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)

The p21 GTPases, Rho and Cdc42, regulate numerous cellular functions by binding to members of a serine/threonine protein kinase subfamily. These functions include the remodeling of the cell cytoskeleton that is a feature of cell growth and differentiation. Two of these p21 GTPase-regulated kinases, the myotonic dystrophy protein kinase-related Cdc42-binding kinases (MRCKalpha and beta), have been recently characterized in rat. Both of these proteins phosphorylate nonmuscle myosin light chain, a prerequisite for the activation of actin-myosin contractility. Here we report the cDNA cloning of the human homologue of MRCKbeta, CDC42BPB, which was found by Northern blot analysis to be expressed in a wide range of tissues. The human CDC42BPB gene maps to cytogenetic band 14q32.3 by FISH analysis.
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PMID:Cloning and chromosomal localization of human Cdc42-binding protein kinase beta. 1019 71

A number of guanine nucleotide exchange factors have been identified that activate Rho family GTPases, by promoting the binding of GTP to these proteins. We have recently demonstrated that lysophosphatidic acid and several other agonists stimulate phosphorylation of the Rac1-specific exchange factor Tiam1 in Swiss 3T3 fibroblasts, and that protein kinase C is involved in Tiam1 phosphorylation (Fleming, I. N., Elliott, C. M., Collard, J. G., and Exton, J. H. (1997) J. Biol. Chem. 272, 33105-33110). We now show, through manipulation of intracellular [Ca2+] and the use of protein kinase inhibitors, that both protein kinase Calpha and Ca2+/calmodulin-dependent protein kinase II are involved in the phosphorylation of Tiam1 in vivo. Furthermore, we show that Ca2+/calmodulin-dependent protein kinase II phosphorylates Tiam1 in vitro, producing an electrophoretic retardation on SDS-polyacrylamide gel electrophoresis. Significantly, phosphorylation of Tiam1 by Ca2+/calmodulin-dependent protein kinase II, but not by protein kinase C, enhanced its nucleotide exchange activity toward Rac1, by approximately 2-fold. Furthermore, Tiam1 was preferentially dephosphorylated by protein phosphatase 1 in vitro, and treatment with this phosphatase abolished the Ca2+/calmodulin-dependent protein kinase II activation of Tiam1. These data demonstrate that protein kinase Calpha and Ca2+/calmodulin-dependent protein kinase II phosphorylate Tiam1 in vivo, and that the latter kinase plays a key role in regulating the activity of this exchange factor in vitro.
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PMID:Ca2+/calmodulin-dependent protein kinase II regulates Tiam1 by reversible protein phosphorylation. 1021 59

The PKN family of PKC-related protein kinases constitutes the major Rho GTPase-associated protein kinase activities detected in mammalian tissues. However, the biological functions of these kinases are unknown. We have identified a closely related PKN homolog in Drosophila (Pkn) that binds specifically to GTP-activated Rho1 and Rac1 GTPases through distinct binding sites on Pkn. The interaction of Pkn with either of these GTPases results in increased kinase activity, suggesting that Pkn is a shared Rho/Rac effector target. Characterization of a loss-of-function mutant of Drosophila Pkn revealed that this kinase is required specifically for the epidermal cell shape changes during the morphogenetic process of dorsal closure of the developing embryo. Moreover, Pkn, as well as the Rho1 GTPase, mediate a pathway for cell shape changes in dorsal closure that is independent of the previously reported Rac GTPase-mediated Jun amino (N)-terminal kinase (JNK) cascade that regulates gene expression required for dorsal closure. Thus, it appears that distinct but coordinated Rho- and Rac-mediated signaling pathways regulate the cell shape changes required for dorsal closure and that Pkn provides a GTPase effector function for cell shape changes in vivo, which acts together with a Rac-JNK transcriptional pathway in the morphogenesis of the Drosophila embryo.
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PMID:The Drosophila Pkn protein kinase is a Rho/Rac effector target required for dorsal closure during embryogenesis. 1032 67

We recently identified Xenopus Rho-associated protein kinase alpha (xROKalpha) as a Xenopus insulin receptor substrate-1 binding protein and demonstrated that the non-catalytic carboxyl terminus of xROKalpha binds Xenopus insulin receptor substrate-1 and blocks insulin-induced MAP kinase activation and germinal vesicle breakdown in Xenopus oocytes. In the current study we further examined the role of xROKalpha in insulin signal transduction in Xenopus oocytes. We demonstrate that injection of mRNA encoding the xROKalpha kinase domain or full length xROKalpha enhanced insulin-induced MAP kinase activation and germinal vesicle breakdown. In contrast, injection of a kinase-dead mutant of xROKalpha or pre-incubation of oocytes with an xROKalpha inhibitor significantly reduced insulin-induced MAP kinase activation. To further dissect the mechanism by which xROKalpha may participate in insulin signalling, we explored a potential function of xROKalpha in regulating cellular Ras function, since insulin-induced MAP kinase activation and germinal vesicle breakdown is known to be a Ras-dependent process. We demonstrate that whereas injection of mRNA encoding c-H-Ras alone induced xMAP kinase activation and GVBD in a very low percentage (about 10%) of injected oocytes, co-injection of mRNA encoding xROKalpha and c-H-Ras induced xMAP kinase activation and germinal vesicle breakdown in a significantly higher percentage (50-60%) of injected oocytes. These results suggest a novel function for xROKalpha in insulin signal transduction upstream of cellular Ras function.
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PMID:RHO-associated protein kinase alpha potentiates insulin-induced MAP kinase activation in Xenopus oocytes. 1036 47

