EC:2.7.11.1 - FACTA Search

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 sequence of ovarian events during the process of ovulation discussed in this review is schematically represented in Figure 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 LH's effects are mainly mediated via adenylate cyclase and increased cAMP. 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. Plasmin as well as possibly other proteolytic enzymes such as proteoglycanases (Too et al., 1984) 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 (Rodbard, 1984). 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, vasodilatation 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. 265 83

We examined the extranuclear effects of thyroid hormones on human platelets. Pretreatment with DL-thyroxine or DL-triiodothyronine inhibited collagen-induced aggregation, in a dose-dependent manner, but other derivatives of thyroid hormone had no significant effects. In contrast to collagen, 12-O-tetradecanoylphorbol-13-acetate-induced aggregation was not affected by thyroid hormones at the same concentration range. Thyroxine also inhibited the release of [14C] serotonin from collagen-stimulated platelets, with a marked reduction in the phosphorylation of 20,000-dalton protein. Thyroxine and triiodothyronine had inhibitory effects on myosin light chain kinase purified from human platelets and inhibited more markedly the myosin light chain kinase than protein kinase C (Ca2+/phospholipid-dependent enzyme) and cAMP-dependent protein kinase. In addition, L-thyroxine behaved as a competitive inhibitor of myosin light chain kinase toward calmodulin, and the Ki value was calculated to be 2.6 microM. To determine whether or not thyroxine directly binds myosin light chain kinase, we prepared an affinity column, using L-thyroxine as the ligand. Myosin light chain kinase was selectively bound to the column while calmodulin passed through. We also designed a procedure for the purification of myosin light chain kinase from human platelets, using L-thyroxine-affinity chromatography. A markedly increased purification was thus achieved, and DEAE-cellulose and L-thyroxine-affinity chromatography were made feasible. These results suggest that thyroxine can serve as a pharmacological tool for elucidating the biological significance of myosin light chain kinase-mediated reactions and is a pertinent ligand which can be used to purify myosin light chain kinase from platelets as a substitute for calmodulin.
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PMID:Thyroid hormones inhibit platelet function and myosin light chain kinase. 272 89

Phosphorylation of the outer surface of human platelets increases their functional responsiveness to subthreshold amounts of collagen. Collagen-stimulated platelet aggregation, release of ATP and changes in cytoplasmic ionized calcium levels were all enhanced by pretreatment with ATP plus a kinase purified from human plasma. [3H]-myo-inositol-labeled human platelets were used to investigate the possible role of phosphoinositide metabolism in mediating this enhanced responsiveness. Formation of inositol mono-, bis-, and trisphosphate in response to collagen was more pronounced in phosphorylated platelets than in control platelets. Collagen-stimulated inositol phosphate production in both control and phosphorylated platelets was completely inhibited by the addition of 20 microM indomethacin. Of a range of agents that stimulated phosphoinositide hydrolysis, only the response to collagen was enhanced by phosphorylation. The plasma protein kinase was shown to catalyse phosphorylation of the collagen receptor. These data indicate that the enhanced phosphoinositide hydrolysis resulting from phosphorylation of the collagen receptor might be linked to the increased functional responses to collagen.
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PMID:Phosphorylation of the outer surface of platelets enhances the effects of collagen on aggregation, ATP release, calcium translocation and phosphoinositide hydrolysis. 284 86

The diterpene, forskolin, induced a partial deaggregation of ADP- or collagen-aggregated human platelets in vitro. An increase in platelet cyclic AMP by forskolin was assumed to mediate the platelet deaggregation. PGE1 also deaggregated these platelets, and a combination of forskolin and PGE1 produced deaggregation greater than the maximum which could be obtained with each agent alone. A greater than additive effect was observed on the platelet cyclic AMP level in the presence of both forskolin and PGE1. No additive effect was observed in the phosphorylation of molecular weight (Mr) 21K polypeptide using forskolin (0.1 mmol/l) and PGE1 (5 mumol/l) suggesting that although cyclic AMP is responsible for the deaggregation process a mechanism other than phosphorylation through cyclic AMP-dependent protein kinase may be responsible for the effect of forskolin on platelet deaggregation.
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PMID:Effect of forskolin on platelet deaggregation and cyclic AMP generation. 299 15

