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

The kinetics of prostaglandin-regulated cyclic AMP formation by intact human platelets were studied in the presence and absence of phosphodiesterase inhibitors. In the case of iloprost, a chemically stable analogue of prostaglandin I2, the shape of the time course varied with prostaglandin concentration. In the presence of phosphodiesterase inhibitors, low concentrations of iloprost gave a linear rate of cyclic AMP formation. At higher concentrations of iloprost, the initial rate increased as a saturable function of prostaglandin concentration but the curves decayed with time to give new linear rates of cyclic AMP formation with a different prostaglandin concentration dependence from the initial rates. Time courses were simulated using KINSIM [Anal. Biochem. 130: 134-145 (1983)], a kinetic simulation program that employs numerical integration, over a wide range of iloprost concentration (3 nM to 30 microM) by use of a simple model involving rapid activation of adenylate cyclase, followed by slow reversible transition of adenylate cyclase to an inactive form (desensitization) through a distinct inhibitory receptor. The model requires that the affinity for prostaglandins of both the stimulatory and inhibitory receptors declines with prostaglandin concentration, which may be related to the existence of high and low affinity receptor forms depending on the activation state of the appropriate GTP-binding protein. The same two-receptor model can be used to describe cyclic AMP metabolism in the absence of phosphodiesterase inhibitors, giving rise to characteristic peak and plateau effects in the time courses. The putative inhibitory receptor has an apparent affinity for prostaglandin lower than the stimulatory receptor in the case of iloprost and a higher affinity than the stimulatory receptor in the case of prostaglandin E1. The contribution of phosphodiesterase activation to the time course of cyclic AMP formation through phosphorylation by cyclic AMP-dependent protein kinase was assessed. It was shown that phosphodiesterase activation must be rapid. A plausible and perhaps complete description of prostaglandin-regulated cyclic AMP metabolism in platelets is presented.
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PMID:Model of prostaglandin-regulated cyclic AMP metabolism in intact platelets: examination of time-dependent effects on adenylate cyclase and phosphodiesterase activities. 248 Dec 25

Platelet responses are inhibited by agents such as prostaglandin E1 that increase the cytoplasmic concentration of cyclic AMP. Inhibition is thought to result from phosphorylation of specific proteins. One protein that becomes phosphorylated is glycoprotein (GP) Ib beta, a component of the GP Ib.IX complex. We have suggested that phosphorylation of GP Ib beta inhibits the collagen-induced polymerization of actin. The aim of the present study was to identify the amino acid(s) in GP Ib beta that is phosphorylated. Purified GP Ib.IX complex was phosphorylated by the catalytic subunit of purified bovine cyclic AMP-dependent protein kinase in the presence of [gamma-32P]ATP. Phosphoamino acid analysis showed that in GP Ib beta, [32P]phosphate was incorporated only into serine and was in a single tryptic peptide. Amino acid sequencing showed that this peptide was from the cytoplasmic domain of GP Ib beta and encompassed residues 161-175. A single serine residue, serine 166, contained the radiolabel. To determine whether the same residue was phosphorylated in intact platelets, GP Ib beta was isolated from 32P-labeled platelets before or after their exposure to prostaglandin E1. In both cases, radiolabel was present in phosphoserine and was in a single tryptic peptide. This peptide was the same as that which was phosphorylated in the purified GP Ib.IX complex, as shown by its identical mobility on two-dimensional tryptic maps, the presence of a positively charged residue in the fourth position, and the presence of the radiolabel in the sixth position of the peptide. This study shows that when cyclic AMP concentrations rise in platelets, the cytoplasmic domain of GP Ib beta is phosphorylated on serine 166, probably by cyclic AMP-dependent protein kinase. We suggest that phosphorylation of this residue may contribute to the inhibitory actions of cyclic AMP by inhibiting collagen-induced polymerization of actin.
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PMID:Platelet glycoprotein Ib beta is phosphorylated on serine 166 by cyclic AMP-dependent protein kinase. 250 23

