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)

In polarized Madin-Darby canine kidney cells the newly synthesized plasma membrane proteins, on the exocytic pathway, are sorted in the trans-Golgi network (TGN) and delivered directly to the apical or basolateral surface. Forskolin, isobutylmethylxanthine, and dibutyryl cAMP, all known to activate protein kinase A, stimulated transport of influenza hemagglutinin (HA) from the TGN to the apical surface. The same reagents, however, did not affect the transport of HA from the endoplasmic reticulum to the Goli complex nor did they affect transport of vesicular stomatitis virus G protein from the TGN to the basolateral surface. The addition of staurosporin, a general protein kinase inhibitor, did not affect the transport of HA in nontreated cells but blocked the stimulation caused by the above reagents. Apical transport of HA was also stimulated by phorbol ester, an activator of protein kinase C. Activation of apical transport by phorbol ester as well as aluminum fluoride (Pimplikar, S. W., and Simons, K. (1993) Nature 362, 456-458) was also negated by staurosporin. These results show that in polarized Madin-Darby canine kidney cells, protein kinase A and protein kinase C selectively stimulate the apical transport.
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PMID:Activators of protein kinase A stimulate apical but not basolateral transport in epithelial Madin-Darby canine kidney cells. 803 64

The human immunodeficiency virus type 1 (HIV-1) encoded Vpu is a small integral membrane phosphoprotein that functions in the enhancement of viral particle release and has more recently been shown to cause degradation of CD4 at the endoplasmic reticulum. We have demonstrated earlier that Vpu is phosphorylated by the ubiquitous casein kinase-2 (CK-2) in HIV-1 infected cells. The phosphoacceptor sites targeted by CK-2 in Vpu, however, have not been demonstrated and it was unclear whether Vpu was phosphorylated at one or more of its four serine residues. In this study we characterized the CK-2 phosphoacceptor sites in Vpu using recombinant CK-2 for in vitro phosphorylation of recombinant Vpu protein as well as synthetic peptides of Vpu. Phosphorylation of both Ser52 and Ser56 was demonstrated by in vitro phosphorylation using three 54-residue peptides comprising the entire hydrophilic part of Vpu and containing single serine to asparagine transitions in either position 52 or 56. The Km values of CK-2 to these peptides were established, revealing a preferential phosphorylation of Ser56. The Km values are: Ser56 = 31 microM; Ser 52 = 156 microM; wild type = 27 microM. In addition, we studied phosphorylation of Vpu by endogenous CK-2 following in vitro translation in rabbit reticulocyte lysate of wild-type Vpu or a mutant, Vpum2/6, carrying serine to asparagine changes at amino acid positions 52 and 56. The in vivo phosphorylation of Vpu was studied in transiently transfected human embryonic kidney (293) cells. In this system, the mutant Vpum2/6 was not phosphorylated, indicating that the seryl residues of Vpu at amino acid positions 52 and 56, but not those at positions 23 and 61, are phosphorylated by CK-2. The two CK-2 phosphorylation sites are conserved in all known Vpu sequences and represent the consensus Ser52GlyAsn(Glu/Asp)Ser(Glu/Asp)Gly(Glu/Asp)59. Prediction of the secondary structure revealed a conserved alpha-helix-turn-alpha-helix motif for the hydrophilic C-terminal part of Vpu. A structural model for Vpu is proposed in which the membrane anchor precedes a region comprising two amphipathic alpha-helices of opposed polarity, joined by a strongly acidic turn that protrudes into the cytoplasm and contains the CK-2 phosphorylation sites. Possible functional and structural homologies of Vpu to the membrane channel-forming M2 protein of influenza A viruses are discussed.
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PMID:The human immunodeficiency virus type 1 encoded Vpu protein is phosphorylated by casein kinase-2 (CK-2) at positions Ser52 and Ser56 within a predicted alpha-helix-turn-alpha-helix-motif. 810 1

