EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dopamine, acting via cyclic adenosine 3':5'-monophosphate (cAMP), has been shown to enhance a kainate-gated ionic conductance in white perch retinal horizontal cells in vitro. To determine whether this effect involves stimulation of a protein kinase, kainate-gated currents were observed in cultured horizontal cells that were dialyzed with the catalytic subunit of cAMP-dependent protein kinase. Intracellular application of catalytic subunit or cAMP, but not heat-inactivated catalytic subunit, caused significant enhancement of the kainate-evoked currents. These results suggest that kainate-gated channels in horizontal cells may be modified by a phosphorylation event.
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PMID:Enhancement of kainate-gated currents in retinal horizontal cells by cyclic AMP-dependent protein kinase. 272 Mar 93

Although dopamine inhibits PRL release from the normal anterior pituitary lactotroph, a conclusive demonstration of the mechanisms involved in this response has been impeded by the presence of other cell types in the anterior pituitary. To circumvent this problem, we have isolated a clonal cell line, designated MMQ, from the 7315a rat pituitary tumor. The MMQ cell is an exemplary model for our use because it only secretes PRL. Our studies show that dopamine inhibits secretagogue-induced PRL release from these cells. In addition, dopamine decreases the intracellular cAMP concentration in MMQ cells that have been exposed to forskolin, cholera toxin, or vasoactive intestinal polypeptide, each a stimulator of cAMP generation. This inhibition is, in turn, reversed by the dopamine antagonist haloperidol and by pertussis toxin, an inactivator of the GTP-binding coupling protein. Dopamine also decreases the uptake and fractional efflux of 45Ca2+ by MMQ cells that have been exposed to the calcium channel activator maitotoxin. It seems, therefore, that dopamine decreases PRL release from MMQ cells at least in part by decreasing intracellular cAMP levels and calcium uptake. In additional experiments, we have found that MMQ cells are responsive to somatostatin, estrogen, progesterone, and acetylcholine, but not to TRH, angiotensin II, neurotensin, or bombesin. Furthermore, these cells possess a functional protein kinase-C system, as evidenced by the increase in PRL release and decrease in stimulated intracellular cAMP levels that occur in response to treatment with phorbol diesters. We suggest that the MMQ cell line will prove a useful model system for study of the biochemical effects of dopamine and other factors that modify PRL release.
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PMID:Characterization of the MMQ cell, a prolactin-secreting clonal cell line that is responsive to dopamine. 284 8

A catecholamine-sensitive adenylate cyclase system is present in homogenates of both calf and rat retinas. Dopamine is a more potent activator of the bovine enzyme than is norepinephrine or epinephrine. Cyclic AMP concentrations in intact bovine retina are increased by dopamine, as well as by other catecholamines, and by depolarizing agents. Studies with adrenergic blocking agents suggest that the stimulation of retinal adenylate cyclase by catecholamines cannot be clearly defined in terms of the characteristics of alpha or beta adrenergic receptors. Bovine retina also contains a protein kinase that is stimulated 20-fold by cyclic AMP. It is proposed that dopamine is the major activator of a retinal adenylate cyclase, and that this activation is related to its role as a neurotransmitter.
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PMID:Stimulation by dopamine of adenylate cyclase in retinal homogenates and of adenosine-3':5'-cyclic monophosphate formation in intact retina. 440 Nov 22