It is now well-established that phospholipase D is transiently stimulated upon activation by G-protein-coupled and receptor tyrosine kinase cell surface receptors in mammalian cells. Over the last 5 years, a tremendous effort has gone to identify the major intracellular regulators of mammalian phospholipase D and to the cloning of two mammalian phospholipase D enzymes (phospholipase D1 and D2). In this chapter, we review the physiological function of mammalian phospholipase D1 that is synergistically stimulated by ADP ribosylation factor, Rho and protein kinase Calpha. We discuss the function of this enzyme in membrane traffic, emphasising the possible integrated relationships between consumption of vesicles in regulated exocytosis, membrane delivery and constitutive membrane traffic.
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PMID:Phospholipase D and membrane traffic. Potential roles in regulated exocytosis, membrane delivery and vesicle budding. 1042 98

The participation of the actin cytoskeleton in the control of PRL secretion by dopamine (DA) is not yet fully understood. Recently, we demonstrated that DA induces cortical actin assembly and stabilization in anterior pituitary PRL-secreting cells (lactotropes) that can be linked to DA-induced inhibition of PRL secretion. Here we show that DA prevents cell flattening and the formation of cytoplasmic actin cables in cultured rat lactotropes. The effects of DA were reversible, mediated by D2 receptors, exclusive to lactotropes, and independent of other anterior pituitary cells present in the cultures. Because cAMP and Ca2+ mediate DA-induced inhibition of PRL secretion and synthesis, we investigated whether morphological responses to DA were dependent on these second messengers. Either inhibition of protein kinase A activity with the specific inhibitor KT5720 or blockade of Ca2+ channels with nifedipine inhibited cell flattening and induced cytoplasmic actin filament breakdown. Nifedipine was as effective as DA, but KT5720 was less effective than DA. Increased intracellular cAMP levels provoked cell flattening, which was blocked by nifedipine and KT5720, but not by DA. The results suggest that Ca2+-dependent pathways control cell shape in most lactotropes; however, in a subpopulation of lactotropes, cAMP-dependent pathways may also contribute to DA morphological responses. Next, we studied the participation of the Rho family of guanosine triphosphatases, which is known to regulate the dynamics of actin filaments. Inactivation of Rho by C3 exoenzyme induced cytoplasmic actin cable disassembly and lactotrope rounding up. No additive effects were observed among Rho-, cAMP-, and Ca2+-dependent pathways. However, C3-induced morphological responses were blocked by increased cAMP levels, suggesting that Rho-dependent steps are upstream cAMP-dependent steps. DA-induced actin cytoskeleton reorganization in lactotropes may involve modifications in the expression and localization of actin-binding proteins. DA increased expression of the actin anchoring proteins talin and alpha-actinin, but not of vinculin. DA enhanced association of talin to cell membranes. Increased talin-membrane interaction may be implicated in DA-induced maintenance of a round phenotype in lactotrope cells.
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PMID:Intracellular mechanisms involved in dopamine-induced actin cytoskeleton organization and maintenance of a round phenotype in cultured rat lactotrope cells. 1043 2

It is well known that inhibition of myosin phosphatase induces smooth muscle contraction in the absence of Ca2+. We characterized the kinase(s) which plays a role in Ca2+-independent, microcystin-LR-induced contraction in permeabilized smooth muscle of the rabbit portal vein. Assessments of various protein kinase inhibitors revealed this kinase(s) (1) was sensitive to staurosporine (1 microM), but resistant to other agents including wortmannin (10 microM), Y-27632 ((R)-(+)-trans-N-(4-pyridyl)-4-(1-aminoethyl)-cyclohexanecarboxamide+ ++, 100 microM). HA1077 (1-(5-isoquinolinylsulfonyl)-homopiperazine, 100 microM), H-7 (1-(5-isoquinolinylsulfonyl)-2-methylpiperazine, 100 microM), and calphostin C (100 microM), and (2) induced phosphorylation of 20 kDa myosin light chain at serine-19. We concluded that other kinases exist which phosphorylate myosin light chain at serine-19 and induce Ca2+-independent smooth muscle contraction, distinct from Rho-associated kinase, myosin light chain kinase, and protein kinase C.
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PMID:Regulation of Ca2+-independent smooth muscle contraction by alternative staurosporine-sensitive kinase. 1044 93

