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)

A single cyclic AMP-dependent protein kinase (EC 2.7.1.37) has been isolated from human platelets by using DEAE-cellulose ion-exchange chromatography and Sephadex G-150 gel filtration. The molecular weight of the protein kinase was estimated to be 86 490. In the presence of cyclic AMP, the protein kinase could be dissociated into a catalytic subunit of molecular weight 50 000, and either one regulatory subunit of molecular weight 110 000 or two regulatory subunits of molecular weights 110 000 and 38 100, depending on the pH used. Recombination of either of the regulatory subunits with the catalytic subunit restored cyclic AMP-dependency in the catalytic subunit. The apparent Km for ATP in the presence of 10 muM Mg2+ was 4 muM (plus cyclic AMP) and 4.3 muM (minus cyclic AMP). The concentration of cyclic AMP needed for half-maximal stimulation of the protein kinase was 0.172 muM and apparent dissociation constants of 3.7 nM (absence of MgATP) and 0.18 muM (presence of MgATP) were exhibited by the "protein kinase-cyclic AMP complex". The enzyme required Mg2+ for maximum activity and showed a pH optimum of 6.2 with histone as substrate. In addition to four major endogenous platelet protein acceptors of apparent molecular weights 45 000, 28000, 18 500, and 11 100, the platelet protein kinase also phosphorylated the exogenous acceptor proteins thrombin, collagen and histone, all capable of inducing platelet aggregation. Prothrombin, a nonaggregating agent, was not phosphorylated.
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PMID:Adenosine cyclic 3',5'-monophosphate-dependent protein kinase from human platelets. 17 39

An endogenous substrate for adenosine 3':5'-monophosphate-dependent protein kinase has been solubilized, and purified about 5,000-fold to apparent homogeneity, from a particulate fraction of bovine cerebral cortex enriched in synaptic membranes. This endogenous substrate, referred to as Protein I, is apparently specific to nervous tissue, and is composed of two types of polypeptides, present in a proportion of 1 (Protein Ia, 86,000 daltons) to 2 (Protein Ib, 80,000 daltons). In the presence of cAMP-dependent Protein I kinase purified from the same membrane fractions, Proteins Ia and Ib incorporated 0.83 and 0.81 mol of phosphate into serine/mol of peptide, respectively. Proteins Ia and Ib have similar amino acid compositions and have isoelectric points of 10.3 and 10.2, respectively. Both types of polypeptide have a relatively high content of glycine and proline, and both are degraded to a peptide of 48,000 daltons by highly purified collagenase, suggesting that Proteins Ia and Ib contain some sequences similar to those observed in collagen. The sedimentation coefficient of Protein Ia and Protein Ib was determined to be 2.9 S. The data suggest that both Protein Ia and Protein Ib have an elongated shape.
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PMID:Adenosine 3':5'-monophosphate-regulated phosphoprotein system of neuronal membranes. I. Solubilization, purification, and some properties of an endogenous phosphoprotein. 19 3

The present study was performed to characterize the direct involvement of cAMP-dependent protein kinase (PKA) in the regulation of collagen synthesis by parathyroid hormone (PTH) and PTH-related peptide (PTHrP) in osteoblastic osteosarcoma cells, UMR-106. Sp-cAMPS (10(-4)M), a direct activator of PKA, as well as dibutyryl cAMP (dbcAMP, 10(-4)M) significantly inhibited collagen synthesis. Human (h) PTH-(1-34) (10(-7)M) and hPTHrP (10(-7) M) inhibited collagen synthesis to the same degree. Although Rp-cAMPS, which acted directly as an antagonist in the activation of PKA, did not affect collagen synthesis by itself, it significantly antagonized dbcAMP- and Sp-cAMPS-induced inhibition of collagen synthesis. Moreover, Rp-cAMPS antagonized PTH- and PTHrP-induced inhibition of collagen synthesis to the same degree. The present study first indicated that the activation of PKA was directly linked to the regulation of collagen synthesis by PTH in osteoblast and that PTHrP had the same effect on collagen synthesis presumably through the same mechanism as PTH.
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PMID:The direct involvement of cAMP-dependent protein kinase in the regulation of collagen synthesis by parathyroid hormone (PTH) and PTH-related peptide in osteoblast-like osteosarcoma cells (UMR-106). 131 99

