EC:3.1.3.16 - FACTA Search

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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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 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

Stimulatory effects of Ca2+-CaM and PKI on partially purified hypothalamic HD (10 fold purification) have been shown under conditions involving inhibition of the enzyme by cAMP-induced phosphorylation and under control conditions. A 1:1 (v/v) mixture of 0.1 mM CaCl2 and 10 units of CaM from human red blood cells reversed the inhibition of HD induced by cAMP-dependent protein phosphorylation activity to the control level. Verapamil (0.01 mM) could partially block the former effect without affecting the control level of enzyme activity. 0.01 mM TPA did not further increase the effect of Ca2+-CaM on HD, in the presence of 0.01 mM ATP, indicating that this stimulation does not require the action of Ca2+-dependent protein kinase. The control level of HD is not influenced by 0.1 mM CaCl2 or 0.02 mM EGTA but is raised by CaM in the presence of CaCl2 (0.1 mM). A highly purified protein kinase (cAMP-dependent) inhibitor (PKI) from bovine heart and a crude inhibitor from rat cerebellum could also reverse the inhibitory effect of cAMP-dependent protein kinase under phosphorylating conditions and enhanced HD activity above control levels. PKI and Ca2+-CaM, added together, produced single, not additive effects. We conclude that cAMP-induced phosphorylation is probable the main regulatory mechanism of histamine formation and this could be influenced by both Ca2+-CaM and PKI. Inhibition of cAMP-dependent protein kinase as well as stimulation of phosphoprotein phosphatase and Ca2+-CaM-dependent phosphodiesterase might be involved in the above actions.
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PMID:Stimulation of hypothalamic histidine decarboxylase by calcium-calmodulin and protein kinase (cAMP-dependent) inhibitor. 360 3

Microinjection of cAMP-dependent protein kinase inhibitor (1.8 microM) increases the cAMP level of Xenopus oocyte. Its effect was observed in full-grown (stage VI) as well as in vitellogenic (stage IV) oocytes. In contrast the inhibitor I1 of protein phosphatase-1 blocks cAMP accumulation. Progesterone (1 microM) decreases the cAMP level in control and in PKI-treated oocytes of both stages. These results show that cAMP concentration is regulated by a cAMP-dependent phosphorylation indicating the presence of a feedback mechanism. The feedback control is disrupted when oocyte is induced to mature by progesterone.
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PMID:cAMP-dependent protein kinase regulates in ovo cAMP level of the Xenopus oocyte: evidence for an intracellular feedback mechanism. 630 83

Regulation of L-type Ca2+ channel current [ICa(L)] by cGMP-dependent protein kinase (PK-G) was investigated in ventricular myocytes from 2- to 21-day-old rats using whole-cell voltage clamp with internal perfusion. ICa(L) was elicited by a depolarizing pulse to +10 mV from a holding potential of -40 mV. Stimulated ICa(L) (by 2 mumol/L isoproterenol) was inhibited to the basal level by internal perfusion with 50 nmol/L PK-G (activated by 8Br-cGMP, 0.1 mumol/L). When ICa(L) was enhanced by Bay K8644 (1 mumol/L), the enhanced basal ICa(L) was also reduced by PK-G. Basal ICa(L) (nonstimulated through the cAMP/cAMP-dependent protein kinase [PK-A] pathway) was also inhibited to various degrees (large, medium, or small) by internal application of PK-G (25 nmol/L). The average inhibition was 42.1% (n = 36), and there were no differences in the inhibition during development. The inhibition by PK-G was blocked by the PK-G substrate peptide (cG-PKI, 300 mumol/L) and by heat inactivation of the PK-G. Relatively specific PK-G inhibitors (eg, cG-PKI and H-8) sometimes reversed the inhibition (5 of 25 cells), whereas isoproterenol stimulated ICa(L) (7 of 8 cells). When a holding potential of -80 mV was used, the inhibition produced by PK-G was much less. The inhibitory effects of PK-G were not mediated by activating phosphodiesterase or protein phosphatase but most likely by a direct phosphorylation of the Ca2+ channel or associated regulatory protein. The inhibitory effect of PK-G may be explained by a balance between activities of PK-A and PK-G in regulating the slow Ca2+ channels at two separate sites.
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PMID:cGMP-dependent protein kinase regulation of the L-type Ca2+ current in rat ventricular myocytes. 755 27

