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)

Recent studies have indicated that cerebral ischemia induces rapid serine phosphorylation of synaptic RAS-GTPase activating protein (SynGAP) by calcium/Camodulin-dependent protein kinase II (CaMKII) in rat hippocampus. To further illustrate the mechanisms underlying these processes, we examined the effects of transient (15 min) brain ischemia followed by reperfusion (0, 30 min, 6 h, 1, 3 days) on serine phosphorylation of SynGAP and interactions involving SynGAP, postsynaptic density protein 95 (PSD95) and CaMKII in rat hippocampus. Transient brain ischemia was induced by the method of four-vessel occlusion in Sprague-Dawley rats. Serine phosphorylation of SynGAP increased immediately after brain ischemia and peaked at 30-min reperfusion, and the increase was maintained for 3 days. The association among SynGAP, PSD95 and CaMKII had a similar trend as serine phosphorylation of SynGAP. Intracrebroventricular infusion of PSD95 antisense oligodeoxynucleotide not only markedly decreased the protein levels of PSD95 but also attenuated the elevated serine phosphorylation of SynGAP and the associations among SynGAP, PSD95 and CaMKII induced by 30-min reperfusion following 15-min brain ischemia. The results suggest that the serine phosphorylation of SynGAP catalyzed by CaMKII is immediately increased and that PSD95 is critical for promoting SynGAP serine phosphorylation after transient brain ischemia.
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PMID:PSD-95 promotes CaMKII-catalyzed serine phosphorylation of the synaptic RAS-GTPase activating protein SynGAP after transient brain ischemia in rat hippocampus. 1504 63

Akt is a key insulin-activated protein kinase. We searched for Akt substrates in 3T3-L1 adipocytes by means of immunoprecipitation with an Akt phosphomotif-specific antibody (PAS antibody). Four insulin-elicited phosphoproteins were isolated and identified by mass spectrometry. The identity of each protein was established by isolating the protein from lysates of untreated and insulin-treated adipocytes with an antibody specific for the protein and showing that the PAS antibody reacted only with the protein in the immunoprecipitate from insulin-treated cells. These proteins have sizes of 47, 75, 105, and 250 kDa on SDS PAGE, and have been designated pp47, 75, 105, and 250. The effect of inhibitors on the phosphorylation of the proteins, the identified sites of phosphorylation, and in vitro phosphorylation by recombinant Akt further indicated that pp47, 105, and 250 are likely to be Akt substrates, whereas pp75 may not be. pp47 and 105 are novel proteins with no known or predicted function. pp75 was previously found as a protein that associated with the colony-stimulating factor receptor, designated as Fms-interacting protein. pp250 is a novel protein with a predicted GTPase activating protein (GAP) domain for Rheb and/or Rap at its carboxy terminus. The subcellular and tissue distributions of the four proteins were determined.
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PMID:Novel insulin-elicited phosphoproteins in adipocytes. 1545 Oct 25

Neurite outgrowth is influenced by positive and negative signals that include the semaphorins, an important family of axonal outgrowth inhibitors. Here we report that the Rac GTPase activating protein (GAP)alpha2-chimaerin is involved in Semaphorin 3A (Sema 3A) signaling. In dorsal root ganglion neurons, Sema 3A-induced growth cone collapse was inhibited by alpha2-chimaerin mutated to eliminate GAP activity or interaction with phosphotyrosine. Activation of alpha2-chimaerin by phorbol ester caused growth cone collapse. Active alpha2-chimaerin interacts with collapsin response mediator protein-2 (CRMP-2) and cyclin-dependent kinase (Cdk) 5/p35 kinase through its SH2 and GAP domains, respectively. Cdk5 phosphorylates CRMP-2 at serine 522, possibly facilitating phosphorylation of serine 518 and threonine 514 by glycogen synthase kinase 3beta (GSK3beta), a kinase previously implicated in Sema 3A signaling. Phosphorylation of CRMP-2 serine 522 was essential for Sema 3A-induced growth cone collapse, which is dependent on Cdk5 but not Rho kinase activity. alpha2-chimaerin, like CRMP-2, can associate with the Sema 3A receptor. These results indicate that active alpha2-chimaerin Rac GAP, Cdk5/p35, and its substrate CRMP-2, are implicated in the dynamics of growth cone guidance initiated through Sema 3A signaling.
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PMID:Alpha2-chimaerin, cyclin-dependent Kinase 5/p35, and its target collapsin response mediator protein-2 are essential components in semaphorin 3A-induced growth-cone collapse. 1548 18

