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)

Cells use the interferon-induced, double-stranded-RNA-dependent protein kinase PKR as a defense against virus infections. Upon activation, PKR phosphorylates and thereby inactivates the protein synthesis initiation factor eIF-2, resulting in the cessation of protein synthesis. Viruses have evolved various strategies to counteract this cellular defense. In this paper, we show that simian virus 40 (SV40) large-T antigen can antagonize the translational inhibitory effect resulting from the activation of PKR in virus-infected cells. Unlike the situation with other virus-host cell interactions, SV40 large-T antigen does not block the activation of PKR, suggesting that SV40 counteracts the cellular antiviral response mediated by PKR at a step downstream of PKR activation. Mutational analysis of large-T antigen indicates that a domain located between amino acids 400 and 600 of large-T antigen is responsible for this function. These results define a novel translational regulatory function for the SV40 large-T antigen.
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PMID:A novel translational regulation function for the simian virus 40 large-T antigen gene. 781 44

The interferon-induced, double-stranded RNA (dsRNA)-dependent protein kinase, PKR, is an inhibitor of translation and has antiviral, antiproliferative, and antitumor properties. Previously, the dsRNA binding domain had been located within the N-terminal region of PKR and subsequently shown to include two nearly identical domains comprising residues 55-75 and 145-166. We have undertaken both random and site-directed, alanine-scanning mutagenesis in order to investigate the contribution of individual amino acids within these domains to dsRNA binding. Here we identify 2 residues that were absolutely required for dsRNA binding, glycine 57 and lysine 60. Mutation of 2 other residues within the domain (lysine 64 and leucine 75) resulted in less than 10% binding (compared to wild type). We have also identified a number of other residues that influence dsRNA binding to varying degrees. Mutants that were unable to bind dsRNA were not active in vitro and possessed no antiproliferative activity in vivo. However, dsRNA binding mutants were partially transdominant over wild type PKR in mammalian cells, suggesting that binding of dsRNA activator is not the mechanism responsible for the phenotype of PKR mutants.
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PMID:Mutational analysis of the double-stranded RNA (dsRNA) binding domain of the dsRNA-activated protein kinase, PKR. 785 24

Perturbants of the endoplasmic reticulum (ER), including Ca(2+)-mobilizing agents, provoke a rapid suppression of translational initiation in conjunction with an increased phosphorylation of the alpha-subunit of eukaryotic initiation factor (eIF)-2. Depletion of ER Ca2+ stores was found to signal the activation of a specific eIF-2 alpha kinase. Analysis of extracts derived from cultured cells that had been pretreated with Ca2+ ionophore A23187 or thapsigargin revealed a 2-3-fold increase in eIF-2 alpha kinase activity without detectable changes in eIF-2 alpha phosphatase activity. A peptide of 65-68 kDa, which was phosphorylated concurrently with eIF-2 alpha in extracts of pretreated cells, was identified as the interferon-inducible, double-stranded RNA (dsRNA)-regulated protein kinase (PKR). Depletion of ER Ca2+ stores did not alter the PKR contents of extracts. When incubated with reovirus dsRNA, extracts derived from cells with depleted ER Ca2+ stores displayed greater degrees of phosphorylation of PKR and of eIF-2 alpha than did control extracts. The enhanced dsRNA-dependent phosphorylation of PKR was observed regardless of prior induction of the kinase with interferon. Lower concentrations of dsRNA were required for maximal phosphorylation of PKR in extracts of treated as compared to control preparations. These findings suggest that PKR mediates the translational suppression occurring in response to perturbation of ER Ca2+ homeostasis.
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PMID:Activation of the double-stranded RNA-regulated protein kinase by depletion of endoplasmic reticular calcium stores. 789 Jul 57

The in vitro activities of recombinant gene products of the vaccinia virus E3L and K3L genes have been compared. These proteins are both potent inhibitors of the dsRNA activated protein kinase (PKR) as assayed in cell-free translation systems or with purified PKR. The two gene products function at similar molar concentrations. Both proteins are expressed early in vaccinia virus infection suggesting that vaccinia virus maintains redundant mechanisms for the down regulation of PKR. The K3L gene product can be shown to be associated with PKR in vaccinia virus infected cells. The activities of the vaccinia virus PKR inhibitors are compared with other viral protein inhibitors of PKR. A variety of cellular proteins have also been identified by their ability to inhibit PKR activity or to prevent PKR activation. These cellular PKR interacting proteins have been uncovered from the studies of viral strategies to prevent PKR activation, as well as from studies looking at the effects of growth control, growth factors or oncogene expression on PKR activity. A picture emerges of PKR fulfilling a complex regulatory role in cell function with the regulation of its activity as part of a complex cascade interfacing with the signal transduction/cell cycle control machinery.
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PMID:Proteins that interact with PKR. 789 27

