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)

At least three mechanical changes characterize the response of cardiac muscle to agents that enhance cyclic AMP production. In common with other inotropic interventions, tension is augmented and the rate of tension rise is increased. The third response, acceleration of the rate of relaxation, is characteristic of the actions of beta-adrenergic agonists. These mechanical effects can be attributed to changes in (1) the amount of Ca2+ released during systole, (2) the rate of Ca2+ release at the onset of systole, and (3) the rate at which Ca2+ is reaccumulated by the sarcoplasmic reticulum at the end of systole. The ability of cyclic AMP-dependent protein kinases to phosphorylate the cardiac sarcoplasmic reticulum in vitro parallels stimulation of both Ca2+ transport and Ca2+-activated ATPase. The phosphoprotein formed in the presence of cyclic AMP and protein kinase has the chemical characteristics of a phosphoester, contains mostly phosphoserine, and has an electrophoretic mobility in SDS polyacrylamide gels that corresponds to a protein of 22,000 daltons. This 22,000-dalton protein, tentatively named phospholamban, thus differs from the acyl phosphooprotein formed by the Ca2+-transport ATPase, which as an apparent molecular weight of 90,000 to 100,000 daltons. Phospholamban has not been found in fast skeletal muscle, nor is Ca2+ transport accelerated by cyclic AMP and protein kinase in sarcoplasmic reticulum from these muslces which do not respond to beta-adrenergic agonists with accelerated relaxation. It thus appears likely that phosphorylation of phospholamban correlates both with an increased rate of Ca2+ transport by cardiac sarcoplasmic reticulum in vitro and accelerated relaxation in the intact myocardium. Preliminary findings are consistent with the view that phosphorylation of phospholamban may be related to other actions on Ca2+ fluxes brought about by agents which activate adenylate cyclase in the myocardium, but these interpretations must remain speculative pending more definitive studies.
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PMID:Control of calcium transport in the myocardium by the cyclic AMP-Protein kinase system. 16 80

Light absorbed by retinal photoreceptors triggers a cascade of reactions that initiate cGMP hydrolysis, cation channel closure and membrane hyperpolarization. Down-regulation of the cascade involves additional proteins that interfere with amplification along the cascade. Pinealocytes are activated by norepinephrine during the dark phase of the day/night cycle. Mature pinealocytes of the mammalian pineal express the known photoreceptor proteins that are implicated in down-regulation of the visual cascade, but the cascade components that produce cGMP hydrolysis and membrane hyperpolarization are absent. Pinealocytes accumulate cyclic AMP minimally when norepinephrine activates their beta adrenergic receptors alone, but the response is potentiated by the simultaneous activation of their alpha-1 adrenergic receptors. A model is proposed whereby phosducin, a phosphoprotein that binds the beta,gamma subunit of G-proteins, could modulate the synthesis of cyclic AMP by buffering the amount of beta,gamma G-protein subunits that are available for activating adenylate cyclase.
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PMID:Photoreceptors of the retina and pinealocytes of the pineal gland share common components of signal transduction. 153 28

ARPP-21 (cAMP-regulated phosphoprotein, Mr = 21,000 as determined by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate), a phosphoprotein substrate for cAMP-dependent protein kinase, is unevenly distributed in adult rat brain. Using immunoblotting and phosphorylation in vitro followed by immunoprecipitation, ARPP-21 was found to be enriched in caudate-putamen, substantia nigra, nucleus accumbens and olfactory tubercle. Intermediate levels were found in cerebral cortex and hippocampus. ARPP-21 was very low in most other brain areas and was not detected in any of the peripheral tissues studied. Following unilateral lesion of the caudate-putamen with quinolinic acid, a marked decrease in the levels of ARPP-21 was observed in both the lesioned caudate-putamen (-75%) and the ipsilateral substantia nigra (-70%) compared with the unlesioned side. This result demonstrates the enrichment of ARPP-21 in striatonigral neurons. In slices of caudate-putamen, substantia nigra or cerebral cortex incubated in vitro, the phosphorylation of ARPP-21 was enhanced by 8-Br-cAMP, a stable analog of cAMP. In striatal slices, forskolin, a compound which stimulates adenylate cyclase directly, enhanced the phosphorylation of ARPP-21 with an EC50 of 0.5 microM. In conclusion, ARPP-21 is a neuron-specific phosphoprotein enriched in specific brain areas which are known to receive a rich dopaminergic innervation and to contain high levels of D1 dopamine receptors. The phosphorylation of ARPP-21 is likely to mediate some of the intracellular effects of neurotransmitters which stimulate adenylate cyclase in these regions, in particular dopamine and vasoactive intestinal peptide.
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PMID:ARPP-21, a cAMP-regulated phosphoprotein enriched in dopamine-innervated brain regions: tissue distribution and regulation of phosphorylation in rat brain. 196 23