The Rho G protein Cdc42 and its exchange factor Cdc24 are required for hyphal growth of the human fungal pathogen Candida albicans. Previously, we reported that strains ectopically expressing Cdc24 or Cdc42 are unable to form hyphae in response to serum. Here we investigated the role of these two proteins in hyphal growth, using quantitative real-time PCR to measure induction of hypha-specific genes together with time lapse microscopy. Expression of the hypha-specific genes examined depends on the cyclic AMP-dependent protein kinase A pathway culminating in the Efg1 and Tec1 transcription factors. We show that strains with reduced levels of CDC24 or CDC42 transcripts induce hypha-specific genes yet cannot maintain their expression in response to serum. Furthermore, in serum these mutants form elongated buds compared to the wild type and mutant budding cells, as observed by time lapse microscopy. Using Cdc24 fused to green fluorescent protein, we also show that Cdc24 is recruited to and persists at the germ tube tip during hyphal growth. Altogether these data demonstrate that the Cdc24/Cdc42 GTPase module is required for maintenance of hyphal growth. In addition, overexpression studies indicate that specific levels of Cdc24 and Cdc42 are important for invasive hyphal growth. In response to serum, CDC24 transcript levels increase transiently in a Tec1-dependent fashion, as do the G-protein RHO3 and the Rho1 GTPase activating protein BEM2 transcript levels. These results suggest that a positive feedback loop between Cdc24 and Tec1 contributes to an increase in active Cdc42 at the tip of the germ tube which is important for hypha formation.
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PMID:Regulation of the Cdc42/Cdc24 GTPase module during Candida albicans hyphal growth. 1575 21

Insulin causes the rapid translocation of the glucose transporter GLUT4 from intracellular sites to the plasma membrane in fat and muscle cells. There is considerable evidence that the signaling to this trafficking process is downstream of the insulin-activated protein kinase Akt. One Akt substrate that connects signaling to trafficking is a 160 kDa GTPase activating protein for Rabs. Another potential connecting substrate is the protein Synip, which associates with the SNARE syntaxin4. A recent study presents evidence that Akt phosphorylates Synip on serine 99, at least in vitro, and proposes that this phosphorylation enables GLUT4 translocation by causing the dissociation of Synip from syntaxin4. In the present study we show that marked overexpression of Synip mutant S99A, which lacks this phosphorylation site, has no effect on insulin-stimulated GLUT4 translocation in 3T3-L1 adipocytes. This finding is strong evidence that phosphorylation of Synip on serine 99 is not required for GLUT4 translocation.
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PMID:Synip phosphorylation does not regulate insulin-stimulated GLUT4 translocation. 1591 52

Recently, we described a 160 kDa protein with a Rab GTPase activating protein domain that is phosphorylated on multiple sites by the protein kinase Akt (designated AS160). Phosphorylation of AS160 in adipocytes is required for insulin-stimulated translocation of the glucose transporter GLUT4 to the plasma membrane. In the present study, we searched for proteins that interact with the GTPase activating protein (GAP) domain region of AS160 by the yeast two-hybrid screen. This search indicated that calmodulin bound to a small domain just amino terminal to the GAP domain of AS160, and this association has been confirmed by three other methods, including co-immunoprecipitation from lysates of adipocytes. The association was Ca ion dependent. The role of calmodulin binding to AS160 in insulin-stimulated GLUT4 translocation was examined through the generation of a point mutant of AS160 that did not bind calmodulin. This mutation did not interfere with the capacity of AS160 lacking Akt phosphorylation sites to inhibit GLUT4 translocation. Consequently, calmodulin binding is probably not required for the participation of AS160 in insulin-stimulated GLUT4 translocation.
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PMID:Calmodulin binds to the Rab GTPase activating protein required for insulin-stimulated GLUT4 translocation. 1605 84

Historically, the cAMP-dependent protein kinase (PKA) has a paradoxical role in cell motility, having been shown to both facilitate and inhibit actin cytoskeletal dynamics and cell migration. In an effort to understand this dichotomy, we show here that PKA is regulated in subcellular space during cell migration. Immunofluorescence microscopy and biochemical enrichment of pseudopodia showed that type II regulatory subunits of PKA and PKA activity are enriched in protrusive cellular structures formed during chemotaxis. This enrichment correlates with increased phosphorylation of key cytoskeletal substrates for PKA, including the vasodilator-stimulated phosphoprotein (VASP) and the protein tyrosine phosphatase containing a PEST motif. Importantly, inhibition of PKA activity or its ability to interact with A kinase anchoring proteins inhibited the activity of the Rac GTPase within pseudopodia. This effect correlated with both decreased guanine nucleotide exchange factor activity and increased GTPase activating protein activity. Finally, inhibition of PKA anchoring, like inhibition of total PKA activity, inhibited pseudopod formation and chemotactic cell migration. These data demonstrate that spatial regulation of PKA via anchoring is an important facet of normal chemotactic cell movement.
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PMID:Spatial regulation of the cAMP-dependent protein kinase during chemotactic cell migration. 1617 81

