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)

To investigate a possible regulatory role of protein kinase C (PKC) on collagen-induced phospholipase activity, human platelets were prelabelled with either [3H] arachidonic acid or [14C]stearic acid and stimulated with collagen (2 micrograms/ml) in the presence or absence of the protein kinase inhibitor, staurosporine (1 microM). The collagen-induced release of [3H]arachidonic acid and formation of [14C]stearoyl-labelled lysophospholipids was inhibited by prior incubation with staurosporine, as was the formation of 3H-labelled thromboxane B2, thereby suggesting inhibition of the collagen-induced phospholipase A2 activity. The degradation of phosphatidylinositol (PI) and elevation of phosphatidic acid (PA) in platelets prelabelled with either radiotracer were also completely blocked by staurosporine pretreatment, indicating a suppression of collagen-stimulated phospholipase C activity. Suppressed phospholipase C activity may have been due to diminished thromboxane A2 formation since treatment with the dual cyclo-oxygenase/lipoxygenase inhibitor, BW755C, also resulted in an inhibition of the collagen-stimulated loss of 14C-labelled PI and rise in PA by 75-80%. Our results suggest that protein kinase, possible PKC, may be involved in the regulation of these phospholipases in collagen-stimulated human platelets.
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PMID:Inhibition of phosphatidic acid production and lysophospholipid formation in collagen-stimulated human platelets by staurosporine, a protein kinase inhibitor. 190 94

Cytokines are soluble informational polypeptides which modulate cellular functions by combining with specific membrane receptors in the originating cell (autocrine), a regional cell (paracrine) or a distant cell (endocrine). Cytokine-receptor complexes usually initiate signal transduction via protein kinase phosphorylation or G-protein dependent phospholinositol changes which further alter cell function. In the exuberant fibrosis of scleroderma, fibroblasts are activated to secrete several extracellular matrix molecules (collagens, fibronectin, proteoglycans) and they also fail to respond to the usual cell growth signals in vitro. We have studied the hypothesis that cytokines released through the T-cell dependent activation/injury of the vascular and microvascular endothelium initiate activation of the scleroderma fibroblast. Recalling that cell activation can occur either by removal of suppression or direct activation and that the locus of action can be transcriptional, translational or post-translational or a combination of these, our studies have focused on the cytokine transforming growth factor beta (TGF-beta) family of molecules, on the matrix gene expression abnormality of the scleroderma fibroblast and on the activation by TGF-beta of the platelet derived growth factor (PDGF) family of cytokines to explain the persistent cell growth abnormality. Our findings include: 1. Scleroderma fibroblasts are equally responsive to TGF-beta as are healthy fibroblasts with regard to collagen synthesis and they bind TGF-beta in all parameters similar to the binding to healthy fibroblasts. 2. TGF-beta is a stronger mitogenic signal to scleroderma fibroblasts than to control fibroblasts in the presence of serum.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytokines and human fibrosis. 196 52

Caldesmon is a calmodulin- and actin-binding protein present in both smooth and non-muscle tissue. The present study demonstrates that platelet caldesmon is a substrate for cAMP-dependent protein kinase (protein kinase A). Purified platelet caldesmon has an apparent molecular mass of 82 kDa on sodium dodecyl sulfate-polyacrylamide gels and can be phosphorylated in vitro by the catalytic subunit of protein kinase A to a level of 2 mol of phosphate/mol of caldesmon. Phosphorylation of caldesmon by protein kinase A results in a shift in the apparent molecular mass of the protein to 86 kDa. When caldesmon was immunoprecipitated from intact platelets treated with prostacyclin (PGI2) the same shift in apparent molecular mass of caldesmon was observed. Comparison of two-dimensional tryptic phosphopeptide maps of caldesmon phosphorylated in vitro by protein kinase A with caldesmon immunoprecipitated from intact platelets verified that protein kinase A was responsible for the observed increase in caldesmon phosphorylation in PGI2-treated platelets. The present study demonstrates that although caldesmon is basally phosphorylated in the intact platelet, activation of protein kinase A by PGI2 results in the significant incorporation of phosphate into two new sites. In addition, the effects of phorbol ester, collagen, and thrombin on caldesmon phosphorylation were also examined. Although phorbol ester treatment results in a significant increase in caldesmon phosphorylation apparently by protein kinase C, treatment of intact platelets with thrombin or collagen does not result in an increase in caldesmon phosphorylation.
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PMID:Caldesmon phosphorylation in intact human platelets by cAMP-dependent protein kinase and protein kinase C. 205 Jun 83