Newborn male Sprague-Dawley rats were treated neonatally with an intracisternal injection of 75 micrograms 6-hydroxydopamine (6-OHDA) following desipramine pretreatment in order to induce a permanent selective dopamine (DA) lesion. At 60-70 days of age a massive loss of tyrosine hydroxylase (TH) immunoreactive (IR) cells was seen in substantia nigra. The TH-IR terminal density was reduced by 92% in striatum, 77% in nucleus accumbens and by 72% in tuberculum olfactorium. Quantitative autoradiography using 3H-SCH-23390 and 3H-spiperone did not reveal any alteration of DA D1 and D2 receptor binding in the denervated regions studied. Furthermore, no change in the Bmax or Kd of 3H-SCH-23390 or 3H-spiperone in vitro binding was observed in membrane preparations of striatum following the neonatal DA lesion. Basal and DA-stimulated accumulation of cAMP was increased in striatal membrane preparations of the neonatally DA-lesioned rats. No alteration of the immunoreactivity of the D1 receptor associated phosphoprotein dopamine- and adenosine 3':5'-monophosphate-regulated phosphoprotein (DARPP-32), was observed as visualized using quantitative immunohistochemistry. Thus, neonatal DA lesions seem to induce a selective functional supersensitivity reflected by an enhanced activity of D1 receptor-coupled adenylate cyclase, without any alteration in the number of affinity of D1 and D2 receptor sites. Furthermore, the appearance of DARPP-32 seems to be independent of intact DA input during development.
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PMID:Neonatal dopamine lesion in the rat results in enhanced adenylate cyclase activity without altering dopamine receptor binding or dopamine- and adenosine 3':5'-monophosphate-regulated phosphoprotein (DARPP-32) immunoreactivity. 198 64

Addition of [gamma -32P]ATP to a 2% Brij-78 40,000g supernatant of sea urchin sperm results in the cAMP-dependent phosphorylation of eight to ten proteins. One phosphoprotein of Mr 190 kD is sperm adenylate cyclase (AC). An antiserum to the AC immunoprecipitates the Mr 190 kD protein. Peptide maps of immunoprecipitates show that the AC is the only phosphoprotein present in the Mr 200 kD range. With respect to the in vitro phosphorylation of AC, the endogenous kinase has a Km for ATP of 5.2 microM and is maximally stimulated by 4-8 microM cAMP. The protein kinase inhibitors H8 (9 microM) and PKI (30 U/ml) inhibit the phosphorylation of the AC. The catalytic subunit of bovine cAMP-dependent protein kinase phosphorylates the AC on the same peptides as the endogenous protein kinase. Cyanogen bromide generated peptide maps of the phosphorylated AC show a minimum of five sites of phosphorylation. No change in the Km or Vmax of the sperm AC resulted from the additional phosphorylation by bovine kinase. Calcium ions at submicromolar concentrations completely block the in vitro phosphorylation of the AC, suggesting the presence in the preparation of a Ca2(+) -activated protein phosphatase. To our knowledge, this is the first report of the phosphorylation of an AC by cAMP-dependent protein kinase.
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PMID:In vitro phosphorylation of sea urchin sperm adenylate cyclase by cyclic adenosine monophosphate-dependent protein kinase. 200 28