We have separated multiple small Mr GTP-binding proteins (G proteins) from bovine brain membranes by several column chromatographies and purified to near homogeneity four of them, including a novel Mr 24,000 G protein (smg p25A), a novel Mr 22,000 G protein (smg p21), the rho protein (rho p20), and the c-Ki-ras protein (c-Ki-ras p21). Among these small Mr G proteins, only smg p21 is phosphorylated stoichiometrically by cAMP-dependent protein kinase (protein kinase A), and c-Ki-ras p21 is phosphorylated to a small extent by protein kinase A in a cell-free system. None of smg p25A, rho p20, and other partially purified small Mr G proteins is phosphorylated by protein kinase A. Neither smg p21 nor other small Mr G proteins are phosphorylated by protein kinase C. About 1 mol of phosphate is maximally incorporated into 1 mol of smg p21 by protein kinase A. Only serine residue(s) are phosphorylated. The guanosine 5'-3-O-(thio) triphosphate (GTP gamma S)-bound and GDP-bound forms of smg p21 are phosphorylated with the same reaction velocity. The phosphorylation of smg p21 affects neither its GTP gamma S-binding nor GTPase activity. smg p21 is found in human platelets, and this human platelet smg p21 is also phosphorylated by protein kinase A at the same site(s) as bovine brain smg p21 in a cell-free system. When intact human platelets are stimulated by prostaglandin E1 known to elevate the cAMP level, four proteins with apparent Mr values of 240,000, 50,000, 24,000, and 22,000 are phosphorylated. These four proteins are also phosphorylated by the action of dibutyryl cAMP but not by the action of thrombin, Ca2+ ionophore A23187, or 12-O-tetradecanoylphorbol-13-acetate. Among the four proteins, the Mr 22,000 protein is identified as smg p21. The site(s) of phosphorylation of smg p21 by protein kinase A in a cell-free system are identical to that phosphorylated in response to prostaglandin E1 in intact platelets. These results indicate that among many small Mr G proteins, smg p21 is selectively phosphorylated by protein kinase A and that this G protein is also phosphorylated by this protein kinase in response to prostaglandin E1 in intact human platelets.
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PMID:Phosphorylation of smg p21, a ras p21-like GTP-binding protein, by cyclic AMP-dependent protein kinase in a cell-free system and in response to prostaglandin E1 in intact human platelets. 250 24

Here we show the activation of G-protein by inositol trisphosphate (IP3) or caffeine in sarcoplasmic reticulum (SR) of skeletal muscle and the consequent existence of a common mechanism of Ca2+ release from SR induced by caffeine and by IP3. (i) Indomethacin inhibits Ca2+ release induced by IP3 or caffeine. (ii) PGE1 does not induce Ca2+ release itself, but does stimulate Ca2+ release induced by IP3, or caffeine, from SR. (iii) Forskolin stimulates both types of Ca2+ release. The inhibitory effect of indomethacin on both forms of Ca2+ release, and the stimulatory effect of PGE1 and forskolin on either Ca2+ release suggest that there exists a common mechanism between IP3- and caffeine-induced Ca2+ release. (iv) Caffeine or IP3 activates G-protein via inhibition of a GTPase activity. (v) Indomethacin itself inactivates this G-protein by stimulation of a GTPase activity and reverses the activation of G-protein induced by IP3 or caffeine. (vi) PGE1 competes with the inhibitory effect of indomethacin on GTPase activity and PGE1 itself activates G-protein through inhibition of GTPase activity. From these results, it could be suggested that caffeine or IP3 induces Ca2+ release from the SR via activation of G-protein, which affects the Ca2+ channel and cAMP which seems to affect G-protein via A-kinase.
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PMID:A G-protein of sarcoplasmic reticulum of skeletal muscle is activated by caffeine or inositol trisphosphate. 253 55

We have examined the cell-free heterologous desensitization of adenylyl cyclase in plasma membrane preparations from S49 wild-type (WT) and kin- cells (which lack cAMP-dependent protein kinase) incubated with purified catalytic subunit of cAMP-dependent protein kinase (cA.PKc). cA.PKc caused a rapid (t1/2 = 40 s) decrease in the hormone responsiveness of adenylyl cyclase in the WT membrane preparations that mimicked the intact cell heterologous desensitization; that is, there was an increase in the Kact for both epinephrine and prostaglandin E1 (PGE1) stimulations of adenylyl cyclase induced at the receptor level because neither forskolin- nor NaF-stimulated activity was affected. The desensitization was independent of agonist occupancy of the receptor, and the effects were blocked both by the active fragment (amino acids 5-22) of the specific inhibitor of cA.PK and by p[NH]ppA. cA.PKc treatment of kin- membranes resulted in a heterologous desensitization that resembled the effects of WT adenylyl cyclase, with the exception that forskolin-stimulated activity was also reproducibly decreased by 24%. cA.PKc had no effect on WT membranes isolated from cells that had previously undergone maximal heterologous desensitization during treatment with 10 microM forskolin. In contrast, cA.PKc-induced heterologous desensitization of kin- membranes was additive with the epinephrine-induced homologous desensitization of intact cells. Cell-free desensitizations were reversed by incubation of membranes with cA.PKc and ADP, conditions that drive the kinase reaction backward. The similarities of our cell-free cA.PKc-mediated heterologous desensitization of adenylyl cyclase with the intact cell desensitization support our hypothesis that heterologous desensitization of the WT lymphoma cells is mediated by cA.PK via a mechanism independent of homologous desensitization.
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PMID:Cell-free heterologous desensitization of adenylyl cyclase in S49 lymphoma cell membranes mediated by cAMP-dependent protein kinase. 254 97