The PKC1 gene of the budding yeast Saccharomyces cerevisiae encodes a homolog of the alpha, beta, and gamma isoforms of mammalian protein kinase C (PKC) that is essential for cell growth. Loss of PKC1 function results in a cell lysis defect that is due to a deficiency in cell wall construction. In this study, Pkc1p was modified at its COOH terminus with the influenza virus hemagglutinin epitope and was detected by SDS-polyacrylamide gel electrophoresis as a 145- and 150-kDa doublet when overproduced in yeast cells. Pkc1p displayed intrinsic Ser/Thr protein kinase activity in vitro, possessing a substrate specificity similar to that described for mammalian PKC. Specifically, preferred substrates possess an arginine at position -3 and a basic residue at position +2 relative to the target site. A catalytically inactive missense mutant of Pkc1p failed to complement a pkc1 delta mutant, suggesting that protein kinase activity is required for the biological function of Pkc1p. Both wild-type Pkc1p and the inactive form were isolated as phosphoproteins, indicating that Pkc1p is phosphorylated in vivo by another protein kinase. In vitro protein kinase activity of Pkc1p was not dependent on activating cofactors normally required for stimulation of mammalian PKC. However, mutational incapacitation of the pseudosubstrate site of Pkc1p resulted in constitutive activation of the enzyme, both in vivo and in vitro, suggesting that Pkc1p is normally regulated by a mechanism similar to that of its mammalian counterparts. The apparent molecular mass and substrate specificity of Pkc1p, together with its failure to respond to activating cofactors, suggest that this enzyme is distinct from an enzyme purified previously from budding yeast that has enzymatic properties similar to those of mammalian PKC.
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PMID:Saccharomyces cerevisiae PKC1 encodes a protein kinase C (PKC) homolog with a substrate specificity similar to that of mammalian PKC. 820 5

The 58-kDa inhibitor of the interferon-induced double-stranded RNA-activated protein kinase (PKR) is a cellular protein that is activated during influenza virus infection to down-regulate the activity of PKR. This study was initiated to further our understanding of the inhibitor which, when overproduced, has the capacity to malignantly transform cells. We report here the isolation and characterization of cDNA clones encoding the inhibitor, designated p58, from human HeLa and mouse NIH 3T3 cells. The human and mouse p58 cDNAs were 6.5 and 1.6 kb in length, respectively. Surprisingly, the deduced amino acid sequences of the human and mouse p58 were 96% identical, indicating a remarkably high degree of conservation between species. An examination of p58 mRNA expression in human tissues revealed a 6.5-kb transcript in all tissues examined, with a particularly high level of expression present in the pancreas and liver, and also in certain leukemic cell lines. Similarly, p58 expression was detected in all mouse tissues examined, with the highest level of expression found in liver. In contrast to human tissues, three p58 transcripts of approximately 1.7, 3.3 and 5.4 kb were observed in mouse tissues, suggesting that p58 expression may be regulated differently in human and mouse cells. Western blot analysis of subcellular fractions and indirect immunofluorescence analysis of intact cells revealed that p58 was found predominantly in the cytoplasm, consistent with its function as an inhibitor of PKR, which is also a predominantly cytoplasmic protein.
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PMID:Cloning, expression, and cellular localization of the oncogenic 58-kDa inhibitor of the RNA-activated human and mouse protein kinase. 866 42

Influenza virus frequently causes acute respiratory inflammation. We and others have observed that influenza virus infection induces apoptosis both in vitro and in vivo. We found that the virus infection induces augmented Fas expression. We proposed that double-stranded RNA (dsRNA) activated protein kinase (PKR) is involved in Fas expression since a synthetic dsRNA activated Fas gene and exposure of the cells to anti-interferon-beta antibody, which decreased the PKR activity, suppressed the cell death, as well as an increase in Fas mRNA. Furthermore, transfecting the mutant PKR suppressed the augmented Fas expression and rendered the cells resistant to death upon virus infection. These results suggest that Fas gene activation in virus-infected cells is regulated by the PKR/interferon system.
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PMID:[Mechanism of the induction of apoptosis by influenza virus infection]. 874 75