The interferon-inducible protein kinase PKR interacts with a number of small viral RNA species, including adenovirus VAI RNA and the Epstein-Barr virus-encoded RNA EBER-1. These RNAs bind to PKR and protect protein synthesis from inhibition by double-stranded RNA in the reticulocyte lysate system. Using a peptide phosphorylation assay we show here that EBER-1, like VAI, directly inhibits the activation of purified PKR. A second Epstein-Barr virus RNA, EBER-2, also regulates PKR. EBER-1, EBER-2 and VAI RNA exhibit mutually competitive binding to the native or recombinant enzyme, as assessed by U.V. crosslinking experiments and filter binding assays. The affinities of all three RNAs for PKR in vitro are similar (Kd = ca. 0.3 nM). Since this protein kinase has been proposed to exert a tumour suppressor function in vivo, the ability of EBER-1 to inhibit its activation suggests a role for this small RNA in cell transformation by Epstein-Barr virus.
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PMID:Comparative analysis of the regulation of the interferon-inducible protein kinase PKR by Epstein-Barr virus RNAs EBER-1 and EBER-2 and adenovirus VAI RNA. 790 35

The hepatitis delta virus (HDV) genome consists of circular ssRNA which has extensive intramolecular complementarity and can form a dsRNA rod-like structure. If such RNA species were to exist in an unmasked form in cells, they would be expected to induce interferon (IFN) expression and activate two IFN-inducible dsRNA-dependent enzymes with anti-viral activity, namely the dsRNA-dependent protein kinase (PKR) and 2',5' oligoadenylate (2',5' A) synthetase. Since the virus replicates to high copy number for prolonged periods in infected cells it is apparently able to evade these antiviral mechanisms. The RNA genome may be masked and fail to induce or activate the antiviral response, or the virus may inhibit such a response. Treatment of a hepatoma cell line, Huh7, and a fibrosarcoma cell line, HT1080, stably transfected with a trimeric HDV cDNA construct, with IFN-alpha or IFN-gamma for up to seven days failed to influence the level of expression of genomic or antigenomic HDV RNA, or delta antigen (Ag). This is consistent with either failure of activation or inhibition of the IFN response. However the induction of several IFN-responsive genes, including PKR, 2',5' A synthetase and class I MHC is normal and cotransfection of a construct expressing delta Ag did not affect expression from an IFN-inducible chloramphenicol acetyltransferase construct. In addition, the activation of PKR is not inhibited in HDV-expressing cells and antiviral assays suggest that the ability of these cells to mount an antiviral response to at least two cytopathic viruses is unaffected. IFN-beta is inducible normally by dsRNA in cells transfected with the delta cDNA trimer. We conclude that HDV replication is not inhibited by IFN-alpha or IFN-gamma, even though the responses of cells expressing HDV RNA and antigen to IFN and dsRNA are intact.
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PMID:Hepatitis delta virus replication in vitro is not affected by interferon-alpha or -gamma despite intact cellular responses to interferon and dsRNA. 791 7

Adenoviruses use the virus-encoded virus-associated RNA (VAI RNA) as a defense against cellular antiviral response by blocking the activation of the interferon-induced, double-stranded RNA-activated protein kinase PKR. The structure of VAI RNA consists of two long, imperfectly base-paired duplex regions connected by a complex short stem-loop at the center, referred to as the central domain. By using a series of adenovirus mutants with linker-scan mutations in the VAI RNA gene, we recently showed that the critical elements required for function in the VAI RNA molecule are in the central domain and that these same elements of the central domain are also involved in binding to PKR. In virus-infected cells, VAI RNA interacts with latent kinase, which is bound to ribosomes; this interaction takes place in a complex milieu. To more fully understand the relationship between structure and function and to determine whether the in vivo phenotype of these mutants can be reproduced in vitro, we have now analyzed these mutant VAI alleles for their ability to block the activation of a partially purified PKR from HeLa cells. We have also derived the structure of these mutants experimentally and correlated the structure with function. Without exception, when the structure of the short stem-loop of the central domain was perturbed, the mutants failed to inhibit PKR. Structural disruptions elsewhere in the central domain or in the long duplex regions of the molecule were not deleterious for in vitro function. Thus, these results support our previous findings and underscore the importance of the elements present in the central domain of the VAI RNA for its function. Our results also suggest that the interaction between PKR and VAI RNA involves a precise secondary (and tertiary) structure in the central domain. It has been suggested that VAI RNA does not activate PKR in virus-infected cells because of mismatches in the imperfectly base-paired long duplex regions. We constructed mutant VAI genes in which the imperfectly base-paired duplex regions were converted to perfectly base-paired regions and assayed in vitro for the activation of PKR. As with the wild-type VAI RNA, these mutants failed to activate PKR in vitro, while they were able to block the activation of PKR better than did the wild type. These results suggest that the failure of VAI RNA to activate PKR is not the result of mismatches in the long duplex regions.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:In vitro analysis of virus-associated RNA I (VAI RNA): inhibition of the double-stranded RNA-activated protein kinase PKR by VAI RNA mutants correlates with the in vivo phenotype and the structural integrity of the central domain. 791 32