Protein kinase C (PKC) was implicated as an important positive regulator of angio-genesis by studies showing that tumor promoting phorbol esters, which activate PKC, stimulate angiogenesis both in vitro and in vivo. Therefore, inhibitors of PKC might be expected to block angiogenesis. MDL 27032 [4-propyl-5-(4-pyridinyl)-2(3H)-oxazolone], an inhibitor of cellular protein kinases, prevented capillary-like tube formation by human umbilical vein endothelial cells (HUVEC) on basement membrane preparations, an in vitro model for angiogenic activity. MDL 27032 had an IC50 = 50 microM, whereas MDL 27044, the 4-methyl analog of MDL 27032, was less effective (IC50 greater than 100 microM). This selectivity was reflected in the relative abilities of the two compounds to inhibit PKC and protein kinase A (PKA) activity prepared from HUVEC, and also to inhibit the basic fibroblast growth factor stimulated proliferation of HUVEC. MDL 27032 (0.3 microgram/egg) also significantly inhibited neovascularization in yolk sac membranes of developing chick embryos, whereas MDL 27044 added at concentrations up to 3 micrograms/egg was not inhibitory when compared with vehicle treated controls. Adhesion of HUVEC to individual extracellular matrix proteins, including laminin, fibronectin, and fibrinogen, but not to the mixture of matrix components or collagen type I and IV, was inhibited after treatment with MDL 27032. These studies suggest that MDL 27032, may have potential as an anti-angiogenic agent because it disrupts both formation of tube-like structures by HUVEC on Matrigel and normal neovascularization in ovo. This inhibition may in part be due to altered cellular interactions with the extracellular matrix.
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PMID:Inhibition of angiogenesis in vitro and in ovo with an inhibitor of cellular protein kinases, MDL 27032. 138 May 11

The formation of new blood capillaries (angiogenesis) occurs in response to angiogenic factors released by either normal or tumoral cells. In the present study, we cultured human umbilical vein endothelial cells (HUVEC) on collagen gels and aimed to clarify the effects of cyclic nucleotides on angiogenesis induced by endothelial cell growth factor (ECGF). HUVEC invaded the underlying collagen matrix and formed tube-like structures when ECGF was added. ECGF (9.4 to 75 micrograms/ml) induced angiogenesis in a concentration-dependent manner; the effect reached a plateau at 75 micrograms/ml. Cyclic AMP (10(-3) M), dibutyryl cyclic AMP (10(-3) M), 8-bromo cyclic AMP (10(-5) M) and Sp-cAMPS (10(-3) M), a stimulator of cyclic AMP-dependent protein kinase, each significantly inhibited ECGF-induced angiogenesis by 64.2, 86.1, 46.5, 74.7%, respectively. Forskolin and cholera toxin, which are activators of adenylate cyclase, did not inhibit ECGF-induced angiogenesis. Dibutyryl cyclic GMP (10(-4), 10(-3) M) also did not affect the formation of capillary-like tubes induced by ECGF. In conclusion, cyclic AMP, but not cyclic GMP, inhibits angiogenesis in vitro. This antiangiogenic activity may be applicable to the treatment of such conditions as solid tumors, diabetic retinopathy and rheumatoid arthritis in which the suppression of angiogenesis is important.
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PMID:Adenosine 3':5'-cyclic monophosphate inhibits in vitro angiogenesis induced by endothelial cell growth factor. 138 60