The putative envelope glycoproteins of hepatitis C virus (HCV), E1 and E2, were expressed as recombinant, secretory proteins in Sf9 insect cells through infection with recombinant baculoviruses. The influenza virus hemagglutinin signal sequence (HASS) was inserted upstream of the HCV-cDNAs in order to effect secretion. Furthermore, a hexa-histidine tag for purification on a Ni(2+)-nitrilotriacetic acid (Ni(2+)-NTA) column and a protein kinase A (PKA) recognition sequence for in vitro-phospholabeling were fused upstream of the HCV-cDNA. E1- and E2 proteins lacking their carboxy-terminal, hydrophobic sequence were produced by baculovirus-infected insect cells in bioreactors of 23 1. The medium was concentrated and proteins were purified under native conditions on Ni(2+)-NTA columns. Purified proteins could be phospholabeled in vitro using the catalytic subunit of protein kinase. A isolated from bovine heart and gamma-[32P]ATP. Labeled E1 and E2 proteins expressed in insect cells could be immunoprecipitated with sera from HCV-infected patients. Co-expression of these E1 and E2 proteins led to the formation of E1-E2 complexes within the insect cell and to secretion of these complexes into the medium.
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PMID:Purification and in vitro-phospholabeling of secretory envelope proteins E1 and E2 of hepatitis C virus expressed in insect cells. 889 40

Double stranded RNA-dependent protein kinase (PKR) is a double stranded RNA-activated, interferon-induced serine-threonine kinase that participates in both the antiviral and antiproliferative properties of interferon. We previously found that influenza virus inhibited PKR function by recruiting or activating a cellular inhibitor termed P58(IPK). The present study was undertaken to complement our earlier analyses, which demonstrated that P58(IPK) efficiently inhibited PKR autophosphorylation and activity in vitro. We now report that P58(IPK) down-regulates PKR and, in turn, stimulates protein synthetic rates inside the cell. Using transfection analysis, we show that P58(IPK) stimulates translation of secreted embryonic alkaline phosphatase reporter gene mRNA. Furthermore, we found that at least two regions of the P58(IPK) molecule were required for PKR inhibitory activity in COS-1 cells: (i) the DnaJ similarity region at the carboxyl terminus (amino acids 391-504); and (ii) the tetratricopeptide repeat 6 (TPR6) domain (amino acids 222-255) located in the middle of the P58(IPK) protein and within the eukaryotic protein synthesis initiation factor 2alpha homology region. P58(IPK) variants lacking either one of these regions were unable to stimulate secreted embryonic alkaline phosphatase protein synthetic rates. Consistent with this data is the observation that the DeltaTPR6 mutant (the P58(IPK) variant lacking the TPR6 motif) failed to block PKR activity in vitro. Based on these data and our earlier in vitro functional and PKR-P58(IPK) binding analyses, a revised model of PKR regulation by P58(IPK) is presented.
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PMID:The 58-kDa cellular inhibitor of the double stranded RNA-dependent protein kinase requires the tetratricopeptide repeat 6 and DnaJ motifs to stimulate protein synthesis in vivo. 891 May

Our objective is to describe the basic chemical and biological properties of the new calmodulin antagonist HMN-709 (2-[N-(2-aminoethyl)-N-(4-chlorobenzenesulfonyl)]amino-N-(4-flu orocinnamyl)-N-methylbenzylamine). This newly synthesized compound was found to inhibit the Ca2+/calmodulin-dependent activation of calmodulin kinase I, smooth muscle myosin light chain kinase and Ca2+-phosphodiesterase with IC50 values of 1.57+/-0.21, 2.29+/-0.09 and 0.30+/-0.08 microM (mean+/-S.E.), respectively. This compound showed little or no effect on the Ca2+/calmodulin-independent activation of protein kinase A, protein kinase C and basal phosphodiesterase. In addition, HMN-709 inhibited calmodulin kinase I competitively with respect to calmodulin (Ki=0.88 microM) and non-competitively with respect to ATP. Affinity chromatography, with HMN-709-coupled Sepharose HP, showed that the compound bound to calmodulin in a Ca(2+)-dependent manner and did not bind to calmodulin kinase I. These results suggest that HMN-709 antagonizes calmodulin by binding to Ca2+/calmodulin. HMN-709 inhibited collagen-induced platelet aggregation with an IC50 value of 11.80+/-0.86 microM (mean+/-S.E.) without inhibiting phorbol 12,13-dibutyrate-induced aggregation at doses up to 12 microM. HMN-709 appears to be a new, membrane-permeable calmodulin antagonist that may be used for studying the involvement of calmodulin in cellular processes.
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PMID:HMN-709, a chlorobenzenesulfonamide derivative, is a new membrane-permeable calmodulin antagonist. 891 14