SQ-27986, a oxabicycloheptane derivative, potently inhibits ADP-, collagen- and arachidonic acid-induced platelet aggregation in human platelet-rich plasma. Human platelet aggregation induced by ADP is inhibited by SQ-27986 (EC50 = 22nM), and the inhibitory action of SQ-27986 can be prevented with N-0164, a PGD2 antagonist. By comparison, ADP-induced rat platelet aggregation is unaffected by SQ-27986 (IC50 greater than 80 microM). Washed human platelets treated with SQ-27986 exhibit elevated cAMP levels and activated cAMP-dependent protein kinase. Elevation of platelet cAMP levels (greater than 4 fold basal) and activation of the cAMP-dependent protein kinase (greater than 4 fold) are observed with SQ-27986 concentrations above 100 nM. The SQ-27986-induced elevation of cAMP can be prevented by N-0164. Lysed platelets treated with SQ-27986 showed stimulated adenylate cyclase activity. SQ-27986 competes with [3H]prostaglandin D2 binding to isolated platelet membranes (EC50 for SQ-27986 is 20 nM, which was more potent than cold PGD2 itself). Radiolabeled Iloprost binding is virtually unaffected by SQ-27986 (EC50 greater than 100 microM), indicating that SQ-27986 does not interact with platelet prostacyclin receptors. These studies indicate that SQ-27986 inhibits platelet aggregation by activating platelet adenylate cyclase via stimulation of platelet PGD2 receptors.
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PMID:SQ-27986 inhibition of platelet aggregation is mediated through activation of platelet prostaglandin D2 receptors. 217 Oct 39

Octimibate inhibited ADP- and collagen-induced platelet aggregation in human, rabbit and rat platelet-rich plasma. Washed human platelets treated with octimibate had elevated cyclic AMP (cAMP) levels and cAMP-dependent protein kinase activity. When whole platelets were incubated with radiolabeled phosphate, octimibate produced an increase in the phosphorylation of platelet proteins with relative molecular weights of 22, 26, 50 and 80 kilodaltons. This pattern of protein phosphorylation is identical to that observed when the platelets were treated with forskolin, phosphodiesterase inhibitors or other compounds that elevate platelet cAMP levels. Octimibate also inhibited the rise in intracellular Ca++ caused by thrombin, as measured using Fura-2-loaded platelets, which is consistent with octimibate's ability to elevate platelet cAMP levels. When isolated platelet plasma membranes were treated with octimibate, adenylate cyclase activity was stimulated, reaching maximal activation at 1 microM octimibate. (The maximal activation of adenylate cyclase observed with octimibate is 70-75% of that observed with 10 microM PGE1.) This stimulation of platelet adenylate cyclase activity was enhanced by GTP. Octimibate competed for radiolabeled prostaglandin E1 and lloprost binding to isolated platelet membranes at submicromolar concentrations, but did not compete with radiolabeled prostaglandin D2 binding. These studies suggest that octimibate inhibits platelet aggregation by activating platelet adenylate cyclase through stimulation of platelet prostacyclin receptors.
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PMID:Octimibate inhibition of platelet aggregation: stimulation of adenylate cyclase through prostacyclin receptor activation. 217 92

