Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The K(v)beta proteins are members of the aldo-keto reductase (AKR) superfamily that interact with the cytoplasmic face of the pore-forming alpha-subunits of the voltage-sensitive K(+) channels. The physiological functions of K(v)beta are unclear, although some members of the K(v)beta family impart rapid inactivation to non-inactivating K(+) channels. Structural analyses reveal that the NADPH-binding site as well as the active site architecture and residues of other AKR proteins are conserved in the K(v)beta proteins. The K(v)beta2 displays high-affinity NADPH binding, although no catalytic activity for this protein has been reported. Recent studies show that K(v)beta2 is constitutively associated with protein kinase C (PKC) zeta via the zeta-interacting protein (ZIP). The primary structure of K(v)beta displays 25 PKC consensus phosphorylation sites. We report that incubation of recombinant K(v)beta2 with PKCalpha in vitro leads to rapid phosphorylation of the protein. Stimulation of PKC by phorbol-12-myristate-13-acetate (PMA) also induced the phosphorylation of K(v)beta2 expressed in COS-7 cells. Deletion of the first 35 amino acids of the variable N-terminus led to a substantial decrease in the overall extent of phosphorylation in vitro, indicating that the N-terminus peptide is the preferred site of PKC phosphorylation. Analysis of the phosphorylated protein by HPLC coupled with an ion-trap electrospray mass spectrometer revealed phosphorylation of Ser-266 located near the NADPH-binding site of the protein. We propose that phosphorylation could affect the N-terminus-mediated beta-alpha interactions or the binding of NADP(H) to the conserved AKR domain of the K(v)beta proteins.
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PMID:Protein kinase C-dependent phosphorylation of the beta-subunit of the voltage-sensitive potassium channels (Kvbeta2). 1260 45

PKC-interacting protein (PKCI), also designated histidine triad nucleotide-binding protein 1, belongs to the histidine triad (HIT) family of proteins. Its structure is highly conserved from bacteria to humans and shares homology with the tumor-suppressor gene fragile histidine triad (FHIT). Although it was originally thought to inhibit PKC, its actual physiologic function is not known. Therefore, we used the technique of homologous recombination to generate homozygous deleted PKCI-/- mice. These mice display normal fetal and adult development. However, when mouse embryo fibroblasts were established from 13.5-day embryos and serially passaged the PKCI-/- cells displayed an increase in growth rate and underwent spontaneous immortalization, whereas the PKCI+/+ cells senesced and ceased growing. Furthermore, the PKCI-/- mouse embryo fibroblasts displayed increased resistance to cytotoxicity by ionizing radiation. In view of these findings we examined possible effects of PKCI on susceptibility to carcinogenicity. Both PKCI+/+ and PKCI-/- mice were treated with the chemical carcinogen N-nitrosomethylbenzylamine (NMBA) by intragastric administration and killed 12 weeks later. As expected with this protocol, NMBA induced squamous tumors (both papillomas and carcinomas) of the forestomach. The incidence, multiplicity per mouse, volume, and degree of malignancy of these tumors were significantly greater in the PKCI-/- than in the PKCI+/+ mice. Furthermore, four adenomas and one adenocarcinoma of the glandular stomach were found in the NMBA-treated PKCI-/- mice but no tumors of the glandular stomach were found in the NMBA-treated PKCI+/+ mice or in any of the untreated mice. Taken together, these findings suggest that, like FHIT, PKCI may normally play a tumor-suppressor role. The possible role of PKCI as a tumor suppressor in humans remains to be determined.
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PMID:Deletion of histidine triad nucleotide-binding protein 1/PKC-interacting protein in mice enhances cell growth and carcinogenesis. 1281 Sep 53

The androgen receptor (AR), a member of the nuclear hormone receptor superfamily, functions as a ligand-dependent transcription factor that regulates genes involved in cell proliferation and differentiation. Using a C-terminal region of the human AR in a yeast two-hybrid screen, we have identified RACK1 (receptor for activated C kinase-1) as an AR-interacting protein. In this report we found that RACK1, which was previously shown to be a protein kinase C (PKC)-anchoring protein that determines the localization of activated PKCbetaII isoform, facilitates ligand-independent AR nuclear translocation upon PKC activation by indolactam V. We also observed RACK1 to suppress ligand-dependent and -independent AR transactivation through PKC activation. In chromatin immunoprecipitation assays, we demonstrate a decrease in AR recruitment to the AR-responsive prostate-specific antigen (PSA) promoter following stimulation of PKC. Furthermore, prolonged exposure to indolactam V, a PKC activator, caused a reduction in PSA mRNA expression in prostate cancer LNCaP cells. Finally, we found PKC activation to have a repressive effect on AR and PSA protein expression in androgen-treated LNCaP cells. Our data suggest that RACK1 may function as a scaffold for the association and modification of AR by PKC enabling translocation of AR to the nucleus but rendering AR unable to activate transcription of its target genes.
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PMID:The scaffolding protein RACK1 interacts with androgen receptor and promotes cross-talk through a protein kinase C signaling pathway. 1295 11