The interferon-induced double-stranded RNA-activated protein kinase, PKR, likely contributes to both the antiviral and the antiproliferative effects of interferon. We previously found that influenza virus avoids the translational inhibitory effects of activated PKR by activating a cellular inhibitory protein, termed P58IPK, based on its Mr of 58,000. P58IPK is a member of the tetratricopeptide family of proteins and possesses significant homology to the conserved J region of the DnaJ family of heat shock proteins. We earlier hypothesized that P58IPK was kept in an inactive state with its own inhibitor (termed I-P58IPK) in uninfected cells. We therefore attempted the purification and characterization of I-P58IPK. The following data suggest that we have identified the molecular chaperone, hsp40, as 1-P58IPK. (i) The MonoP-purified I-P58IPK protein reacted with hsp40 antibody. (ii) This preparation demonstrated high specific activity in an in vitro functional assay containing only purified recombinant and native components. (iii) Purified, recombinant hsp40 protein inhibited P58IPK in an identical in vitro assay. (iv) Finally, we demonstrate that hsp40 directly complexes with P58IPK, in vitro, suggesting the inhibition occurs through a direct interaction. Our data, taken together, provide evidence for a novel intersection between the heat shock and interferon pathways, and suggest that influenza virus regulates PKR activity through the recruitment of a cellular stress pathway.
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PMID:The molecular chaperone hsp40 regulates the activity of P58IPK, the cellular inhibitor of PKR. 899 Jan 67

Protein kinase CK2, formerly known as casein kinase II, is a ubiquitous protein serine/threonine kinase. The enzyme exists in tetrameric complexes composed of two catalytic (CK2 alpha and/or CK2 alpha') subunits and two subunits (CK2 beta) that appear to have a role in modulating the activity of the catalytic subunits. With the exception of their unrelated carboxy-terminal domains, the two isozymic forms of mammalian CK2 display extensive sequence identity. Furthermore, CK2 alpha and CK2 alpha' exhibit remarkable conservation between species, suggesting that they may have unique functions. In the present study, the cDNAs encoding CK2 alpha and CK2 alpha' were modified by addition of the hemagglutinin tag of the influenza virus at the amino terminus of the respective proteins. The epitope-tagged proteins were transfected into Cos-7 cells and the localization of the expressed proteins determined by indirect immunofluorescence using monoclonal antibodies specific for the epitope tag. The use of transfection favors the formation of homotetrameric complexes (i.e., alpha 2 beta 2, alpha' 2 beta 2) instead of heterotetrameric complexes (i.e., alpha alpha' beta 2) that are present in many cells. Epitope-tagged CK2 alpha and CK2 alpha' displayed kinase activity and the ability to form complexes with CK2 beta. The results of these studies also indicate definitively that CK2 alpha and CK2 alpha' are both localized predominantly within the nucleus. Mutation of conserved lysine residues within the ATP binding domains of CK2 alpha and CK2 alpha' resulted in loss of kinase activity. However, examination of these mutants indicates that kinase activity is not essential for formation of complexes between subunits of CK2 and is not required for nuclear localization of CK2.
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PMID:Expression and localization of epitope-tagged protein kinase CK2. 909 2


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