Dopamine (DA)-containing neurons of retina were employed as an experimental model for studying the short-term regulation of tyrosine hydroxylase (TH) in tonically-active and tonically-inactive neurons. These DA-containing neurons are trans-synaptically activated by light. Two mechanisms have been observed in this system for regulation of TH activity. A short-term activation of TH that is characterized by a decreased apparent Km for pteridine cofactors occurs in response to rapid increases of neuronal activity. A second mechanism occurs in response to prolonged, tonic changes of neuronal activity and is characterized by changes of Vmax. Both the Km changes and Vmax changes represent changes of specific activity of TH rather than enzyme induction. To determine the effects of short-term increases of neuronal activity on TH in tonically-active and tonically-inactive neurons, the effects of acute administration of haloperidol were examined in rats that were continuously light-exposed or light-deprived for 4 days. Haloperidol increased TH activity in both light-exposed and light-deprived retinas. The drug elicited the same percent stimulation in both experimental conditions. However, because the basal activity of TH was higher in the light-exposed than the light-deprived retinas, the absolute increase of TH specific activity was greater in the light-exposed samples. The effect of protein phosphorylation on TH activity in extracts of chronically light-exposed or light-deprived retinas was also examined to determine if the differences in the response to haloperidol might be due to a difference in the amount of TH available for short-term activation. Phosphorylation by endogenous cyclic AMP-dependent protein kinase (APK) or by purified catalytic subunit of APK resulted in larger increases of TH specific activity in extracts of light-exposed retinas than in those of light-deprived retinas. As was observed for haloperidol-induced activation, the percent stimulation elicited by phosphorylation was similar in extracts of light-exposed and light-deprived retinas. These observations suggest that more enzyme is available for short-term activation in tonically-active neurons than in those that are tonically inactive. A hypothetical model is proposed in which TH exists in active and inactive forms, the ratio of which depends on the tonic level of neuronal activity.
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PMID:Short-term regulation of tyrosine hydroxylase in tonically-active and in tonically-inactive dopamine neurons: effects of haloperidol and protein phosphorylation. 613 85

Dopamine (DA)-containing neurons of the rat retina are apparently activated transsynaptically by photic stimulation. Exposure of dark-adapted rats to light increases retinal DA biosynthesis and metabolism. Associated with the light-evoked increase of DA biosynthesis is a rapid activation of tyrosine hydroxylase (TH), the rate-limiting enzyme of catecholamine biosynthesis. The activation of TH is characterized by an increased affinity of the enzyme for the pteridine cofactor. Because TH in dark-adapted retinas is apparently not saturated with cofactor, the light-evoked increase of affinity is probably responsible for the observed stimulation of DA biosynthesis. Cyclic AMP (cAMP)-dependent protein phosphorylation in vitro activates TH extracted from dark-adapted retinas, and phosphorylation-induced TH activation is very similar and not additive with light-evoked activation of the enzyme. Incubation of viable cell suspensions of dissociated retinas with 8-bromo cAMP also activates TH, which indicates the availability of sufficient cAMP-dependent protein kinase in the proper subcellular compartment to regulate the enzyme in situ. The DA-containing neurons of the rat retina are tonically inhibited in darkness, and evidence is presented that this tonic inhibition involves direct synaptic input to the DA neurons from gamma-aminobutyric acid-containing amacrine cells. The DA-containing neurons are also subject to feedback inhibition through DA receptors, and to modulation by alpha 2-adrenergic receptors.
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PMID:Regulation of retinal dopamine biosynthesis and tyrosine hydroxylase activity by light. 614 73

Changes in the level of dopaminergic activity in the rat striatum lead to the induction of a number of immediate-early genes, including c-fos and zif/268. These immediate-early genes are thought in turn to alter the rate of transcription of downstream genes. There is evidence that the dopaminergic activation of the c-fos and zif/268 genes in the striatum in vivo is linked to stimulation of D1-like dopamine receptors. We have used primary cultures of embryonic rat striatal neurons to identify the intracellular pathways involved in this response. Dopamine (10 nM-5 microM) caused a marked increase in the levels of c-fos mRNA and zif/268 mRNA in cultured striatal neurons, an effect that was reproduced by the D1-like dopamine receptor agonist SKF38393 (10 nM-5 microM). These actions were attenuated by the D1-like antagonist SCH23390 (1 microM) but not by the D2-like antagonist eticlopride (1 microM). The D2-like agonist quinpirole did not increase zif/268 mRNA above basal levels at concentrations up to 5 microM, but caused a slight increase in the levels of c-fos mRNA. The stimulation of c-fos mRNA levels caused by 1 microM SKF38393 was reduced by 45% following pretreatment with the selective protein kinase A inhibitor KT5720, and by 87% following pretreatment with the selective protein kinase C inhibitor calphostin C. The stimulation of zif/268 mRNA levels caused by 1 microM SKF38393 was reduced by 90% following pretreatment with KT5720, but was not significantly affected by pretreatment with calphostin C. In addition, the actions of SKF38393 to stimulate the expression of both immediate-early genes were attenuated by coadministration of quinpirole. These results suggest that SKF38393 acts on striatal neurons to stimulate c-fos expression predominantly through protein kinase C, but also partially through protein kinase A. Conversely, SKF38393 induces zif/268 expression through protein kinase A. The ability of quinpirole to antagonize the actions of SKF38393 on cultured neurons is consistent with the presence of both D1-like receptors on the same neuronal population.
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PMID:Induction of c-fos and zif/268 gene expression in rat striatal neurons, following stimulation of D1-like dopamine receptors, involves protein kinase A and protein kinase C. 747 39