To identify the protein kinase that is responsible for catalyzing phosphorylation of actin-binding protein (ABP) in platelets, we have examined the effects of protein kinase C and cAMP-dependent protein kinase on this process. We found that purified platelet protein kinase C from platelets was unable to phosphorylate ABP in vitro. However, a crude platelet kinase preparation phosphorylated ABP in the presence of cAMP, but not in the presence of Ca2+/phosphatidylserine. Fresh platelet plasma membranes incubated with [gamma-32P]ATP phosphorylated ABP in the presence of cAMP and the process was blocked by a cAMP-dependent protein kinase inhibitor; ABP phosphorylation induced by prostaglandin E1 (PGE1) appeared to be reduced by the subsequent addition of thrombin. These results strongly suggest that in situ ABP is phosphorylated by activated cAMP-dependent protein kinase when platelet function is inhibited by PGE1. Furthermore, in the PGE1-treated platelets, ABP was proteolyzed at a slower rate than in control platelets when they were lysed with Triton in the absence of EGTA. Partially purified ABP was proteolyzed by calpain in vitro at a slower rate as well. It was demonstrated that ABP from PGE1-treated platelets recovered its sensitivity to calpain after ABP was incubated with a protein phosphatase that had been purified from platelets. We postulate that ABP is stabilized against proteolysis in response to cAMP-elevating agents and that this blocks cytoskeleton reorganization.
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PMID:In situ phosphorylation of platelet actin-binding protein by cAMP-dependent protein kinase stabilizes it against proteolysis by calpain. 254 93

Purified cardiac sarcolemmal membrane vesicles were used to determine if specific prostaglandin (PG) receptors are present on the myocyte. Two binding sites for PGE2 were identified in isolated bovine sarcolemmal membranes: a high-affinity site with a dissociation constant (Kd) of 0.32 nM and a maximum binding (Bmax) of 376 fmol/mg of protein and a lower-affinity site with a Kd of 3.41 nM and a Bmax of 2,112 fmol/mg of protein. In competition experiments, unlabeled PGE1 displaced [3H]PGE2 from its membrane receptor at concentrations similar to those of unlabeled PGE2. Both PGF2 alpha and PGD2 displaced [3H]PGE2 from the membrane, but only at high concentrations (greater than 10(-6) M and greater than 10(-5)M, respectively). Digestion of sarcolemmal membrane with trypsin resulted in a threefold decrease in specific [3H]PGE2 binding. Phosphorylation of the membrane with protein kinase A also decreased specific [3H]PGE2 binding. At concentrations of PGE2 that occupy the high-affinity site, sarcolemmal adenylate cyclase activity was inhibited in the presence of 5'-guanylylimidodiphosphate [Gpp(NH)p]. We conclude that the isolated cardiac sarcolemmal membrane contains a high-affinity binding site for PGE2 that is functionally coupled to adenylate cyclase. The binding site is stereospecific and probably recognizes the 9-keto,11-hydroxyl portion of the ring structure of these prostaglandins.
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PMID:Prostaglandin E receptors in cardiac sarcolemma. Identification and coupling to adenylate cyclase. 254 58