CaVPT, a target protein of Ca2(+)-vector from amphioxus muscle, was purified from its complex with CaVP after dissociation by 6 M urea and chromatographies on DEAE-cellulose and calmodulin-Sepharose. The amino acid sequence of CaVPT has been determined. The protein is composed of 243 residues and possesses an unblocked N terminus. Its molecular weight is 26,621, distinctly lower than the apparent molecular weight deduced from electrophoresis on sodium dodecyl sulfate-containing gels. CaVPT contains a potential Asn-linked glycosylation site, four potential protein kinase C phosphorylation sites, and two casein kinase II phosphorylation sites. From the sequence the following three particular domains can be inferred: a collagen-like N-terminal segment, rich in Pro and Ala, that resembles the N-terminal segment of skeletal muscle myosin light chain kinase; next to it (from residues 33 to 50) is located a strongly amphiphilic and basic alpha-helical segment which likely binds the calcium vector protein since a proteolytic cut after Arg50, occurring occasionally during the purification of CaVPT, impairs the binding to immobilized calmodulin. This segment is followed by two immunoglobulin folds. The two immunoglobulin folds typically belong to the C2 subclass and particularly resemble those present in the neural cell surface adhesion molecules NCAM, L1, F11, MAG, TAG-1, fasciclin II, and amalgam. Recently, the presence of immunoglobulin folds of this type has been reported in some intracellular muscular proteins, namely in smooth muscle myosin light chain kinase, striated muscle C protein and titin, as well as in the nematode 600-kDa protein twitchin. From this structural study we can formulate the working hypothesis that CaVPT acts on the structure of the thick filament in muscle or regulates, perhaps via other immunoglobulin fold-containing proteins.
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PMID:Primary structure of the target of calcium vector protein of amphioxus. 224 56

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

The sequence of events within the ovary during the process of ovulation discussed in this review is schematically represented in Fig. 1. It is obvious that LH, perhaps with some contribution from FSH, is the normal physiological trigger for the ovulatory sequence of events, and it appears from the available information that the effects of LH are mainly mediated via adenylate cyclase and increased cAMP levels. The cAMP in turn, via cAMP-dependent protein kinase, influences at least three distinct steps in the ovulatory process which seem to be of crucial importance, namely 1) the stimulation of steroidogenesis; 2) the stimulation of cyclooxygenase/lipooxygenase leading to increased prostaglandin/leukotriene synthesis; and 3) the stimulation of plasminogen activator which catalyzes the conversion of plasminogen to plasmin. A fourth crucial step in the ovulatory mechanism is the LH-induced increase in latent collagenase, but it remains to be determined if this step is mediated via cAMP. Concomitant with the increase in latent collagenase, there also appears to be an LH-dependent increase in collagenase inhibitors. The latent collagenase is then activated, and it appears that leukotrienes and prostaglandins, as well as plasmin, may be involved in this process. The active collagenase causes a digestion of the collagen in the follicle wall, and plasmin, as well as possibly other proteolytic enzymes such as proteoglycanases, may cause a further dissociation of the follicular wall. These processes of digestion of collagen and dissociation of the collagen fibers result in an opening in the follicular wall with the formation of the stigma and rupture. While the weakening of the follicular wall takes place throughout the entire wall, rupture remains for the most part a localized process at the apex of the follicle. This localization of the rupture may be explained on the basis of mechanical factors operating when the follicle wall thins and weakens. While it is clear that prostaglandins and leukotrienes can influence smooth muscle by causing contractions and that these compounds can cause vascular changes such as increased permeability, vasodilation, and vasoconstriction, it is not clear what the exact role of these latter processes are in ovulation. It appears that progesterone and not estrogen play an important role in the mechanism of LH-induced follicular rupture, but the locus of action of progesterone and its mechanism of action remains to be determined.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of mammalian ovulation. 255 97