The Goodpasture antigen has been identified as the non-collagenous (NC1) domain of alpha 3(IV), a novel collagen IV chain (Saus, J., Wieslander, J., Langeveld, J., Quinones, S., and Hudson, B.G. (1988) J. Biol. Chem. 263, 13374-13380). In the present study, the exon/intron structure and sequence for 285 amino acids of human alpha 3(IV), comprising 53 amino acids of the triple-helical domain and the complete NC1 domain (232 amino acids), were determined. Based on the comparison of the amino acid sequences of the alpha 1(IV), alpha 2(IV), alpha 3(IV), and alpha 5(IV) NC1 domains, a phylogenetic tree was constructed which indicates that alpha 2(IV) was the first chain to evolve, followed by alpha 3(IV), and then by alpha 1(IV) and alpha 5(IV). The exon/intron structure of these domains is consistent with this evolution model. In addition, it appears that alpha 3(IV) changed most after diverging from the parental gene. Analysis of its primary structure reveals that, at the junction between the triple-helical and NC1 domains, there exists a previously unrecognized, highly hydrophilic region (GLKGKRGDSGSPATWTTR) which is unique to the human alpha 3(IV) chain, containing a cell adhesion motif (RGD) as an integral part of a sequence (KRGDSGSP) conforming to a number of protein kinase recognition sites. Based on primary structure data, we outline new aspects to be explored concerning the molecular basis of collagen IV function and Goodpasture syndrome.
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PMID:Exon/intron structure of the human alpha 3(IV) gene encompassing the Goodpasture antigen (alpha 3(IV)NC1). Identification of a potentially antigenic region at the triple helix/NC1 domain junction. 800 44

Extracellular matrix (ECM) glycoproteins such as laminin, fibronectin, or collagen IV play a major role in cell behavior regulation. The molecular mechanisms taking place at the interface between the ECM and the cell surface are now rather well defined; however, very little is known about intracellular signals induced by these interactions. In order to get insights into the transduction pathways involved in cell-ECM interactions we have investigated the effects of several intracellular kinase inhibitors. Calmodulin-dependent kinase inhibitors, W-7 and sphingosine, have negative effects on cell-matrix interactions. They inhibit adhesion of several cell lines to laminin (IC50 = 4-10 microM), fibronectin and collagen IV (IC50 = 7-25 microM). The effects are immediate, reversible, and also cell specific, certain combinations of cell line-substrate being irresponsive to these inhibitors. In contrast, two inhibitors, H-7 and staurosporine, for which protein kinase C is a common target, increase two- to fourfold the attachment of HT1080, OVCAR-4, and B16F10 cells to laminin but not to fibronectin. Another inhibitor, HA-1004, known to inhibit protein kinase A at low concentrations, has an activating effect only at high concentration (> 200 microM) when it becomes an inhibitor of protein kinase C. These inhibitors are without effect on RuGli and Saos-2 cell adhesion on the three substrates. Altogether these results suggest that calmodulin-dependent kinases and protein kinase C could be separately involved in ECM-induced cellular responses. However, the effects of kinase inhibitors are substrate-specific and cell type-specific, suggesting that the intracellular signals induced by the extracellular matrix vary with the nature of integrin involved in signal transmission.
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PMID:Cellular interactions with the extracellular matrix are coupled to diverse transmembrane signaling pathways. 145 1