Dopamine decreases tubular sodium reabsorption, attributed in part to Na-K-ATPase inhibition in the proximal convoluted tubule (PCT). Because the final regulation of sodium excretion occurs in the collecting duct, where specific dopamine DA1 binding sites have been demonstrated, we examined the effects of dopamine, as well as of DA1 and DA2 receptor agonists on Na-K-ATPase activity and on the number of units in Madin-Darby canine kidney (MDCK) cells, which retain differentiated properties of the renal cortical collecting tubule epithelium. Dopamine (10(-5) M) inhibited pump activity (by 50%) and reduced the number of units. This effect was reproduced by the DA1 agonist SKF 38393, which inhibited pump activity in a dose- and time-dependent manner (maximum, 10(-5) M). The DA2 agonist quinpirole hydrochloride was without effect, either alone or in combination with SKF 38393. Inhibition of pump activity by dopamine was totally abolished by H7 (100 microM), an inhibitor of protein kinase (PK), but partially by 2',5'-dideoxy-adenosine (DDA) and H4, respective inhibitors of cAMP production and PKA, which suggests that the dopamine effect on Na-K-ATPase activity may be linked to activation of both PKC and PKA. In these cells, amiloride addition during preincubation did not alter the effect of dopamine on Na-K-ATPase activity; in contrast, furosemide increased further the inhibitory effect of dopamine on the enzyme activity. Monensin addition (10(-3) M) reversed the inhibitory effect of dopamine after a 30-min preincubation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanisms of dopamine effects on Na-K-ATPase activity in Madin-Darby canine kidney (MDCK) epithelial cells. 754 25

Dopamine is a major neurotransmitter in neural systems innervating the striatum, and dopamine receptors are expressed during early pattern formation in the developing striatum. To test for the functional responsiveness of developing striatal neurons to dopaminergic stimulation, we established an organotypic slice culture of newborn rat striatum. We analyzed the effects of dopamine receptor agonists and of adenylate cyclase and protein kinase activation on striatal neurons by measuring the induction of Fos-like and Fra-like proteins in the cultured striatum. Fos-like and Fra-like proteins were induced in striatal neurons by activation of D1-like dopamine receptors but not by activation of D2-like receptors. The induction of Fos-like protein was mainly in striosomes and a medial compartment next to the ventricular zone, whereas Fra-like protein was induced in the striatal matrix as well. cAMP analogs and forskolin induced widespread expression of both Fos-like and Fra-like proteins. Our findings thus suggest that neurons of developing striosome and matrix compartments not only have different functional coupling of D1-like receptors to adenylate cyclase, but also have distinct maturational programs for dopaminergic regulation of individual transcription factors. Finally, despite evidence that protein kinase was involved in the induction of Fos-like protein, experiments with kinase inhibitors suggested that the induction of Fos-like protein had unusual pharmacological characteristics and raised the possibility that a novel protein kinase A-like molecule may have been involved in the induction. The cultured striatal slice preparation should provide a valuable tool for analyzing the molecular determinants of striatal development and function.
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PMID:Dopaminergic regulation of transcription factor expression in organotypic cultures of developing striatum. 789 Nov 73

