Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The murine pim-1 gene, isolated as a locus frequently activated by proviral integration in T cell lymphomas, encodes a protein serine kinase. Although genetic evidence suggests a crucial role for this protooncogene in cell growth and transformation, very little is known about its protein product. The murine pim-1 mRNA provides alternate translational starts at a CUG codon +87-89 and an AUG codon at +339-341, in the same open reading frame (ORF), resulting in 44-kDa (397 amino acids) and 34-kDa (313 amino acids) isoforms. In this report, we demonstrate that the human PIM-1 mRNA is translated only from the single initiation methionine codon at +339-341 under cell-free conditions. Immunoblotting analyses of several human solid tumor cell lines, with highly specific antisera reveal two ubiquitously expressed isoforms (35 and 34 kDa). The estimated half-life of these proteins is shorter in the normal peripheral blood leukocytes (<5 min) than in the chronic myelogenous leukemia cells K562 (<20 min). Immunoblotting analyses of centrifugally elutriated fractions of the chronic myelogenous leukemia BV173 cells demonstrate that the levels of PIM-1 increase during the progression from early to late GI, remain high at the G1/S boundary and G2 phases of the cell cycle. The results presented here suggest a ubiquitous role for PIM-1 in progression through cell cycle.
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PMID:Ubiquitous expression and cell cycle regulation of the protein kinase PIM-1. 866 Jun 54

The intracellular signalling systems involved in the chronic insulin-antagonistic, anti-lipogenic effects and also the lipolytic effect of GH have been investigated in sheep adipose tissue in an in vitro tissue culture system. During culture, chronic exposure to GH decreased the rate of lipogenesis and prevented the increase in lipogenesis induced by insulin. GH also increased glycerol release into the culture medium. GH had no acute, insulin-like effect on lipogenesis in sheep adipose tissue. Pretreatment with phorbol ester to down-regulate isoforms of protein kinase C or addition of the protein serine kinase inhibitor staurosporine decreased the anti-lipogenic effect of GH while the protein serine kinase inhibitor H7 eliminated it completely. Pretreatment with phorbol ester or addition of H7 also decreased the insulin-antagonistic effect of GH on lipogenesis. Addition of the protein serine phosphatase inhibitor okadaic acid or the phosphatidyl choline phospholipase C inhibitor D609 both diminished the anti-lipogenic and insulin-antagonistic effects of GH. Chronic exposure of adipose tissue to GH had no effect on the total activity of acetyl CoA carboxylase or its activation status but it did diminish the increase in activation status induced by insulin. H7 and okadaic acid also diminished the increase in activation status of acetyl CoA carboxylase induced by insulin but did not alter the effect of GH on this variable. Okadaic acid decreased total acetyl CoA carboxylase activity. Pretreatment with phorbol ester or the addition of H7, staurosporine or okadaic acid increased glycerol release into the culture medium to the same extent as GH itself; the effects of GH and these various agents were not additive. These studies suggest that the anti-lipogenic, insulin-antagonistic effects of GH involve both protein serine kinases and phosphatases, possibly including one or more isoforms of protein kinase C, and a phosphatidyl choline-specific phospholipase C. Comparison with studies by others on the GH enhancement of preadipocyte differentiation and prolactin stimulation of lipogenesis in mammary tissue suggests involvement of protein kinase C at an early stage in all three systems. In contrast, effects of okadaic acid vary with the system, suggesting the involvement of protein serine phosphatase activity in a late stage of the action of GH. The effects of GH on lipogenesis and lipolysis do not occur via identical mechanisms.
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PMID:GH inhibition of lipogenesis and stimulation of lipolysis in sheep adipose tissue: involvement of protein serine phosphorylation and dephosphorylation and phospholipase C. 870 54

