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)

Double-stranded RNA-dependent protein kinase (PKR) has been implicated in interferon (IFN) induction, antiviral response and tumor suppression. We have generated mice devoid of functional PKR (Pkr%). Although the mice are physically normal and the induction of type I IFN genes by poly(I).poly(C) (pIC) and virus is unimpaired, the antiviral response induced by IFN-gamma and pIC was diminished. However, in embryo fibroblasts from Pkr knockout mice, the induction of type I IFN as well as the activation of NF-kappa B by pIC, were strongly impaired but restored by priming with IFN. Thus, PKR is not directly essential for responses to pIC, and a pIC-responsive system independent of PKR is induced by IFN. No evidence of the tumor suppressor activity of PKR was demonstrated.
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PMID:Deficient signaling in mice devoid of double-stranded RNA-dependent protein kinase. 855 29

The genome of the human delta hepatitis agent is a circular, highly structured single-stranded RNA lacking regular runs of RNA-RNA duplex longer than 15 bp. We have tested the ability of delta agent RNA to participate in reactions with a protein containing a motif which confers the ability to bind double-stranded RNA (dsRNA). Surprisingly, highly purified delta agent RNA preparations from which all traces of contaminating dsRNA have been removed activate PKR, the dsRNA-dependent protein kinase activity of mammalian cells (also known as DAI, P1-eIF-2, and p68 kinase). This behavior is in marked contrast to the interaction of PKR with a number of other highly structured viral single-stranded RNAs, which inhibit, rather than stimulate, activation of this kinase. PKR activation leads to inhibition of protein synthesis in the rabbit reticulocyte lysate system. Paradoxically, delta RNA failed to elicit the expected PKR-mediated inhibition of cell-free translation. Instead, delta RNA interfered with PKR activation and the translational block induced by dsRNA. We conclude that the interaction of PKR and delta agent RNA may represent a new category of protein-RNA interactions involving the dsRNA binding motif.
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PMID:Paradoxical interactions between human delta hepatitis agent RNA and the cellular protein kinase PKR. 876 75

The African swine fever virus (ASFV) open reading frame A179L, which is similar to the human proto-oncogene bcl-2, has been cloned and expressed in vaccinia virus under control of the pEIL synthetic early/late promoter. The A179L gene product prevented cell death in HeLa and BSC-40 cells doubly infected with another recombinant vaccinia virus expressing the interferon-induced double-stranded RNA-activated protein kinase (p68 kinase), which activates a rapid cell death characteristic of apoptosis. This finding suggests that the A179L gene has a function similar to that of bcl-2 in preventing apoptosis and may play an important role during productive ASFV infection.
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PMID:African swine fever virus gene A179L, a viral homologue of bcl-2, protects cells from programmed cell death. 891 51

A direct antiviral role of the interferon-induced human protein kinase p68 has been shown only against encephalomyocarditis virus (EMCV) and vaccinia virus (VV). To determine if p68 kinase (PKR) has a broad antiviral effect, we have used coinfections between VV recombinants expressing p68 kinase under regulation of the lac I operator/repressor elements of Escherichia coli and two RNA viruses, vesicular stomatitis virus (VSV) and poliovirus. In cells coinfected with VV recombinants and VSV, induction with isopropyl-B-D-thiogalactoside (IPTG) of wild-type p68 kinase or a mutant lacking the dsRNA binding domain resulted in inhibition of both VV and VSV protein synthesis. This inhibition is not observed in cells infected with a catalytically inactive point mutant lys-arg296 of p68 kinase. When cells are coinfected with VV recombinants and poliovirus, induction of active p68 kinase resulted in a decrease in VV proteins but not in poliovirus proteins or poliovirus yields. Immunoblot analysis revealed that p68 kinase was expressed during mixed infections. Our results demonstrate a differential effect of p68 kinase on the replication of VV, VSV, and poliovirus. We suggest that in a particular virus-cell system, the different sensitivity of a virus to p68 kinase is probably due to levels of active enzyme.
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PMID:Regulated expression of the interferon-induced protein kinase p68 (PKR) by vaccinia virus recombinants inhibits the replication of vesicular stomatitis virus but not that of poliovirus. 897 11