We examined the effects of cyclic AMP on dopamine receptor-coupled activation of phosphoinositide hydrolysis in rat striatal slices. Forskolin, dibutyryl cyclic AMP, and the protein kinase A activator Sp-cyclic adenosine monophosphothioate (Sp-cAMPS) significantly inhibited inositol phosphate formation stimulated by the dopamine D1 receptor agonist SKF 38393. Conversely, the protein kinase A antagonist Rp-cyclic adenosine monophosphothioate (Rp-cAMPS) dose-dependently potentiated the SKF 38393 effect. In the presence of 200 microM Rp-cAMPS, the dose-response curves of the dopamine D1 receptor agonists SKF 38393 and fenoldopam were shifted to the left and maximal agonist responses were markedly increased. The agonist EC50 values, however, were not significantly altered by protein kinase A inhibition. Neither Sp-cAMPS nor Rp-cAMPS significantly affected basal inositol phosphate accumulation. These findings demonstrate that dopaminergic stimulation of phosphoinositide hydrolysis is inhibited by elevations in intracellular cyclic AMP. Dopamine receptor agonists that stimulate adenylyl cyclase could suppress their activation of phosphoinositide hydrolysis by concomitantly stimulating the formation of cyclic AMP in striatal tissue. The interaction between dopamine D1 receptor-stimulated elevations in cyclic AMP and dopaminergic stimulation of inositol phosphate formation suggests a cellular colocalization of these dopamine-coupled transduction pathways in at least some cells of the rat striatum.
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PMID:Inhibition of dopamine agonist-induced phosphoinositide hydrolysis by concomitant stimulation of cyclic AMP formation in brain slices. 791 10

The transmitter glutamate is thought to be used by all vertebrate photoreceptors to drive the second-order neurons of the retina, horizontal and bipolar neurons. Dopamine, an endogenous retinal neurotransmitter localized to amacrine and interplexiform cells, has previously been shown to enhance glutamate-gated currents in retinal horizontal cells. In the present study we demonstrate that bipolar cells, like horizontal cells, possess glutamate receptors that are modulated by dopamine. We then identify some components of the pathway through which dopamine acts. We used whole-cell patch recording to measure how bath-applied dopamine modulated the currents elicited by puffs of transmitter solutions at bipolar cell dendrites. Excitatory amino acid-gated currents were evoked by pressure ejecting 1 mM glutamate or 10 microM kainate for 40 msec through a micropipette positioned at the dendrites of bipolar cells. Bath-applied dopamine (20 microM) enhanced the response to glutamate in OFF bipolar cells in the retinal slice by 40% and in isolated OFF bipolar cells by 65%. We also explored the components of the intracellular pathway mediating this modulation. Response enhancement was blocked by the D1 receptor antagonist SCH23390, but not by the D2 receptor antagonist spiperone, suggesting that the enhancement by dopamine is mediated by a D1 receptor. GDP-beta-S, a G-protein inactivator, blocked the enhancing action of dopamine, suggesting that the D1 receptor activated a G-protein to enhance the glutamate-gated current. Both 8-(4-chlorophenylthio)adenosine, a cAMP analog, and the addition of the catalytic subunit of protein kinase A (PKA) to the recording pipette enhanced glutamate-gated currents, while H-7, a PK inactivator, and PKI20amide, a PKA-specific inhibitor, blocked the enhancing action of dopamine. These data suggest that dopamine acts at D1 receptors in the dendrites of bipolar cells to activate adenyl cyclase, which through cAMP enhances a glutamate-gated current in bipolar cell dendrites. Thus, dopamine may modulate synaptic transmission from photoreceptors to OFF bipolar cells.
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PMID:Dopamine enhances a glutamate-gated ionic current in OFF bipolar cells of the tiger salamander retina. 793 65

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