EC:2.7.11.1 - FACTA Search

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)

The protein kinase, interferon-inducible double-stranded (ds)RNA-dependent activator (PRKRA) is a dsRNA-binding protein which activates a protein kinase participating in the antiviral activity of interferon. Our previous studies indicated that the nucleotide sequence encoding PRKRA, which appeared to be an intronless gene, was present in PAC HS265J14 containing the human leukocyte antigen (HLA) DR subregion. In this study, we further investigated and characterized the PRKRA gene on the human genome by means of Southern blotting and polymerase chain reaction with homozygous typing cell lines for HLA genes. Results indicated that the presence of PRKRA in the DR subregion was dependent on the DR53 group. Consistently, fluorescence in situ hybridization profiles with PRKRA as a probe showed that the hybridization signal on Chromosome (Chr) 6p21.3 was seen only in the samples carrying the DR haplotypes that belonged to the DR53 group. Interestingly, another hybridization signal, which was mapped on Chr 2q31.2-q32.1, was always detected in the samples examined, i.e., even in the samples negative for the DR53 group. The outcome of a sequence-database homology search further indicated that the PRKRA gene with introns appeared to be present in a recently opened draft-sequence, RP11-65L3 (GenBank accession number AC009948), which is located between D2S335 and D2S2257. Together, the data presented here indicate that the PRKRA gene in the DR subregion is a processed pseudogene (PRKRApsi), which could have been generated only on the DR53 common ancestor's genome, and that the master copy of PRKRApsi is most probably present on Chr 2q31.2-q32.1.
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PMID:Haplotype-specific sequence encoding the protein kinase, interferon-inducible double-stranded RNA-dependent activator in the human leukocyte antigen class II region. 1122 Jun 20

The Fanconi anemia (FA) complementation group C gene product (FANCC) functions to protect hematopoietic cells from cytotoxicity induced by interferon-gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha) and double-stranded RNA (dsRNA). Because apoptotic responses of mutant FA-C cells involve activation of interferon-inducible, dsRNA-dependent protein kinase PKR, we sought to identify FANCC-binding cofactors that may modulate PKR activation. We identified the molecular chaperone Hsp70 as an interacting partner of FANCC in lymphoblasts and HeLa cells using 'pull-down' and co-immunoprecipitation experiments. In vitro binding assays showed that the association of FANCC and Hsp70 involves the ATPase domain of Hsp70 and the central 320 residues of FANCC, and that both Hsp40 and ATP/ADP are required. In whole cells, Hsp70-FANCC binding and protection from IFN-gamma/TNF-alpha-induced cytotoxicity were blocked by alanine mutations located in a conserved motif within the Hsp70-interacting domain of FANCC. We therefore conclude that FANCC acts in concert with Hsp70 to prevent apoptosis in hematopoietic cells exposed to IFN-gamma and TNF-alpha.
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PMID:FANCC interacts with Hsp70 to protect hematopoietic cells from IFN-gamma/TNF-alpha-mediated cytotoxicity. 1150 Mar 75

Two genomic regions of hepatitis C virus (HCV), the interferon sensitivity-determining region (ISDR) of the non-structural 5A gene (NS5A) and the protein kinase-RNA activated (PKR)-eukariotic transcription factor (eIF2-alpha) phosphorylation homology domain (PePHD) of the structural E2 gene, interact in vitro with the interferon-inducible cellular PKR protein kinase. Mutations within these regions might, therefore, influence the response to interferon therapy. Viral load at baseline and sequence heterogeneity of HCV in NS5A and E2 regions was studied in 74 HCV-1b and in 12 HCV-3a infected patients with chronic hepatitis C who were treated with interferon. As previously reported by us, in a smaller series of patients in which the ISDR region was analyzed [Saiz et al. (1998) Journal Infectious Diseases 177:839-847], in the present study a low viral load and a high number of amino acid mutations within the ISDR, but not within the PePHD region, were significantly associated with long-term response to interferon among HCV-1b infected patients. No relationship between these viral features and response to therapy was disclosed in patients infected with HCV-3a.
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PMID:Influence of the genetic heterogeneity of the ISDR and PePHD regions of hepatitis C virus on the response to interferon therapy in chronic hepatitis C. 1150 41