Nuclear matrix was isolated from cultured human fibroblasts by extraction of nuclei with 2 M NaCl. Electron microscopic observation on the isolated nuclear matrix revealed a fine network structure. The matrix fraction contained approximately 15% of total nuclear DNA and the matrix DNA was about 3- to 4-fold enriched in transcriptionally active collagen I (alpha 2) gene sequences, whereas transcriptionally inactive beta-globin gene sequences were not enriched. The nuclear matrix contained two major proteins of 65,000 and 45,000 daltons (pI 5.9 and 5.6, respectively). The DNA-binding activity of these nuclear matrix proteins was examined by Western blotting or by nitrocellulose filter-binding assay using cloned specific gene probes. The results suggest that there is no base sequence specificity in the binding, and that protein species of 60,000 to 200,000 daltons showed DNA-binding activity. These results indicate that association of transcribing genes with the nuclear matrix may reflect the functional state of the genes and may not be determined solely by the base sequence specificity of DNA binding. The nuclear matrix protein of 65,000 daltons was phosphorylated in vivo, and was the main substrate for protein kinase(s) associated with the nuclear matrix.
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PMID:Characterization of nuclear matrix from cultured normal human fibroblasts. 371 Oct 68

Interstitial cells of heart atrioventricular and sigmoid valves were examined in several laboratory animals (rabbit, hamster, rat, and mouse) and in humans. These cells constitute a large fraction of the total cell population of the valve; in mouse atrioventricular valves, they amount to approximately 30% of the volumetric density. By their ultrastructural features and functional properties, valvular interstitial cells are intermediate between fibroblasts and vascular smooth muscle cells. Like fibroblasts, valvular interstitial cells lack a basal lamina establishing direct and extensive contacts with collagen fibers, elastin microfibrils, and proteoglycans of the matrix. The cells have numerous slender and long processes, connected to one another, forming a complex cellular framework spanning the entire valve. Similar to smooth muscle cells, valvular interstitial cells are extensively coupled by communicating junctions as shown by thin sections, freeze-fracture, lanthanum staining, and carboxyfluorescein microinjection. The cells contain numerous bundles of actin filaments, which are decorated by the S1 fragment of heavy meromyosin. Valvular interstitial cells also express cyclic guanosine-monophosphate-dependent protein kinase, as detected by immunofluorescence and immunoperoxidase histochemistry. Motor nerve endings are located closely apposed to valvular interstitial cells: structurally most of them appear to be of the adrenergic type. Valvular interstitial cells contract on epinephrine or angiotensin II stimulation as shown both in culture and in situ (valvular strips). Taken together these observations suggest that VIC may have contractile properties, which can account for a controlled tonus, actively correlated with the cyclically changing forces acting on valves during diastole and systole.
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PMID:Interstitial cells of the heart valves possess characteristics similar to smooth muscle cells. 376 49

O5-Phosphohydroxylysine was chemically synthesized and techniques were established for its identification by combined use of cation-exchange chromatography, thin-layer electrophoresis at pH 1.9 and 3.5, and thin-layer chromatography. Clean separation of phosphohydroxylysine from the other phospho amino acids, phosphoethanolamine, and phosphocholine was achieved. Conditions were also determined to permit hydrolysis of proteins in 2 M HCl without loss of the phosphono group of phosphohydroxylysine residues. Experiments were then performed showing that 32P was incorporated into the hydroxylysine residues of cell-associated collagens when cultured calf aorta medial smooth muscle cells were incubated with [32P]orthophosphate. In other experiments, the cells incorporated [3H]lysine into hydroxylysine residues of cell-associated collagen and then 32P into phosphohydroxylysine residues. The doubly labeled phosphohydroxylysine subsequently isolated showed nearly 1:1 stoichiometry with respect to incorporation of precursor lysine and phosphorus. Finally, in preliminary experiments done with a cell-free extract of the smooth muscle cells, 32P was transferred from [gamma-32P]ATP to hydroxylysine residues in several kinds of collagenous substrates. Thus, this work shows that smooth muscle cells have the capacity to phosphorylate hydroxylysine residues in their cell-associated collagens and provides preliminary evidence that a protein kinase is involved.
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PMID:Phosphorylation of hydroxylysine residues in collagen synthesized by cultured aortic smooth muscle cells. 385 6