The cytoplasmic C termini of AMPA receptor subunits contain PDZ (postsynaptic density 95/Discs large/zona occludens 1) ligand domains that can control their synaptic trafficking during plasticity. The glutamate receptor subunit 2 (GluR2) PDZ ligand domain can be phosphorylated at serine 880 (S880), and this disrupts interactions with GRIP/ABP (glutamate receptor-interacting protein/AMPA-binding protein) but not with PICK1 (PKC-interacting protein 1). Here, the impact of GluR2 S880 phosphorylation on synaptic transmission and plasticity was explored by expressing, in hippocampal slice cultures, GluR2 subunits containing point mutations that mimic or prevent phosphorylation at this residue. Our results indicate that mimicking GluR2 S880 phosphorylation excludes these receptors from synapses, depresses transmission, and partially occludes long-term depression (LTD). Conversely, mutations that prevent phosphorylation reduce LTD. Disruption of the interaction between GluR2 and GRIP/ABP by S880 phosphorylation may thus facilitate removal of synaptic AMPA receptors and mediate some forms of activity-dependent synaptic depression.
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PMID:Glutamate receptor subunit 2 Serine 880 phosphorylation modulates synaptic transmission and mediates plasticity in CA1 pyramidal cells. 1453 56

We examined the effect of suboptimal concentrations of cyclin-dependent kinase inhibitors, which do not interfere with cell proliferation, on retinoblastoma expression in hamster (Chinese hamster ovary K1) and human (K562 and HeLa) cells. To achieve this, we used the chemical inhibitors roscovitine and olomoucine (which inhibit CDK2 preferentially), UCN-01 (which also inhibits CDK4/6) and p21 (as an intrinsic inhibitor). All chemical inhibitors and overexpression of p21 strongly induced retinoblastoma protein expression. UCN-01-mediated retinoblastoma expression was caused by an increase in both the levels of retinoblastoma mRNA and the stability of the protein. The expression of the transcription factor Sp1, a retinoblastoma-interacting protein, was also enhanced by all the cyclin-dependent kinase inhibitors tested. However, Sp1 expression was caused by an increase in the levels of Sp1 mRNA without modification in the stability of the protein. By using luciferase experiments, the transcriptional activation of both retinoblastoma and Sp1 promoters by UCN-01 was confirmed. Bisindolylmaleimide I, at concentrations causing a similar or higher inhibition of protein kinase C than UCN-01, provoked a lower activation of retinoblastoma and Sp1 expression. Finally, the effects of cyclin-dependent kinase inhibitors on dihydrofolate reductase gene expression were evaluated. Treatment with UCN-01 increased cellular dihydrofolate reductase mRNA levels, and dihydrofolate reductase enzymatic activity was enhanced by UCN-01, roscovitine, olomoucine and p21, in transient transfection experiments. These results support a mechanism for the self-regulation of retinoblastoma expression, and point to the need to establish the appropriate dose of cyclin-dependent kinase inhibitors as antiproliferative agents in anticancer treatments.
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PMID:The expression of retinoblastoma and Sp1 is increased by low concentrations of cyclin-dependent kinase inhibitors. 1465 8

Constitutive overexpression of nucleophosmin-anaplastic lymphoma kinase (NPM-ALK) is a key oncogenic event in anaplastic large-cell lymphomas with the characteristic chromosomal aberration t(2;5)(p23;q35). Proteins that interact with ALK tyrosine kinase play important roles in mediating downstream cellular signals, and are potential targets for novel therapies. Using a functional proteomic approach, we determined the identity of proteins that interact with the ALK tyrosine kinase by co-immunoprecipitation with anti-ALK antibody, followed by electrospray ionization and tandem mass spectrometry (MS/MS). A total of 46 proteins were identified as unique to the ALK immunocomplex using monoclonal and polyclonal antibodies, while 11 proteins were identified in the NPM immunocomplex. Previously reported proteins in the ALK signal pathway were identified including PI3-K, Jak2, Jak3, Stat3, Grb2, IRS, and PLCgamma1. More importantly, many proteins previously not recognized to be associated with NPM-ALK, but with potential NPM-ALK interacting protein domains, were identified. These include adaptor molecules (SOCS, Rho-GTPase activating protein, RAB35), kinases (MEK kinase 1 and 4, PKC, MLCK, cyclin G-associated kinase, EphA1, JNK kinase, MAP kinase 1), phosphatases (meprin, PTPK, protein phosphatase 2 subunit), and heat shock proteins (Hsp60 precursor). Proteins identified by MS were confirmed by Western blotting and reciprocal immunoprecipitation. This study demonstrates the utility of antibody immunoprecipitation and subsequent peptide identification by tandem mass spectrometry for the elucidation of ALK-binding proteins, and its potential signal transduction pathways.
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PMID:Identification of NPM-ALK interacting proteins by tandem mass spectrometry. 1496 12