The interferon-induced antiviral state is mediated by interferon-stimulated genes that are upregulated in concert after stimulation by type I interferons. Because so many viruses encode strategies to inactivate the interferon-inducible double-stranded RNA (dsRNA)-dependent protein kinase PKR, this protein is likely to be a major player in antiviral defense. Here we demonstrate the increased susceptibility of PKR-/- animals to vesicular stomatitis virus (VSV) by the intranasal route, but also demonstrate that the protective effects of PKR are mouse strain dependent. We have found the difference between wild-type-BALB/c and 129SvEv animals to be on the order of 5 logs, with high levels of virus present in the lungs of BALB/c but not 129SvEv animals. To evaluate the sensitivity of PKR-/- mice to VSV clearly, the PKR mutation was bred onto the resistant 129SvEv background. The increased sensitivity of PKR-/- mice, compared to PKR+/+ strain-matched controls, is on the order of 10-fold as measured by median lethal dose (LD50). PKR-/- 129 mice support VSV replication in the lung unlike controls. While this result clearly demonstrates an important role for PKR in protection against VSV infection of the lung, it also underlines the importance of other host factors in containing a viral infection.
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PMID:PKR protection against intranasal vesicular stomatitis virus infection is mouse strain dependent. 1195 46

The interferon-inducible double-stranded RNA (dsRNA)-activated protein kinase, PKR, plays an important role in messenger (m) RNA translation by phosphorylating the alpha subunit of eukaryotic initiation factor 2. Through this capacity PKR is thought to be a mediator of the antiviral and antiproliferative actions of interferon. In addition to translational function, PKR has been implicated in many signaling pathways to gene transcription by modulating the activities of a number of transcription factors, including NF-kappa B and STATs. However, experiments with two different PKR knockout (PKR(-/-)) mouse models have failed to verify many of the biological functions attributed to PKR. In addition, results with cells from the two PKR(-/-) mice have been contradictory and confusing. Here, we show that the first PKR(-/-) mouse with deletion of exons 2 and 3, corresponding to the N terminus domain of PKR (N-PKR(-/-)), expresses a truncated protein, resulting from the translation of the exon-skipped mouse PKR (ES-mPKR) mRNA. The ES-mPKR protein is defective in dsRNA binding but remains catalytically active both in vitro and in vivo. Furthermore, we show that the second PKR(-/-) mouse with a targeted deletion of exon 12, which corresponds to the C terminus of the molecule (C-PKR(-/-)), expresses a truncated mPKR produced by alternative splicing of exon 12. Although the spliced form of mPKR (SF-mPKR) is catalytically inactive, it retains the dsRNA-binding properties of the wild type mPKR. Reverse transcription-PCRs demonstrate that SF-mPKR mRNA is expressed in several normal mouse tissues, and appears to be under developmental control during embryogenesis. Our data demonstrate that both PKR(-/-) models are incomplete knockouts, and expression of the PKR variants may account, at least in part, for the significant signaling differences between cells from the two PKR(-/-) mice.
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PMID:Functional characterization of pkr gene products expressed in cells from mice with a targeted deletion of the N terminus or C terminus domain of PKR. 1216 30

The interferon-inducible, double-stranded RNA (dsRNA)-activated protein kinase, PKR, plays key roles in regulation of cell growth and differentiation, and has been postulated as a tumor suppressor. Downstream effectors of PKR include the translation initiation factor, eIF2alpha, and the transcription factor, NF-kappaB. We found elevated levels of PKR protein, dsRNA-dependent PKR autophosphorylation activity, and phosphorylated eIF2alpha in melanoma cells compared to nontransformed melanocytes in culture. Treatment with interferon-alpha2b further induced PKR expression and activity. Immunohistochemical analysis of primary melanomas demonstrated minimal PKR immunoreactivity, but melanoma lymph node metastases expressed a high level of PKR protein. Furthermore, analysis of colon cancer specimens revealed that transformation from normal mucosa to adenomas and carcinomas was coincident with an increase in PKR expression. These data do not support the concept of PKR as a classic tumor suppressor but instead suggest that PKR upregulation occurs at defined steps in cancer progression, probably as a cellular response to neoplasia.
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PMID:Neoplastic progression in melanoma and colon cancer is associated with increased expression and activity of the interferon-inducible protein kinase, PKR. 1248 27

Four distinct eukaryotic initiation factor 2alpha (eIF2alpha) kinases phosphorylate eIF2alpha at S51 and regulate protein synthesis in response to various environmental stresses. These are the hemin-regulated inhibitor (HRI), the interferon-inducible dsRNA-dependent kinase (PKR), the endoplasmic reticulum (ER)-resident kinase (PERK) and the GCN2 protein kinase. Whereas HRI and PKR appear to be restricted to mammalian cells, GCN2 and PERK seem to be widely distributed in eukaryotes. In this study, we have characterized the second eIF2alpha kinase found in Drosophila, a PERK homologue (DPERK). Expression of DPERK is developmentally regulated. During embryogenesis, DPERK expression becomes concentrated in the endodermal cells of the gut and in the germ line precursor cells. Recombinant wild-type DPERK, but not the inactive DPERK-K671R mutant, exhibited an autokinase activity, specifically phosphorylated Drosophila eIF2alpha at S50, and functionally replaced the endogenous Saccharomyces cerevisiae GCN2. The full length protein, when expressed in 293T cells, located in the ER-enriched fraction, and its subcellular localization changed with deletion of different N-terminal fragments. Kinase activity assays with these DPERK deletion mutants suggested that DPERK localization facilitates its in vivo function. Similar to mammalian PERK, DPERK forms oligomers in vivo and DPERK activity appears to be regulated by ER stress. Furthermore, the stable complexes between wild-type DPERK and DPERK-K671R mutant were mediated through the N terminus of the proteins and exhibited an in vitro eIF2alpha kinase activity.
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PMID:Functional characterization of Drosophila melanogaster PERK eukaryotic initiation factor 2alpha (eIF2alpha) kinase. 1260 80