We previously reported that insulin stimulation of human platelets induces serine phosphorylation and activation of the cGMP-inhibited cAMP phosphodiesterase (cGI-PDE). Here, we describe methods to detect and partially purify an insulin-stimulated cGI-PDE kinase (cGI-PDE ISK) from lysates of platelets incubated with insulin. Incubation of human platelets with 10(-8) M insulin increased cGI-PDE ISK activity two-fold. The DEAE-Sephacel-purified cGI-PDE ISK phosphorylated the cGI-PDE on serine in a time- and concentration-dependent manner resulting in an increased incorporation of about 0.2 mol of [32P]/mol of cGI-PDE and 15-20% increase in cGI-PDE activity. The phosphorylation of cGI-PDE was not affected by 10 microM PKI, 1 microgram/ml of heparin, 3 mM CaCl2 or 1 mM MnCl2. cGI-PDE ISK did not adsorb to antiphosphotyrosine antibodies. To maintain its activation it was necessary to add protein phosphatase inhibitors to the lysate-buffers. All of these findings are consistent with the conclusion that a serine/threonine phosphorylation of the cGI-PDE ISK is involved in its activation by insulin.
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PMID:Stimulation by insulin of a serine kinase in human platelets that phosphorylates and activates the cGMP-inhibited cAMP phosphodiesterase. 768 45

1. Application of the phosphatase inhibitors okadaic acid (OA) and microcystin (MC) to frog cardiomyocytes caused large increases in L-type calcium current (ICa) in the absence of beta-adrenergic agonists. The increase occurred without effects on the peak current-voltage relation or voltage-dependent inactivation. OA and MC caused a decrease in amplitude of delayed rectifier current (IK), which is opposite to the increase produced by cAMP-dependent phosphorylation. The decrease occurred without effects on voltage-dependent activation or reversal potential. 2. Analysis of the dose-response relations for OA and MC on ventricular cell ICa were best fitted with a single-site relationship with a K1/2 of 1.58 microM and 0.81 microM, respectively. These data suggest the predominant form of phosphatase active on ICa in this cell type is produced by protein phosphatase 1. Inhibition of phosphatase 2B (calcineurin) was without appreciable effect. 3. Reducing intracellular ATP levels was without effect on basal ICa suggesting that calcium channels may not need to be phosphorylated to open. ATP depletion was able to block completely the ICa increase induced by OA or MC. This demonstrates that the effects of OA and MC on ICa are mediated by a phosphorylation reaction. In contrast, ATP depletion totally abolished IK, suggesting either a requirement for ATP or phosphorylation for basal function of the delayed rectifier channel. 4. Internal perfusion of a peptide inhibitor (PKI(5-22)) of protein kinase A (PK-A) was without effect on basal current levels of ICa or IK, suggesting that this kinase is not phosphorylating these channels under basal conditions. Furthermore, although PKI is capable of completely blocking the response of ICa to isoprenaline or forskolin, PKI does not affect the increase in ICa induced by MC or OA. Inhibition of adenylate cyclase with acetylcholine or inhibition of PK-A with adenosine cyclic 3',5'-(Rp)-phosphothioate (Rp-cAMPS) also had no effect on the response to OA or MC. 5. Application of beta-adrenergic agonist, forskolin or cAMP all produced additional increases in the presence of saturating doses of MC or OA. This supports the hypothesis that PK-A is not mediating the OA response and that phosphatase inhibition does not result in complete phosphorylation of PK-A sites. 6. To attempt to identify the protein kinase activity responsible for OA effects on ICa and IK, several types of protein kinase inhibitors were internally perfused.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Opposite effects of phosphatase inhibitors on L-type calcium and delayed rectifier currents in frog cardiac myocytes. 814 46

CDC2 kinase activity was decreased by up to 75% when mitotic cell free extracts from mouse fibroblasts were incubated with cAMP and ATP. This effect was blocked by PKI, the heat stable inhibitor of cAMP-dependent protein kinase (PKA). An acidic, heat stable protein from G1 cells, consistent with inhibitor-1 of protein phosphatase 1, mimicked the effect of cAMP, but was not antagonized by PKI. Okadaic acid, another inhibitor of protein phosphatase 1, also downregulated CD2 activity, and the effect was independent of both cAMP and PKI. The evidence suggests that PKA exerts its effect by activating inhibitor-1 by phosphorylation, and that the next step in the regulatory pathway requires the inactivation of one or more protein phosphatase 1 isoenzymes. Non-denaturing gel electrophoresis suggested that the size and/or charge density of the CDC2 kinase complex was changed when the activity was downregulated by cAMP or G1 extracts.
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PMID:Mitotic CDC2 kinase is negatively regulated by cAMP-dependent protein kinase in mouse fibroblast cell free extracts. 838 4

