SCH 23390 dopamine D(1) receptor binding in intact rat brain.
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PMID:Increment of in vivo binding of [3H]SCH 23390, a dopamine D1 receptor ligand, induced by cyclic AMP-dependent protein kinase in rat brain. 1237 81


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