The atypical isoforms of protein kinase C (aPKCs) play an important role in insulin signaling and are involved in insulin-stimulated glucose uptake in different cell systems. On the other hand, aPKCs also are able to negatively regulate important proteins for insulin signaling, like phosphatidylinositol 3-kinase and protein kinase B/Akt. To find aPKC-interacting proteins that may promote positive or negative activities of aPKCs, a yeast two-hybrid screen was performed. Partitioning-defective protein 6 (Par6) was detected in human cDNA libraries of different adult insulin-sensitive tissues. Although Par6 is known as an aPKC-interacting protein during development, no role for Par6 in insulin signaling has been reported so far. We therefore studied the effects of Par6 overexpression in C2C12 murine myoblasts. In these cells, Par6 associated constitutively with endogenous aPKCs, and the expression level as well as the activity of aPKCs were increased. Insulin-dependent association of the p85 subunit of phosphatidylinositol 3-kinase with insulin receptor substrate 1 was hampered and the phosphorylation of Akt/glycogen synthase kinase-3alpha/beta was significantly impaired after stimulation with insulin or with platelet-derived growth factor. Consequently, insulin-dependent glycogen synthesis was down-regulated (1.44 vs. 2.24 fold, P < 0.01). We therefore suggest that Par6 acts as a negative regulator of the insulin signal.
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PMID:Partitioning-defective protein 6 regulates insulin-dependent glycogen synthesis via atypical protein kinase C. 1497 22

WW domain-containing proteins are found in all eukaryotic cells and they are involved in the regulation of a wide variety of cellular functions. We recently identified the neuronal protein KIBRA as novel member of this family of signal transducers. In this report, we describe the identification of protein kinase C (PKC) zeta as a KIBRA-interacting protein. PKCzeta is known to play an important role in synaptic plasticity and memory formation but its specific targets are not well known. Our studies presented here revealed that KIBRA is a novel substrate for PKCzeta and suggest that PKCzeta phosphorylation may regulate the cellular function of KIBRA.
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PMID:KIBRA is a novel substrate for protein kinase Czeta. 1508 97

Receptor for activated C kinase (Rack)-1 is a protein kinase C-interacting protein, and contains a WD repeat but has no enzymatic activity. In addition to protein kinase C, Rack-1 also binds to Src, phospholipase Cgamma, and ras-GTPase-activating proteins. Thus, Rack-1 is thought to function as a scaffold protein that recruits specific signaling elements. In a cytokine signaling cascade, Rack-1 has been reported to interact with the IFN-alphabeta receptor and Stat1. In addition, we show here that Rack-1 associates with a member of Jak, tyrosine kinase 2 (Tyk2). Rack-1 interacts weakly with the kinase domain and interacts strongly with the pseudokinase domain of Tyk2. Rack-1 associates with Tyk2 via two regions, one in the N terminus and one in the middle portion (aa 138-203) of Rack-1. Jak activation causes the phosphorylation of tyrosine 194 on Rack-1. After phosphorylation, Rack-1 is translocated toward the perinuclear region. In addition to functioning as a scaffolding protein, these results raise the possibility that Rack-1 functions as a signaling molecule in cytokine signaling cascades.
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PMID:Tyrosine kinase 2 interacts with and phosphorylates receptor for activated C kinase-1, a WD motif-containing protein. 1524 Jul 4

Cytochrome c-initiated activation of apoptotic protease activating factor-1 (Apaf-1) is a key step in the mitochondrial-signaling pathway for the activation of death-executing caspases in apoptosis. This signaling pathway has been implicated in the pathophysiology of various neurological disorders, including ischemic brain injury. In this study, we have cloned a novel rat gene product, designated as Apaf-1-interacting protein (AIP), which functions as a dominant-negative inhibitor of the Apaf-1-caspase-9 pathway. AIP is constitutively expressed in the brain, but at substantially lower levels than Apaf-1 and caspase-9. AIP can directly bind to Apaf-1 in vitro through its N-terminal caspase-recruiting domain, and this protein interaction was increased in cells undergoing apoptosis. Cytosolic extracts from cells overexpressing AIP were highly resistant to cytochrome c- dATP-induced activation of caspase-9 and caspase-3. Gene transfection of AIP into cell lines, including the neuronal-differentiated PC12 cells, potently suppressed apoptosis induced by various pro-apoptotic stimuli. To further investigate the functional role of AIP in primary neurons and in the brain, an adeno-associated virus (AAV) vector carrying the AIP cDNA was constructed. AAV-mediated overexpression of AIP in primary cortical- hippocampal neurons markedly reduced cell death and caspase-3 activation triggered by protein kinase C inhibition, DNA damage, or oxygen- glucose deprivation. Moreover, intracerebral infusion of the AAV vector resulted in robust AIP expression in the hippocampus and significantly promoted CA1 neuronal survival after transient global cerebral ischemia. These results suggest that molecular targeting of the Apaf-1-caspase-9 signaling pathway may be a feasible neuroprotective strategy to enhance the endogenous threshold for caspase activation and prevent neuronal loss in stroke and related disorders.
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PMID:Cloning of a novel Apaf-1-interacting protein: a potent suppressor of apoptosis and ischemic neuronal cell death. 1524 Aug 11


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