Gangliosides, added exogenously at concentrations of 10-100 microM, inhibit intrinsic protein kinase activities in purified rat brain myelin. Multivalent neoganglioproteins--gangliosides covalently attached, via their lipid moieties, to bovine serum albumin--were much more potent, inhibiting myelin protein phosphorylation half-maximally at a concentration of 100 nM. Different ganglioside conjugates varied 10-fold in inhibitory potency; GT1b-conjugates being the most potent and GM3-conjugates being the least. Conjugates of ganglioside oligosaccharides, lacking the lipid moiety, did not inhibit myelin protein phosphorylation, whereas conjugates of sphingosine inhibited nearly as potently as GT1b conjugates. Conjugate-mediated inhibition of myelin protein phosphorylation was due to inhibition of a protein serine kinase activity rather than activation of a phosphatase activity. We conclude that (i) clustered gangliosides or sphingosine are potent myelin protein kinase inhibitors, and (ii) sphingolipid metabolism is not required for myelin protein kinase inhibition. In contrast to their effects on myelin protein phosphorylation, ganglioside conjugates stimulated phosphorylation of a presumptive axon membrane protein. The data support the conclusion that gangliosides and other sphingolipids, when appropriately clustered, are potent modulators of central nervous system protein phosphorylation.
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PMID:Multivalent ganglioside and sphingosine conjugates modulate myelin protein kinases. 929 42

The CD28 cytoplasmic tail contains several potential phosphorylation sites for the serine/threonine kinase protein kinase C (PKC) and/or proline-directed serine/threonine kinases, such as extracellular signal-regulated kinases. We demonstrate that ligation of CD28 by B7.1 results in strong serine/threonine phosphorylation of CD28. It is unlikely that ligation-stimulated phosphorylation of CD28 is mediated via activation of PKC, since it was not prevented by pre-treatment of Jurkat cells with inhibitors of PKC, and it was not mimicked by treatment with PKC activators such as PMA. Nevertheless, despite for lack of detectable effects of PMA treatment on CD28 phosphorylation, PMA did partially inhibit the association of CD28 with the putative signalling molecule phosphatidylinositol 3-kinase (PI 3-kinase) and the subsequent accumulation of PtdIns(3,4,5)P3. PI 3-kinase exhibits dual specificity as both a lipid kinase and a protein serine kinase, and site-specific mutagenesis of the Tyr173 residue in the CD28 cytoplasmic tail, which abolishes CD28 coupling to PI 3-kinase [Pages, Ragueneau, Rottapel, Truneh, Nunes, Imbert and Olive (1994) Nature (London) 369, 327-329], also prevents ligation-stimulated phosphorylation of CD28. However, the two PI 3-kinase inhibitors wortmannin and LY294002 had no effect on phosphorylation of CD28 after ligation by B7.1. This study therefore demonstrates that (1) a CD28-activated serine/threonine kinase distinct from both PKC and PI 3-kinase mediates ligation-stimulated CD28 phosphorylation, and (2) the PMA-stimulated down-regulation of the coupling of CD28 to PI 3-kinase is not due to PMA-stimulated phosphorylation of CD28.
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PMID:Evidence that a kinase distinct from protein kinase C and phosphatidylinositol 3-kinase mediates ligation-dependent serine/threonine phosphorylation of the T-lymphocyte co-stimulatory molecule CD28. 933 76

Phosphatidylinositol 3-kinase (PI3K) is a heterodimer lipid kinase consisting of an 85-kD subunit bound to a 110-kD catalytic subunit that also possesses intrinsic, Mn(2+)-dependent protein serine kinase activity capable of phosphorylating the 85-kD subunit. Here, we examine the Mn(2+)-dependent protein kinase activity of PI3K alpha immunoprecipitated from normal resting or thrombin-stimulated platelets, and characterize p85/p110 phosphorylation, in vitro. Phosphoamino acid analysis of phosphorylated PI3K alpha showed p85 and p110 were phosphorylated on serine, but in contrast to previous results, were also phosphorylated on threonine and tyrosine. Wortmannin and LY294002 inhibited p85 phosphorylation; however, p110 phosphorylation was also inhibited suggesting p110 autophosphorylation on serine/threonine. The protein tyrosine kinase inhibitor, erbstatin analog, partially inhibited p85 and p110 phosphorylation but did not appear to affect PI3K lipid kinase activity. The in vitro phosphorylation of p85 alpha or p110 alpha derived from thrombin-stimulated platelets was no different than that of resting platelets, but we confirm that in thrombin receptor-stimulated platelets enhanced levels of p85 alpha and PI3K lipid kinase activity were recovered in antiphosphotyrosine antibody immunoprecipitates. These results suggest PI3K alpha can autophosphorylate on serine and threonine, and both p85 alpha and p110 alpha are substrates for a constitutively-associated protein tyrosine kinase in platelets.
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PMID:The p85 and p110 subunits of phosphatidylinositol 3-kinase-alpha are substrates, in vitro, for a constitutively associated protein tyrosine kinase in platelets. 944 54