Electrophysiological responses induced by human (h) growth hormone-releasing hormone (GHRH) were analyzed using the perforated whole cell clamp technique in human growth hormone (GH)-secreting adenoma cells. Application of hGHRH depolarized the membrane by increasing Na+ conductance. The reversal potential of the hGHRH-induced current was -20 to 0 mV. The channel was permeable to Na+, Li+ and K+ but not to TMA+. These properties were compatible with those of nonselective cation channels. Similar nonselective cation current was activated by 8-bromoadenosine 3',5'-cyclic monophosphate and forskolin, and the activation of the hGHRH-induced current was inhibited by protein kinase A (PKA) inhibitors, (R)-p-adenosine 3',5'-cyclic monophosphate and N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinoleinsulfonamide, and PKA inhibitor peptide PKI-(5-24), indicating that hGHRH-induced current was activated by PKA. Cholera toxin pretreatment eliminated the hGHRH-induced current, suggesting that Gs is involved in the activation of this current. This current became irreversible when the cells were pretreated with okadaic acid, suggesting that the recovery of the hGHRH-induced current was mediated by a serine/threonine protein phosphatase. GHRH-induced GH secretion was inhibited in Na+-free medium, suggesting the importance of the nonselective cation current on hGHRH-induced GH secretion. In human GH-secreting nonadenoma cells, hGHRH increased Na+ conductance, as was the case in GH-secreting adenoma cells.
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PMID:GHRH activates a nonselective cation current in human GH-secreting adenoma cells. 876 91

Physiological studies have demonstrated that flagellar radial spokes regulate inner arm dynein activity in Chlamydomonas and that an axonemal cAMP-dependent kinase inhibits dynein activity in radial spoke defective axonemes. These studies also suggested that an axonemal protein phosphatase is required for activation of flagellar dynein. We tested whether inhibitors of protein phosphatases would prevent activation of dynein by the kinase inhibitor PKI in Chlamydomonas axonemes lacking radial spokes. As predicted, preincubation of spoke defective axonemes (pf14 and pf17) with ATP gamma S maintained the slow dynein-driven microtubule sliding characteristic of paralyzed axonemes lacking spokes, and blocked activation of dynein-driven microtubule sliding by subsequent addition of PKI. Preincubation of spoke defective axonemes with the phosphatase inhibitors okadaic acid, microcystin-LR or inhibitor-2 also potently blocked PKI-induced activation of microtubule sliding velocity: the non-inhibitory okadaic acid analog, 1-norokadaone, did not. ATP gamma S or the phosphatase inhibitors blocked activation of dynein in a double mutant lacking the radial spokes and the outer dynein arms (pf14pf28). We concluded that the axoneme contains a type-1 phosphatase required for activation of inner arm dynein. We postulated that the radial spokes regulate dynein through the activity of the type-1 protein phosphatase. To test this, we performed in vitro reconstitution experiments using inner arm dynein from the double mutant pf14pf28 and dynein-depleted axonemes containing wild-type radial spokes (pf28). As described previously, microtubule sliding velocity was increased from approximately 2 microns/second to approximately 7 microns/second when inner arm dynein from pf14pf28 axonemes ws reconstituted with axonemes containing wild-type spokes. In contrast, pretreatment of inner arm dynein from pf14pf28 axonemes with ATP gamma S, or reconstitution in the presence of microcystin-LR, blocked increased velocity following reconstitution, despite the presence of wild-type radial spokes. We conclude that the radial spokes, through the activity of an axonemal type-1 phosphatase, activate inner arm dynein by dephosphorylation of a critical dynein component. Wild-type radial spokes also operate to inhibit the axonemal cAMP-dependent kinase, which would otherwise inhibit axonemal dynein and motility.
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PMID:Regulation of flagellar dynein by an axonemal type-1 phosphatase in Chlamydomonas. 883 12

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