Translation of the hepatitis C genome is mediated by internal ribosome entry on the structurally complex 5' untranslated region of the large viral RNA. Initiation of protein synthesis by this mechanism is independent of the cap-binding factor eIF4E, but activity of the initiator Met-tRNA(f)-binding factor eIF2 is still required. HCV protein synthesis is thus potentially sensitive to the inhibition of eIF2 activity that can result from the phosphorylation of the latter by the interferon-inducible, double-stranded RNA-activated protein kinase PKR. Two virally encoded proteins, NS5A and E2, have been shown to reduce this inhibitory effect of PKR by impairing the activation of the kinase. Here we present evidence for a third viral strategy for PKR inhibition. A region of the viral RNA comprising part of the internal ribosome entry site (IRES) is able to bind to PKR in competition with double-stranded RNA and can prevent autophosphorylation and activation of the kinase in vitro. The HCV IRES itself has no PKR-activating ability. Consistent with these findings, cotransfection experiments employing a bicistronic reporter construct and wild-type PKR indicate that expression of the protein kinase is less inhibitory towards HCV IRES-driven protein synthesis than towards cap-dependent protein synthesis. These data suggest a dual function for the viral IRES, with both a structural role in promoting initiation complex formation and a regulatory role in preventing inhibition of initiation by PKR.
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PMID:Inhibition of the protein kinase PKR by the internal ribosome entry site of hepatitis C virus genomic RNA. 1281 Sep 19

A cyclic polyisoprenoid compound, geranylgeranylacetone (GGA), has been used as antiulcer drug. GGA is also a potent inducer of heat shock proteins (HSPs). HSPs are considered to induce an antiviral effect; however, the detailed mechanism is unknown. To determine whether GGA might show antiviral activity and what the mechanism is, the effect of GGA against influenza virus (strain PR8) infection in vivo and in vitro was investigated. The results demonstrated that GGA treatment strongly suppressed the deleterious consequences of PR8 replication and was accompanied by an increase in HSP70 gene expression in mice. Results from in vitro analyses demonstrated that GGA significantly inhibited the synthesis of PR8-associated proteins and prominently enhanced expression of human myxovirus resistance 1 (MxA) followed by increased HSP70 transcription. Moreover, GGA augmented the expression of an interferon-inducible double-strand RNA-activated protein kinase (PKR) gene and promoted PKR autophosphorylation and concomitantly alpha subunit of eukaryotic initiation factor 2 phosphorylation during PR8 infection. It is proposed that GGA-induced HSP70 has potent antiviral activity by enhancement of antiviral factors and can clinically achieve protection from influenza virus infection.
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PMID:Antiviral effects of geranylgeranylacetone: enhancement of MxA expression and phosphorylation of PKR during influenza virus infection. 1293 94

The present study investigated the role of interferon-inducible pathways in herpes simplex virus type 1-infected mice transduced with an adenoviral vector expressing murine interferon-beta (Ad:IFN-beta). Wild type mice or RNase L(-/-) mice deficient in responses to 2'-5' oligoadenylate synthetase activation, or lacking RNA-dependent protein kinase and transduced with Ad:IFN-beta showed enhanced survival following HSV-1 infection. The protective effect was associated with a reduction in viral gene expression in the cornea and trigeminal ganglion in wild type mice as well as the trigeminal ganglion of RNase L(-/-) mice. However, the efficacy of Ad:IFN-beta was lost in the corneas of RNase L(-/-) mice and significantly diminished in both the cornea and trigeminal ganglion as measured by viral gene expression in RNA-dependent protein kinase deficient mice. Collectively, the data suggest survival rates of viral-infected mice do not reflect the replication capacity as measured by herpes simplex virus type one lytic gene expression.
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PMID:Dichotomy between survival and lytic gene expression in RNase L- and PKR-deficient mice transduced with an adenoviral vector expressing murine IFN-beta following ocular HSV-1 infection. 1567 Jul 95

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