We have previously shown that phosphatidylinositol 3-kinase alpha (PI 3-Kalpha) (p85alpha-p110alpha) is required for DNA synthesis induced by various growth factors (S. Roche, M. Koegl, and S. A. Courtneidge, Proc. Natl. Acad. Sci. USA 91:9185-9189, 1994) in fibroblasts. In the present study, we have investigated the function of PI 3-Kbeta (p85alpha-p110beta) during mitogenesis. By using antibodies specific to p110beta we showed that PI 3-Kbeta is expressed in NIH 3T3 cells. PI 3-Kbeta and PI 3-Kalpha have common features: PI 3-Kbeta is tightly associated with a protein serine kinase that phosphorylates p85alpha, it interacts with the Src-middle T antigen complex and the activated platelet-derived growth factor (PDGF) receptor in fibroblasts in vivo, and it becomes tyrosine phosphorylated after PDGF stimulation. PI 3-Kbeta was also activated in Swiss 3T3 and Cos7 cells stimulated with lysophosphatidic acid (LPA), a mitogen that interacts with a heterotrimeric G protein-coupled receptor. In contrast PI 3-Kalpha was activated to a lesser extent in these cells. Microinjection of neutralizing antibodies specific for p110beta into quiescent fibroblasts inhibited DNA synthesis induced by both insulin and LPA but poorly affected PDGF receptor signaling. Therefore, PI 3-Kbeta plays an important role in transmitting the mitogenic response induced by some, but not all, growth factors. Finally, we show that while oncogenic V12Ras interacts with type I PI 3-Ks, it could induce DNA synthesis in the absence of active PI 3-Kalpha and PI 3-Kbeta, suggesting that Ras uses other effectors for DNA synthesis.
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PMID:A function for phosphatidylinositol 3-kinase beta (p85alpha-p110beta) in fibroblasts during mitogenesis: requirement for insulin- and lysophosphatidic acid-mediated signal transduction. 981 98

The analysis of the complex network of signal transduction chains has demonstrated the importance of transcription factor activities for the control of gene expression. To understand how transcription factor activities in plants are regulated in response to light, we analyzed the common plant regulatory factor 2 (CPRF2) from parsley (Petroselinum crispum L.) that interacts with promoter elements of light-regulated genes. Here, we demonstrate that CPRF2 is a phosphoprotein in vivo and that its phosphorylation state is rapidly increased in response to light. Phosphorylation in vitro as well as in vivo occurs primarily within the C-terminal half of the factor, and is caused by a cytosolic 40-kDa protein serine kinase. In contrast to other plant basic leucine-zipper motif factors, phosphorylation of CPRF2 does not alter its DNA binding activity. Therefore, we discuss alternative functions of the light-dependent phosphorylation of CPRF2 including the regulation of its nucleocytoplasmic partitioning.
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PMID:Phosphorylation of the parsley bZIP transcription factor CPRF2 is regulated by light. 1050 11

Protein kinase D (PKD) is a protein serine kinase that is directly stimulated in vitro by phorbol esters and diacylglycerol in the presence of phospholipids, and activated by phorbol esters, neuropeptides, and platelet-derived growth factor via protein kinase C (PKC) in intact cells. Recently, oxidative stress was shown to activate transfected PKC isoforms via tyrosine phosphorylation, but PKD activation was not demonstrated. Here, we report that oxidative stress initiated by addition of H(2)O(2) (0.15-10 mm) to quiescent Swiss 3T3 fibroblasts activates PKD in a dose- and time- dependent manner, as measured by autophosphorylation and phosphorylation of an exogenous substrate, syntide-2. Oxidative stress also activated transfected PKD in COS-7 cells but not a kinase-deficient mutant PKD form or a PKD mutant with critical activating serine residues 744 and 748 mutated to alanines. Genistein, or the specific Src inhibitors PP-1 and PP-2 (1-10 micrometer) inhibited H(2)O(2)-mediated PKD activation by 45%, indicating that Src contributes to this signaling pathway. PKD activation by H(2)O(2) was also selectively potentiated by cotransfection of PKD together with an active form of Src (v-Src) in COS-7 cells, as compared with PDB-mediated activation. The specific phospholipase C inhibitor, partly blocked H(2)O(2)-mediated but not PDB-mediated PKD activation. In contrast, PKC inhibitors blocked H(2)O(2) or PDB-mediated PKD activation essentially completely, suggesting that whereas Src mediates part of its effects via phospholipase C activation, PKC acts more proximally as an upstream activator of PKD. Together, these studies reveal that oxidative stress activates PKD by initiating distinct Src-dependent and -independent pathways involving PKC.
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PMID:Oxidative stress induces protein kinase D activation in intact cells. Involvement of Src and dependence on protein kinase C. 1074 11