Both the triple-helical and denatured forms of nonfibrillar bovine dermal type I collagen were tested as substrates for the catalytic subunit of cAMP-dependent protein kinase in an in vitro reaction. Native, triple-helical collagen was not phosphorylated, but collagen that had been thermally denatured into individual alpha chains was a substrate for the protein kinase. Catalytic subunit of cAMP-dependent protein kinase phosphorylated denatured collagen to between 3 to 4 mol of phosphate/mol of (alpha 1(I)2 alpha 2(I). Pepsin-solubilized and intact collagens were phosphorylated similarly, as long as each was in a nonhelical conformation. The first 2 mol of phosphate incorporated into type I collagen by the protein kinase were present in the alpha 2(I) chain. The alpha 1(I) chain was only phosphorylated during long incubations in which the stoichiometry exceeded 2 mol of phosphate/mol of (alpha 1(I)2 alpha 2(I). Phosphoserine was the only phosphoamino acid identified in collagen that had been phosphorylated to any degree by the protein kinase. The 2 mol of phosphate incorporated into the alpha 2(I) chain were localized to the alpha 2(I)CB4 cyanogen bromide fragment. The catalytic subunit of cAMP-dependent protein kinase phosphorylated denatured pepsin-solubilized collagen with a Km of 8 microM and a Vmax of approximately 0.1 mumol/min/mg of enzyme. Denatured, but not triple-helical, type I collagen was also phosphorylated by cGMP-dependent protein kinase, although it was a poorer substrate for this enzyme than for the cAMP-dependent protein kinase. Collagen was not a substrate for phospholipid-sensitive Ca2+-dependent protein kinase. These results suggest the potential for nascent alpha chains of type I collagen to be susceptible to phosphorylation by cAMP-dependent protein kinase in vivo prior to triple-helix formation. Such a phosphorylation of collagen could be relevant to the action of cAMP to increase the intracellular degradation of newly synthesized collagen.
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PMID:In vitro phosphorylation of type I collagen by cyclic AMP-dependent protein kinase. 395 36

Cytoplasmic free calcium ([Ca2+]i) and secretion of ATP were measured in quin2-loaded human platelets. In certain conditions thrombin and collagen cause secretion while [Ca2+]i remains at basal concentrations, a response attributed to activation of protein kinase by diacylglycerol formed by hydrolysis of inositol lipids. This secretion evoked by thrombin could be totally suppressed by prostaglandin I2 or forskolin, as expected from the known ability of cyclic AMP to inhibit phospholipase C. The secretory response evoked by collagen at basal [Ca2+]i and that evoked by exogenous diacylglycerol or phorbol ester, direct activators of protein kinase-C, were much less affected by these inhibitors, suggesting that thrombin and collagen may promote formation of diacylglycerol by different mechanisms.
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PMID:Effects of prostaglandin I2 and forskolin on the secretion from platelets evoked at basal concentrations of cytoplasmic free calcium by thrombin, collagen, phorbol ester and exogenous diacylglycerol. 609 24

Chicken embryo fibroblasts infected with a strain of Rous sarcoma virus containing a temperature-sensitive mutation in the gene coding for pp60src, a protein kinase, undergo changes in collagen synthesis within 4 h after a temperature shift. Cells shifted from the restrictive to the permissive temperature for transformation show decreasing levels of collagen synthesis and increasing levels of kinase activity; the reverse occurs when infected cells are shifted from the permissive to the restrictive temperature. Levels of type I procollagen mRNAs coding for pro alpha 1 and pro alpha 2 chains, measured by hybridization to nick-translated cloned alpha 1 and alpha 2 cDNA, decreased simultaneously soon after a reduction in temperature and reached a new steady state at about 50 h after the shift. In order to test for regulation at the transcriptional level, nuclei were isolated from normal and Rous sarcoma virus-transformed chicken embryo fibroblasts and allowed to transcribe in the presence of [alpha-32P]UTP. Procollagen mRNA sequences in newly synthesized and in total RNA from transformed cell preparations were both about 5-fold lower than the levels in normal cell preparations. We conclude that the coordinate decrease in procollagen mRNAs observed in Rous sarcoma virus-transformed chicken embryo fibroblasts is caused primarily by a decrease in the transcription of the type I procollagen genes, a decrease which is directly or indirectly mediated by the pp60src protein kinase.
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PMID:Coordinate transcriptional regulation of type I procollagen genes by Rous sarcoma virus. 616 78

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