Activation of 2-5A-dependent ribonuclease by 5'-phosphorylated, 2',5'-linked oligoadenylates, known as 2-5A, is one pathway of interferon action. Unaided uptake into HeLa cells of 2-5A linked to an antisense oligonucleotide resulted in the selective ablation of messenger RNA for the double-stranded RNA (dsRNA)-dependent protein kinase PKR. Similarly, purified, recombinant human 2-5A-dependent ribonuclease was induced to selectively cleave PKR messenger RNA. Cells depleted of PKR activity were unresponsive to activation of nuclear factor-kappa B (NF-kappa B) by the dsRNA poly(I):poly(C), which provides direct evidence that PKR is a transducer for the dsRNA signaling of NF-kappa B.
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PMID:Blockage of NF-kappa B signaling by selective ablation of an mRNA target by 2-5A antisense chimeras. 791 32

The gene for the RNA-dependent eIF-2 alpha protein kinase (PKR) was isolated from mouse genomic DNA and characterized. The mouse PKR gene contains 16 exons and spans about 28 kilobase pairs. Exon 1 is untranslated; the AUG translation initiation site is located early in the second exon. Exon 16 includes the UAG translation termination site. ATTAAA polyadenylylation signal, and a putative TA rather than CA 3' cleavage site. Primer extension analysis determined one major as well as multiple minor transcription initiation sites; the major site was 159 bp upstream of the translation initiation site. The complete cDNA of mouse PKR is, therefore, 2334 bp in length excluding the 3' poly(A)+ tail. The PKR gene 5' flanking region was a functional promoter in interferon-treated, transfected cells as measured with chloramphenicol acetyltransferase as the reporter gene. Sequence analysis of the 5' flanking region disclosed numerous potential binding sites for transcription factors including both an ISRE element and a GAS element involved in interferon inducibility; Ets, Myb, MyoD, and E2F sites commonly associated with growth control regulation and differentiation; and NF-kappa B-like sites as well as sites for two types of interleukin 6-activated factors, NF-IL6 and APRF, often associated with acute-phase, immune, and inflammatory response genes.
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PMID:Mechanism of interferon action: structure of the mouse PKR gene encoding the interferon-inducible RNA-dependent protein kinase. 791

The S4 gene of reovirus encodes a double-stranded RNA-binding protein, sigma 3, that can inhibit activation of the interferon-induced dsRNA-dependent protein kinase, PKR. In this study, we attempted to localize the region of sigma 3 involved in dsRNA-binding by constructing deletion and point mutations, expressing the mutated proteins in COS cells, and testing the ability of the native mutated proteins to bind dsRNA-agarose. Transfection of S4 into COS cells resulted in expression of two forms of sigma 3, a full-length protein, and a protein containing a small truncation at the amino-terminal end. The truncation is likely due to a proteolytic event. Deletions of as few as 10 amino acids from the amino-terminal end of the protein or 10 amino acids from the carboxyl-terminal end of the protein resulted in loss of dsRNA-binding activity. A putative dsRNA-binding domain has previously been localized to an 85 amino acid region located between amino acids 234 and 297 (Miller, J. E., and Samuel, C. E., J. Virol. 66, 5347-5356 1992). Mutagenesis of basic residues located within two distinct motifs of this region showed that some basic residues are absolutely required for binding to dsRNA while others can be changed with little effect.
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PMID:Site-directed mutagenic analysis of reovirus sigma 3 protein binding to dsRNA. 791 13

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