Transforming growth factor beta is a multi-functional growth and differentiation factor responsible for regulating many diverse biological processes in both vertebrate and invertebrate species. Among the most dramatic of TGFbeta's effects are those associated with specification of cell fates during development and inhibition of cell cycle progression. The core TGFbeta signaling pathway has now been described using a synergistic combination of genetic and biochemical approaches. Transmembrane receptors with intrinsic protein serine kinase activity bind ligand in the extracellular milieu and then phosphorylate intracellular proteins known as Smads. Phosphorylated Smads form heterooligomers and translocate into the nucleus where they can modulate transcriptional responses. More recent studies indicate that many other proteins serve as modulators of Smad activity, and utimately define specific cellular responses to TGFbeta. Here we describe both the simplistic core TGFbeta signaling pathway and the growing number of proteins that impinge on this pathway at the level of Smad function to either enhance or inhibit TGFbeta responses.
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PMID:Transforming growth factor beta signaling mediators and modulators. 1083 35

The inhibitory GABA(A) receptor is a key element in determining the pattern of nerve cell electrical activity. Thus, modulation of its function is of paramount impact in shaping neuronal functional activity under physiological and pathological conditions. This applies to cerebellar granule neurons as to all the other neurons in the brain. The culture of cerebellar granules from newborn rats is a convenient means by which to approach these cells for electrophysiological studies provided that they maintain, as far as GABA(A) receptors are concerned, the same characteristics as in situ. Thus, the regulation of GABA(A) receptor activity in these neurons has been studied by the patch-clamp technique, both in the whole-cell and outside-out configuration. An obvious first level of control of such receptors' activity is their desensitization under continued agonist application, with biphasic kinetics. The data do not allow one to conclude whether one is dealing with two different populations of receptors or with a single population with two desensitization phases; although the presence of two GABA(A) receptor populations is suggested by a host of observations. The granule cell GABA(A) receptors are modulated by changes in extracellular pH with lower pH resulting in an enhanced receptor activity. They display, under the conditions of whole-cell recording, a run-down phenomenon which is most probably due to a tyrosine phosphatase activity which is in turn under control by a protein serine kinase. Thus, in situ tyrosine phosphorylation is a key element in determining the efficiency of GABA mediated inhibition. Activation of protein kinase A or protein kinase G (PKG) down-regulates GABA(A) receptors' activity. This last event is involved in the depression of those receptors' activity by L-arginine via the production of nitric oxide. In addition, the activity of calmodulin-activated adenylate cyclase I is controlled by GABA(B) receptors. Dendritic GABA(A) receptor activity is partially blocked by previous activation of N-methyl-D-aspartate (NMDA) receptors via calcineurin mediated dephosphorylation/activation of protein tyrosine phosphatase and concomitant production of nitric oxide and PKG activation. The site phosphorylated by PKG is evidently not available for calcineurin-mediated serine dephosphorylation, due to calcineurin-specific membrane localization in respect of the GABA(A) receptor. Overall, a complex network of biochemical signals appear to keep granule cells GABA(A) receptors under a fine balance between up- and down-regulatory mechanisms. The overall data appear also to indicate the presence of two GABA(A) receptor populations: a dendritic one which can be modulated by Ca++ entering via NMDA receptors and a cell body one. The two populations are probably different in terms of desensitization kinetics and benzodiazepine sensitivity.
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PMID:GABA(A) receptor modulation in rat cerebellum granule cells. 1095 91


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