The results presented here demonstrate that an elevation in the cellular levels of cyclic AMP (cAMP) increases the phosphorylation of an Mr = 58,000 cellular protein in quiescent cultures of Swiss 3T3 cells. The enhancement of 32Pi incorporation into the Mr 58,000 cellular protein was detected as early as 1 min and reached a maximum after 20 min of treatment. The role of cAMP in the phosphorylation of Mr = 58,000 protein is substantiated by the following lines of evidence: a) a variety of agents that cause cAMP accumulation in 3T3 cells, including cholera toxin, 5'-N-ethylcarboxamideadenosine (NECA), PGE1, and 3-isobutyl-1-methyl-xanthine (IBMX) increased the phosphorylation of the same Mr 58,000 cellular protein as demonstrated by peptide mapping; b) inhibitors of cyclic nucleotide phosphodiesterase potentiated the ability of low concentrations of the adenylate cyclase activators NECA, PGE1, and forskolin to increase Mr 58,000 phosphorylation; and c) permeable derivatives of cAMP such as 8BrcAMP were also effective and specific in promoting Mr 58,000 phosphorylation. Detergent extraction, immunoblotting, and immunoprecipitation identified the Mr = 58,000 phosphoprotein as vimentin, the main protein subunit of the intermediate filaments of mesenchymal cells including Swiss 3T3 cells. Studies with intact 3T3 cells revealed that an increase in the intracellular level of cAMP induced a marked redistribution and collapse of the intermediate filaments. These results raise the possibility that an intact intermediate filament network may restrict the reinitiation of DNA synthesis.
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PMID:Cyclic AMP increasing agents rapidly stimulate vimentin phosphorylation in quiescent cultures of Swiss 3T3 cells. 246 73

We have shown recently that neuronal growth cones isolated from developing rat forebrain possess an appreciable activity of adenylate cyclase, which produces cyclic AMP and can be stimulated by various neurotransmitter receptor agonists and by forskolin. To investigate cyclic AMP-mediated biochemical mechanisms in isolated growth cones, we have centered the present study on cyclic AMP-dependent protein phosphorylation. One-dimensional gel electrophoretic analysis showed that cyclic AMP analogs increased incorporation of 32P into several phosphoproteins in molecular mass ranges of 50-58 and 76-82 kilodaltons, including those of 82, 76, and 51 kilodaltons. Two-dimensional electrophoresis, using isoelectric focusing in the first dimension, resolved phosphorylated alpha- and beta-tubulin species, actin, a very acidic protein (isoelectric point 4.0) with a molecular mass of 93 kilodaltons, and two proteins (x and x') closely neighboring beta-tubulin. Two other phosphoproteins seen in the gels had molecular masses of 56 and 51 kilodaltons (respective isoelectric points, 4.5 and 4.4) and, along with the 93-kilodalton phosphoprotein, were highly enriched in the isolated growth cones. Only the tubulin and actin species were major proteins in the isolated growth cones. Cyclic AMP analogs enhanced incorporation of 32P into phosphoproteins x and x', and, as assessed by immunoprecipitation, into beta-tubulin. Peptide digest experiments suggested that phosphoproteins x and x' are unrelated to beta-tubulin. Nonequilibrium two-dimensional electrophoresis resolved many phosphoproteins, of which a 79- and 75-kilodalton doublet, a 74-kilodalton species, and a 58-kilodalton doublet showed enhanced incorporation of 32P in the presence of cyclic AMP.
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PMID:Cyclic AMP-dependent protein phosphorylation in isolated neuronal growth cones from developing rat forebrain. 253 77

Striatal dopamine D1 transmission was studied in rats 7 days after transient (30 min) forebrain ischemia using the 4-vessel occlusion model. The striatal distribution of dopamine D1 ([3H]SCH 23390 binding sites) and D2 ([3H]sulpiride binding sites) receptors as well as the distribution of adenylate cyclase ( [3H]forskolin binding sites) and of the intracytoplasmic dopamine and cAMP-regulated phosphoprotein DARPP-32 related to D1 transmission were analyzed. While the distribution of D2 receptors was unaffected 7 days after the ischemic insult, all the other markers showed a patchy disappearance in the dorsolateral part of the neostriatum. These findings underline the existence of selective multiple deficits in D1 transmission after transient forebrain ischemia in rat striatum.
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PMID:Transient forebrain ischemia produces multiple deficits in dopamine D1 transmission in the lateral neostriatum of the rat. 255 63