The RNA-dependent protein kinase (PKR) is inducible by interferon (IFN) and is implicated in the antiviral and antiproliferative actions of IFN. We have now isolated human genomic clones that contain the promoter region required for transcription of the Pkr gene. Transient transfection analyses, using chloramphenicol acetyltransferase (CAT) as the reporter in constructs possessing various 5'-flanking fragments of the Pkr gene, led to the identification of a functional TATA-less promoter that directed IFN-inducible transcription of CAT. Sequence determination and deletion analysis of the promoter region revealed an element (5'GGAAAACGAAACT3') involved in IFN inducibility that corresponds to the consensus sequence of the IFN-stimulated response element (ISRE). Comparison of the promoter sequence of the human Pkr gene to that of the mouse homolog identified a novel element (5'GGGAAGGCGGAGTCC3') immediately upstream of the ISRE element which so far is unique to the human and mouse Pkr gene promoters. We have designated this new motif as KCS, for kinase conserved sequence. Deletion and substitution mutants of the Pkr promoter region showed that the ISRE element was required for transcriptional induction by type I IFN, whereas the KCS motif increased promoter activity mediated by the ISRE. Additional potential regulatory cis-elements were identified in the human Pkr promoter that are commonly associated with growth control regulation and differentiation. Other than the ISRE and novel KCS elements, the overall organization of potential binding sites for transcription factors was not well conserved between the IFN-inducible promoters of the human and mouse Pkr genes. The strict conservation of sequence, distance, and position of KCS, relative to ISRE, together with mutagenesis results, suggest an important functional role for the newly recognized KCS motif.
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PMID:Isolation of the interferon-inducible RNA-dependent protein kinase Pkr promoter and identification of a novel DNA element within the 5'-flanking region of human and mouse Pkr genes. 900 65

A direct, ribonuclease T1 protection assay was employed to study the binding of a delta agent genomic RNA transcript containing the conserved domain to the double-stranded RNA- (dsRNA-) dependent protein kinase of mammalian cells, PKR (also known as DAI, p1-elF2, or p68 kinase). In a control reaction, this assay identified a major portion of the same PKR binding site in VA RNA as deduced previously using a footprinting technique (Clarke PA, Mathews MB, 1995, RNA 1:1-20). Although delta agent RNA contains extensive secondary structure throughout the conserved region, we found a remarkable specificity in its PKR binding. The same region was protected by intact PKR and by a 184-amino acid fragment thereof containing the two RNA-binding motifs (dsRBMs) but lacking kinase activity. Two specific opposed, continuous segments of delta agent RNA (extending about 65-70 bases) were obtained reproducibly. Each is more than twice as long as those protected in VA RNA (about 25 bases), suggesting the involvement of PKR dimers in delta RNA binding. The PKR-protected region of delta agent RNA also contains a characteristic tertiary structural element that may be involved in binding specificity.
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PMID:Surprising specificity of PKR binding to delta agent genomic RNA. 908 50

Apoptosis occurs in response to different cellular stresses, including viral infection, inflammatory cytokines, growth factor deprivation, and UV light, but it is unclear whether these inducers share a common mechanism of induction. The interferon-induced, double-stranded RNA-activated protein kinase (PKR) has been implicated in processes that rely on apoptosis as control mechanisms in vivo, including antiviral activities, cell growth regulation, and tumorigenesis. Here we report that mouse embryo fibroblasts from mutant mice containing homozygous deletions in the PKR gene (Pkr(0/0) mice) were resistant to apoptotic cell death in response to double-stranded RNA, tumor necrosis factor-alpha, or lipopolysaccharide. The mechanism underlying the suppression of apoptosis in the Pkr(0/0) cells could be attributed to defects in the activation of DNA-binding activity for the transcription factor interferon regulatory factor-1 and in Fas mRNA induction. Thus, these results provide genetic evidence implicating a requirement for PKR in mediating different forms of stress-related apoptosis.
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PMID:A double-stranded RNA-activated protein kinase-dependent pathway mediating stress-induced apoptosis. 909 84