During the course of generating derivatives of N-(6-aminohexyl)-5-chloro-1-naphthalene-sulfonamide, a synthetic calmodulin inhibitor, we came across several analogues with shorter alkyl chains that exhibited inhibition of serine/threonine protein kinase activities in an ATP-competitive manner. Certain derivatives proved to be selective inhibitors of protein kinases useful for elucidation of relevant functions of the enzymes. One of them turned out to be a unique vasodilator that preferentially suppresses delayed cerebral vasospasm, a critical complication of subarachnoid hemorrhage, without significant changes in systemic blood pressure. The compound in question, 1-(5-isoquinolinesulfonyl)-homopiperazine, was identified from sequential development of protein kinase inhibitors with isoquinolinesulfonyl structures, which occupy the adenine pocket of the ATP-binding site of the enzyme. It recently has been proposed that the target kinase responsible for vasodilation by 1-(5-isoquinolinesulfonyl)-homopiperazine may be Rho-kinase, which regulates phosphorylation of myosin light chains and vasocontraction. Because protein phosphorylation plays important roles in regulation of various cellular functions, the foregoing is a good example of current progress in the development of protein kinase inhibitors with potential clinical applications.
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PMID:H-series protein kinase inhibitors and potential clinical applications. 1045 91

PKN is a fatty acid- and Rho GTPase-activated protein kinase whose catalytic domain in the carboxyl terminus is homologous to those of protein kinase C (PKC) family members. The amino terminal region of PKN is suggested to function as a regulatory domain, since tryptic cleavage or the binding of Rho GTPase to this region results in protein kinase activation of PKN. The structural basis for the regulation of PKN was investigated by analyzing the activity of a series of deletion/site-directed mutants expressed in insect cells. The amino-terminally truncated form of PKN (residue 455-942) showed low basal activity similar to that of the wild-type enzyme, and was arachidonic acid-dependent. However, further deletion (residue 511-942) resulted in a marked increase in the basal activity and a decrease in the arachidonic acid dependency. A (His)(6)-tagged protein comprising residues 455-511 of PKN (designated His-Ialpha) inhibited the kinase activity of the catalytic fragment of PKN in a concentration-dependent manner in competition with substrate (K(i) = 0.6+/-0.2 microM). His-Ialpha also inhibited the activity of the catalytic fragment of PRK2, an isoform of PKN, but had no inhibitory effect on protein kinase A or protein kinase Cdelta. The IC(50) value obtained in the presence of 40 microM arachidonic acid was two orders of magnitude greater than that in the absence of the modifier. These results indicate that this protein fragment functions as a specific inhibitor of PKN and PRK2, and that arachidonic acid relieves the catalytic activity of wild-type PKN from autoinhibition by residues 455-511 of PKN. Autophosphorylation of wild-type PKN increased the protein kinase activity, however, substitution of Thr64, Ser374, or Thr531 in the regulatory region of PKN with alanine, abolished this effect. Substitution of Thr774 in the activation loop of the catalytic domain of PKN with alanine completely abolished the protein kinase activity. These results suggest that these phosphorylation sites are also important in the regulation of the PKN kinase activity. Potential differences in the mechanism of activation between the catalytic regions of PKN and PRK2 are also discussed.
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PMID:Mutational analysis of the regulatory mechanism of PKN: the regulatory region of PKN contains an arachidonic acid-sensitive autoinhibitory domain. 1046 62

The proportions of aneuploid/polyploid versus euploid cells formed after treatment with spindle poisons like nocodazole are of course dependent on the relative survival of cells with numerical chromosome aberrations. This work aimed at studying the survival of polyploid cells formed after treatment with a nocodazole concentration sufficient to significantly decrease tubulin polymerization (0.1 microg/ml). First, normal primary lymphocytes were analysed and the following complementary chromosomal parameters were quantified: mitotic index, frequency of abnormal mitoses, polyploid metaphases and apoptotic cells. The results clearly indicate a positive correlation between abnormal mitotic figures, apoptosis and the induction of polyploidy. They therefore led to a single cell approach in which both apoptosis and polyploidy induction could be scored in the same cell. For this purpose, actively proliferating cells are required and two human leukaemic cell lines were used, KS (p53-positive) and K562 (p53-negative), which have a near-triploid karyotype. Cells were separated into an apoptotic and a viable fraction by means of annexin-V staining and flow cytometry. In KS, treatment with nocodazole induced a similar fraction of hexaploid cells in both the viable and apoptotic fraction, but no dodecaploid cells were ever observed. In contrast, a population of dodecaploid cells (essentially viable) was clearly observed in the K562 cell line. The results in KS, as compared with K562, confirm that wild-type p53 can prevent further cycling of polyploid cells by blocking rereplication. The most probable explanation for these data is that not only the mitotic spindle but also interphase microtubules are sensitive to nocodazole treatment. Our data thus strongly suggest that besides the G(1)/S checkpoint under the control of p53, the G(2)/M transition may be sensitive to depolymerization of microtubules, possibly under the control of Cdc2, Bcl-2, Raf-1 and/or Rho.
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PMID:Induction of polyploidy and apoptosis after exposure to high concentrations of the spindle poison nocodazole. 1047 56

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