The neurotransmitter serotonin (5HT) activates a specific K+ conductance in the identified Aplysia neuron R15. This response to 5HT has been shown previously to be mediated by cAMP and cAMP-dependent protein phosphorylation. We have measured protein phosphorylation within neuron R15 in vivo, following the intracellular injection of [gamma-32P]ATP, and have demonstrated that 5HT modulates the phosphorylation of a number of proteins in R15. The present study was undertaken to determine which of these phosphoproteins are closely associated with, and may be responsible for, the K+ conductance increase. Treatment of neuron R15 with a cAMP analog produces some but not all of the 5HT-induced phosphoprotein changes, indicating that some are not cAMP-dependent and thus can be dissociated from the cAMP-dependent K+ conductance increase. Similar results are obtained by intracellular injection of the adenylate cyclase inhibitor guanosine 5'-O-(2-thiodiphosphate), which completely blocks the 5HT-evoked K+ conductance increase but fails to block some of the 5HT-induced phosphorylation changes. Examination of the phosphoprotein pattern at short times after 5HT application has demonstrated that some of the phosphoprotein changes, but not others, are closely associated in time with the appearance of the physiological response. These and other pharmacological and kinetic experiments have allowed the identification of two phosphoproteins, of Mr = 29,000 and 70,000, which cannot be dissociated from the 5HT-induced K+ conductance increase whatever the experimental manipulation. Thus, one or both of these phosphoproteins may be involved in the regulation of the 5HT-sensitive K+ channel in neuron R15.
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PMID:Phosphoproteins associated with the regulation of a specific potassium channel in the identified Aplysia neuron R15. 257 74

Spontaneously beating heart myocytes were prepared from adult rat ventricular tissues to study the correlation between beta-adrenergic receptor-stimulated changes in contractile performance and protein phosphorylation in vitro. The plasma membrane of isolated myocardial cells was permeabilized by saponin in the presence of EGTA and Mg-ATP. The permeabilized myocytes, which formed a homogeneous cell population, retained the rod-cell morphology of heart cells in situ and showed spontaneous cyclic contractions. Their contractile activity in response to extracellularly added cAMP mimicked the effects caused by beta-adrenergic stimulation of the whole heart: both the frequency and longitudinal velocity of free contraction and relaxation of the cells increased. Similar increases were observed when beta-agonist, isoproterenol, and GTP were added to suspending medium. In addition, isoproterenol maximally enhanced the adenylate cyclase activity of the cells in the presence of GTP. Both of these effects of isoproterenol were completely blocked by the beta-antagonist propranolol. cAMP-mediated phosphorylation of proteins in the permeabilized myocytes was investigated under conditions in which the beating frequency increased. cAMP elevated the phosphorylation level of five proteins; three of them with apparent molecular masses of 24, 15, and 12 kDa were membrane proteins and the other two with apparent molecular masses of 150 and 28 kDa were myofibrillar proteins. The 24-kDa phosphoprotein dissociated into 12-kDa molecules when boiled in sodium dodecyl sulfate, suggesting that these proteins are oligomeric and monomeric forms of phospholamban. The phosphorylation of these five proteins was stimulated by isoproterenol. The effect of isoproterenol was enhanced by GTP but completely blocked by propranolol. The time course of their phosphorylation correlated well with that of the increase in the beating frequency of the cells; both were measured after the administration of isoproterenol and GTP. When propranolol was added after the start of the stimulation by isoproterenol, only phospholamban and the 15-kDa protein were rapidly dephosphorylated in close correlation with the decrease of the beating frequency. These results demonstrate for the first time that the permeabilized myocytes retain the functional beta-adrenergic receptor and cellular responses to beta-adrenergic stimulation. They also suggest that cAMP-mediated phosphorylation of proteins, possibly phospholamban and/or the 15-kDa protein, is involved in the increased contractile activity of permeabilized heart cells.
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PMID:Beta-adrenergic regulation of contractility and protein phosphorylation in spontaneously beating isolated rat myocardial cells. 282 81

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