Ran is a nuclear Ras-like GTPase that is required for various nuclear events including the bi-directional transport of proteins and ribonucleoproteins through the nuclear pore complex, spindle formation, and reassembly of the nuclear envelope. One of the key regulators of Ran is RanGAP1, a Ran specific GTPase activating protein. The question of whether a mechanism exists for controlling nucleocytoplasmic transport through the regulation of RanGAP1 activity continues to be debated. Here we show that RanGAP1 is phosphorylated in vivo and in vitro. Serine-358 (358S) was identified as the major phosphorylation site, by MALDI-TOF-MS spectrometry. Site directed mutagenesis at this position abolished the phosphorylation. Experiments using purified recombinant kinase and specific inhibitors such as DRB and apigenin strongly suggest that casein kinase II (CK2) is the responsible kinase. Although the phosphorylation of 358S of RanGAP1 did not significantly alter its GAP activity, the phosphorylated wild type RanGAP1, but not a mutant harboring a mutation at the phosphorylation site 358S, efficiently formed a stable ternary complex with Ran and RanBP1 in vivo, suggesting that the 358S phosphorylation of RanGAP1 affects the Ran system.
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PMID:Phosphorylation of RanGAP1 stabilizes its interaction with Ran and RanBP1. 1642 60

Recently we identified a novel 250 kDa protein in adipocytes that is a substrate for the insulin-activated protein kinase Akt. We refer to this protein as AS250 for Akt substrate of 250 kDa. AS250 has a predicted GTPase activating protein (GAP) domain at its carboxy terminus. This domain shows some homology to the GAP domains for Rheb at the carboxy terminus of the protein tuberin and for Rap1 in the protein Rap1 GAP. The present study further characterizes AS250. The cDNA sequence for human AS250 is reported, and the sites that undergo phosphorylation upon insulin treatment of adipocytes have been identified by tandem mass spectrometry. We have found that in adipocytes AS250 exists as a complex with a novel protein of 1484 amino acids known as KIAA1219. The complex of AS250 with KIAA1219 is notably similar to the important regulatory complex of the protein tuberin with hamartin (the tuberous sclerosis complex), in the size of its subunits, the location of the GAP domain, and its phosphorylation by Akt. In an effort to detect the cellular role of the AS250/KIAA1219 complex, we generated 3T3-L1 adipocytes that largely lack AS250 by shRNA knockdown and examined several insulin-dependent effects. The knockdown of AS250 had no effect on insulin activation of the kinases, Akt, 70 kDa S6 kinase, or ERK1/2, or on insulin-stimulated actin bundling, and it had only a slight effect on insulin-stimulated GLUT4 translocation.
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PMID:Adipocytes contain a novel complex similar to the tuberous sclerosis complex. 1649 Mar 46

The ubiquitin-proteasome pathway (UPP) regulates synaptic function, but little is known about specific UPP targets and mechanisms in mammalian synapses. We report here that the SCF(beta-TRCP) complex, a multisubunit E3 ubiquitin ligase, targets the postsynaptic spine-associated Rap GTPase activating protein (SPAR) for degradation in neurons. SPAR degradation by SCF(beta-TRCP) depended on the activity-inducible protein kinase Polo-like kinase 2 (Plk2). In the presence of Plk2, SPAR physically associated with the SCF(beta-TRCP) complex through a canonical phosphodegron. In hippocampal neurons, disruption of the SCF(beta-TRCP) complex by overexpression of dominant interfering beta-TRCP or Cul1 constructs prevented Plk2-dependent degradation of SPAR. Our results identify a specific E3 ubiquitin ligase that mediates degradation of a key postsynaptic regulator of synaptic morphology and function.
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PMID:Regulation of postsynaptic RapGAP SPAR by Polo-like kinase 2 and the SCFbeta-TRCP ubiquitin ligase in hippocampal neurons. 1872 13

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