The formation of membrane microparticles through vesiculation of the platelet plasma membrane is known to provide catalytic surface for several enzyme complexes of the coagulation system, and to underlie the procoagulant responses elicited with platelet activation. This induced shedding of vesicles from the plasma membrane is most prominent when platelets are activated by the terminal complement proteins, C5b-9, by a Ca2+ ionophore, or by the combination of thrombin plus collagen. Although shown to require elevated [Ca2+], the cellular events that initiate plasma membrane evagination and fusion to form the shed vesicles remain unresolved. To gain additional insight into the cellular events that regulate membrane microparticle formation, we have examined how this process is influenced by the activity of cellular protein kinases. Cytoplasmic [Ca2+] of gel-filtered platelets was increased by membrane assembly of the terminal complement proteins C5b-9 in the presence of selective inhibitors of protein kinase or phosphatase reactions, and resulting microparticle formation was quantitated by fluorescence-gated flow cytometry. Pre-equilibration of the phosphatase inhibitor vanadate into the platelet cytosol increased microparticle formation by as much as 40%, suggesting that vesiculation of the platelet plasma membrane is influenced by the state of phosphorylation of a cellular constituent. By contrast to the stimulatory effects of vanadate, microparticle formation was partially inhibited in platelets treated with the protein kinase inhibitor sphingosine, the myosin light chain kinase inhibitor ML-7, the calmodulin-antagonist W-7, and under conditions of elevated cytosolic concentration of cyclic adenosine monophosphate. These results indicate that complement-induced platelet microparticle formation is influenced by one or more protein kinase(s) as well as by calmodulin, and suggest a role for the platelet myosin light chain kinase or another Ca(2+)-pluscalmodulin-regulated membrane component.
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PMID:Participation of protein kinases in complement C5b-9-induced shedding of platelet plasma membrane vesicles. 165 68

Stimulation of platelets by collagen results in increased formation of the polyphosphoinositides, phosphatidylinositol phosphate (PtdInsP) and phosphatidylinositol bisphosphate (PtdInsP2) through stimulation of phosphoinositide kinase activities. We investigated a possible regulatory role of endogenous thromboxane formation and protein kinase C (PKC) activation in the induction of phosphoinositide phosphorylation following collagen stimulation, as well as following stimulation by the thromboxane mimetic, U-46619. Human platelets were prelabeled with [3H]inositol and stimulated with collagen (2 micrograms/mL) or U-46619 (1 microM), in the absence or presence of either the cyclo-oxygenase/lipoxygenase inhibitor, BW755C, or staurosporine, a putative inhibitor or PKC. Collagen stimulation resulted in a time-dependent increase in [3H]inositol-labeled PtdInsP and PtdInsP2 which was completely inhibited in the presence of BW755C. Addition of U-46619 to BW755C-treated, collagen-stimulated platelets restored the increased polyphosphoinositide formation. Stimulation of platelets with U-46619 alone also resulted in increased formation of [3H]PtdInsP and [3H]PtdInsP2, but this was not affected by the presence of BW755C. These results suggest that the collagen-induced activation of phosphoinositide kinases was dependent upon thromboxane formation, but that U-46619-induced phosphoinositide formation was rather independent of further thromboxane production. Pretreatment of platelets with staurosporine, prior to agonist addition, completely blocked the collagen-stimulated rise in radiolabeled PtdInsP and the U-46619-induced PtdInsP and PtdInsP2 generations, suggesting that protein kinase, possibly PKC, may play a role in the activation of phosphoinositide kinases by these agonists.
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PMID:BW755C or staurosporine inhibits collagen-stimulated phosphoinositide phosphorylation in platelets. 166 28

A major collagen-binding glycoprotein from rat L6 skeletal myoblasts, designated gp46, is phosphorylated in vivo. In this report the relative phosphorylation state of gp46 was examined using isoelectric focusing to identify the phosphorylated and unphosphorylated forms of gp46. Two major and one minor isoform of gp46 were identified that could be related to the phosphorylation state of gp46. The relative percentage of unphosphorylated to phosphorylated gp46 increased 10% in myoblasts heat-shocked at 42 degrees C for 24 h. Treatment of myoblasts with phorbol ester or dibutyryl-cAMP had no effect on the phosphorylation ratio of gp46. Transformation of L6 myoblasts with Rous sarcoma virus, likewise, had no effect on the phosphorylation ratio. However, ras-transformed L6 myoblasts showed a 12% increase in phosphorylation of gp46. These results indicate that gp46 does not undergo large changes in phosphorylation status. Pulse-chase labelling showed that the phosphorylation of gp46 occurred either co-translationally or soon after translation, suggesting that gp46 was phosphorylated by a constitutively active protein kinase.
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PMID:Analysis of the phosphorylation state of a collagen-binding heat-shock glycoprotein from L6 myoblasts by isoelectric focusing. 184 45

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