Basic fibroblast growth factor (FGF) is synthesized as a phosphoprotein by both bovine capillary endothelial and human hepatoma cells in culture. Because basic FGF is characterized by its high affinity for heparin and its association in vivo with the extracellular matrix, we examined the possibility that the phosphorylation of this growth factor by purified protein kinase C (PK-C) and the catalytic subunit of cAMP-dependent protein kinase-A (PK-A) can be modulated by components of the extracellular matrix. Heparin and other glycosaminoglycans (GAGs) inhibit the ability of PK-C to phosphorylate basic FGF. In contrast, heparin can directly increase the phosphorylation of basic FGF by PK-A. While fibronectin, laminin, and collagen IV have no effect on the ability of PK-C to phosphorylate basic FGF, they all can inhibit the effects of PK-A. Thus, there is a differential effect of extracellular matrix-derived proteins and GAGs on the phosphorylation of basic FGF. The enhanced phosphorylation of basic FGF that is mediated by heparin is associated with a change in the kinetics of the reaction and the identity of the amino acid targeted by this enzyme. The amino acids that are targeted by PK-C and PK-A have been identified by phosphopeptide analyses as Ser64 and Thr112, respectively. In the presence of heparin, basic FGF is no longer phosphorylated by PK-A at the usual PK-A consensus site (Thr112), but instead is phosphorylated at the canonical PK-C site (Ser64). Accordingly, heparin inhibits the phosphorylation of basic FGF by PK-C presumably by masking the PK-C dependent consensus sequence surrounding Ser64. Thus, when basic FGF is no longer phosphorylated by PK-A in the receptor binding domain (Thr112), it loses the increased receptor binding ability that characterizes PK-A phosphorylated basic FGF. The results presented here demonstrate three novel features of basic FGF. First, they identify a functional effect of the binding of heparin to basic FGF. Second, they establish that the binding of heparin to basic FGF can induce structural changes that alter the substrate specificity of protein kinases. Third, and perhaps most important, the results demonstrate the existence of a novel interaction between basic FGF, fibronectin, and laminin. Although the physiological significance of this phosphorylation is not known, these results clearly suggest that the biological activities of basic FGF are regulated by a complex array of biochemical interactions with the proteins, proteoglycans, and glycosaminoglycans present in the extracellular milieu and the cytoplasm.
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PMID:Differential effects of heparin, fibronectin, and laminin on the phosphorylation of basic fibroblast growth factor by protein kinase C and the catalytic subunit of protein kinase A. 259 18

Translocation of Ca2+/phospholipid-dependent protein kinase (PKC) activity from cytosolic to membrane fractions was assessed in washed human platelet suspensions. Phorbol myristate acetate (PMA) induced a rapid loss of PKC activity from the cytosolic compartment in stirred platelets, which was not accompanied by measurable increases in membrane-associated activity, but was paralleled by a decrease in total cellular enzyme activity (cytosol plus membrane). When platelet aggregation was prevented by not stirring, (i) cytosolic activity was decreased by PMA, (ii) significant and maintained (1-15 min with PMA) increases in membrane-bound PKC were detected, and (iii) the decline in total enzyme activity was markedly slower. In stirred platelets, total and specific inhibition of PMA-induced aggregation by a fibrinogen-derived peptide (RGDS, i.e. Arg-Gly-Asp-Ser) promoted maximal increases in membrane-associated PKC in the presence of PMA and completely prevented the loss in cellular activity. Thrombin and collagen both induced a decrease in cytosolic PKC and a loss of total activity, but a significant rise in membrane activity was seen only with collagen; ADP had no detectable effect on enzyme distribution. These results demonstrate an agonist-induced redistribution of PKC and indicate that platelet aggregation may play an important role in the proteolysis, and hence persistence, of membrane-associated PKC. This observation has implications for the potency and duration of PKC-mediated responses induced by agonists and exogenous PKC activators.
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PMID:Receptor- and phorbol-ester-mediated redistribution of protein kinase C in human platelets. Evidence that aggregation promotes degradation of protein kinase C. 259 39


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