Retinoic acid dramatically increases the size of domes in confluent MDCK monolayers in a hormonally defined medium (medium K-1). After 4-5 days of retinoic acid treatment, enlarged domes began to appear in confluent MDCK monolayers. After 7 days with 3 x 10(-7) M retinoic acid, the majority of the domes in the monolayers were between 27 and 80 x 10(-3) microns 2 in area, whereas in control medium the majority of the domes were between 0 and 9 x 10(-3) microns 2 in area. The dependence of the retinoic acid effect on prostaglandin E1 (PGE1) was examined. In normal MDCK cells, the effects of retinoic acid on dome size were observed only in medium K-1 supplemented with PGE1. This observation indicated that retinoic acid did not elicit its effects simply by stimulating PGE production. In contrast, in monolayers of PGE1-independent MDCK cells, retinoic acid treatment resulted in an increase in dome frequency even in medium K-1 lacking PGE1. This observation can be explained by the elevated cyclic adenosine monophosphate (cAMP) levels in these PGE1-independent MDCK cells. Dibutyryl cAMP-resistant MDCK cells, which normally do not form domes in medium K-1, were also studied. Remarkably, the dibutyryl cAMP-resistant MDCK cells were observed to form domes at a significant frequency when medium K-1 was supplemented with retinoic acid. However in medium K-1 lacking PGE1, an effect of retinoic acid on dome formation by dibutyryl cAMP-resistant MDCK monolayers was not observed. The inability of dibutyryl cAMP-resistant MDCK cells to form domes in medium K-1 has previously been attributed to their decreased cAMP-dependent protein kinase activity. The stimulatory effects of retinoic acid on dome formation may possibly be due to an increase in the activity of a particular cAMP-dependent protein kinase or activation of a separate pathway.
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PMID:Retinoic acid modulates dome formation by MDCK cells in defined medium. 255 Apr 82

As with many other receptor-effector systems, the responsiveness of the beta-adrenergic receptor (beta AR)/adenylyl cyclase system undergoes desensitization upon agonist exposure. Phosphorylations of the receptor by the cAMP-dependent protein kinase (protein kinase A) and the beta AR kinase appear to play roles in such desensitization phenomena, but the functional significance of the receptor phosphorylation in intact cells has not been previously assessed. In this study, we constructed and expressed in a mammalian fibroblast line the normal (wild type) human beta 2 AR and mutant forms of the receptor that lack the putative phosphorylation sites for these two protein kinases. The two consensus sequences for phosphorylation by protein kinase A were altered by changing serines 261, 262 and 345, 346 to alanines. In another mutant, the 11 serines and threonines at the carboxy terminus of the protein that constitute the putative beta AR kinase phosphorylation sites were changed to alanines or glycines. The mutated receptors did not differ from the wild type in their affinities for agonists or antagonists or in their ability to mediate agonist stimulation of adenylyl cyclase. Moreover, their levels of expression in the cultured cells were the same. When stimulated with the beta AR agonist isoproterenol, cells bearing either the wild type or mutant receptors generated cAMP at essentially identical rates for the first 2 min. Cells bearing wild type receptors then showed a rapid desensitization characterized by a markedly diminished rate of cAMP production after the first few minutes of stimulation. However, cells bearing either of the mutated forms of the receptor showed much less desensitization and continued to generate cAMP at a rate 3-4 times greater than that observed in cells expressing the wild type receptor. In contrast, intact cell cAMP levels stimulated by prostaglandin E1 and forskolin were not different between cells bearing wild type or mutant beta AR. These results suggest an important physiological role for phosphorylation of the beta AR in regulating rapid agonist-induced desensitization in intact cells.
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PMID:Altered patterns of agonist-stimulated cAMP accumulation in cells expressing mutant beta 2-adrenergic receptors lacking phosphorylation sites. 255 15

The ruminant corpus luteum synthesizes and secretes oxytocin, but little is known of the regulation of these processes in the ovary. In the present work we describe a method for the preparation of cells from the early bovine corpus luteum (1-5 days postovulation) and their maintenance in serum-free culture. The release of oxytocin and progesterone from these cells was increased by the addition of insulin or insulin-like growth factor I (IGF-I), but not by IGF-II. Hormone release (measured between 60 and 84 h of culture) was increased approximately 5-fold (oxytocin) and 2.5-fold (progesterone) by maximally effective concentrations of IGF-I (EC50, 0.27 nM) and insulin (EC50, 1.94 nM). Sustained exposure (0-84 h) to prostaglandins (PGs) caused a dose-dependent reduction in oxytocin release in the presence of IGF-I (PGF2 alpha EC50, 31 nM; rank order of potency, PGF2 alpha greater than PGE2 greater than PGE1), but did not markedly reduce progesterone release. The inhibitory effect of PG on oxytocin production was mimicked by sustained exposure to a protein kinase-C activator (phorbol 12,13-dibutyrate), supporting the proposed role for this enzyme as a mediator of PG action. These data provide the first demonstration that oxytocin release from early bovine corpus luteal cell cultures can be regulated by insulin, IGF-I, and PGs. Since granulosa and/or luteal cells produce and respond to IGF-I and PGF2 alpha, our data indicate functional interaction of these compounds in the regulation of luteal cell activity.
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PMID:Oxytocin and progesterone release from bovine corpus luteal cells in culture: effects of insulin-like growth factor I, insulin, and prostaglandins. 264 14


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