Induction of apoptosis in mammalian cells by double-stranded (ds) RNA-dependent enzymes, protein kinase (PKR), and 2-5A-synthetase/RNase L (referred to as the 2-5A system) might be a mechanism mediating anticellular and antiviral actions of interferon (i.f.n.). To counteract the effect of i.f.n., animal viruses have acquired genes that block specific i.f.n. pathways. Among poxviruses, vaccinia virus (VV) encodes E3L, a dsRNA-binding protein, which inhibits activation of i.f.n.-induced PKR. It has been proposed that E3L might also block activation of the 2-5A system, but direct proof is lacking. To establish if E3L inhibits the 2-5A system, we have developed a method to assay apoptosis induced by increased production of enzymes in the 2-5A pathway, as well as of their putative modulators. This assay is based on the use of cells derived from homozygous PKR knockout mice (Pkr-/-) infected with a VV mutant lacking E3L (delta E3L) and transiently transfected with a luciferase reporter gene together with plasmid vectors expressing 2-5A-synthetase, RNase L, or E3L, all controlled by the same inducible promoter. We found that expression of 2-5A-synthetase inhibited luciferase activity in a dose-response manner, reaching inhibition values of 80% relative to transfections with control plasmids. Similar results were obtained by transfection with an RNase L vector, although in this case the extent of inhibition was further enhanced upon coexpression of 2-5A-synthetase and RNase L. Inhibition of protein synthesis mediated by the 2-5A system correlated well with induction of apoptosis. Transfection of cells with a plasmid vector expressing E3L together with 2-5A-synthetase completely prevented apoptosis induced by this enzyme. We conclude that VV E3L acts as an inhibitor of the i.f.n.-induced 2-5A-synthetase enzyme.
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PMID:Vaccinia virus E3L protein is an inhibitor of the interferon (i.f.n.)-induced 2-5A synthetase enzyme. 956 39

NIH-3T3 cells, which are resistant to reovirus infection, became susceptible when transformed with activated Sos or Ras. Restriction of reovirus proliferation in untransformed NIH-3T3 cells was not at the level of viral gene transcription, but rather at the level of viral protein synthesis. An analysis of cell lysates revealed that a 65 kDa protein was phosphorylated in untransformed NIH-3T3 cells, but only after infection with reovirus. This protein was not phosphorylated in infected or uninfected transformed cells. The 65 kDa protein was determined to be the double-stranded RNA-activated protein kinase (PKR), whose phosphorylation leads to translation inhibition. Inhibition of PKR phosphorylation by 2-aminopurine, or deletion of the Pkr gene, led to drastic enhancement of reovirus protein synthesis in untransformed cells. The emerging picture is one in which early viral transcripts trigger PKR phosphorylation in untransformed cells, which in turn leads to inhibition of translation of viral genes; this phosphorylation event is blocked by an element(s) in the Ras pathway in the transformed cells, allowing viral protein synthesis to ensue. The usurpation of the Ras signaling pathway therefore constitutes the basis of reovirus oncolysis.
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PMID:The molecular basis of viral oncolysis: usurpation of the Ras signaling pathway by reovirus. 962 72

The PKR protein kinase is an important regulator of viral mRNA translation. A approximately 50-kb gene (Pkr) encodes the human PKR protein that is inducible by interferon (IFN). The Pkr promoter region has a novel 15-bp DNA element designated as KCS required for transcriptional activity that is located 4 bp upstream of a 13-bp IFN-stimulated response element (ISRE) that confers inducibility by type I IFN. We have carried out a systematic analysis of the 5' flanking region of the human Pkr gene to define how the novel KCS element acts to affect basal as well as IFN-inducible transcription. Electrophoretic mobility shift analyses (EMSA) revealed that nuclear proteins bound selectively to the KCS element in a manner that was not dependent upon either IFN treatment or protein binding at the adjacent ISRE element. KCS protein binding activity in vitro correlated with activation of transcription in vivo in transient transfection assays. Competitionsupershift EMSA assays revealed that multiple proteins were involved in bandshift complex formation with KCS, one of which was identified as factor Sp1. In addition to the positive regulatory domain containing the KCSISRE elements, a negative regulatory domain (NRD) was identified within a 40-bp region positioned approximately 400-bp upstream of the KCSISRE elements. Deletion and substitution mutations indicated that the NRD negatively affected Pkr transcription by a mechanism dependent upon the KCS element. These results define novel positivenegative regulatory domains within the Pkr promoter that function through the KCS element to affect basalIFN-inducible transcription of Pkr.
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PMID:Mechanism of interferon action: functional characterization of positive and negative regulatory domains that modulate transcriptional activation of the human RNA-dependent protein kinase Pkr promoter. 992 85

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