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 (dsRNA)-dependent protein kinase (p68) has been shown to be induced by alpha-interferon (IFN-alpha) in mammalian cells. It binds to dsRNA, and is believed to be a factor in the control of both cellular and viral protein synthesis. This report describes the use of a new monoclonal antibody (MAb) TJ4C4, to monitor levels of p68 in a patient with AIDS-associated Kaposi's sarcoma. Using a novel immunoperoxidase/iron staining method, we examined formalin-fixed, paraffin-embedded biopsies prior to, and 4 months after the initiation of IFN therapy. Immunostaining showed low levels (1+ staining) of p68 in the pretreatment tissue, whereas a marked increase (4+ staining) was noted during interferon treatment. This staining suggests an increased level of intracellular p68 expression. This patient has subsequently remained on IFN-alpha therapy and is alive with no evidence of Kaposi's sarcoma, 6 1/2 years after diagnosis. The use of MAb TJ4C4 will greatly facilitate the study of p68 kinase in clinical tissues, and may provide a way to monitor the effects of IFN therapy.
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PMID:Immunohistochemical detection of double-stranded-RNA-dependent protein kinase (p68) with a novel monoclonal antibody TJ4C4. A case report of an AIDS-associated Kaposi's sarcoma treated with alpha-interferon. 128 28

The human p68 kinase is an interferon-regulated enzyme that inhibits protein synthesis when activated by double-stranded RNA. We show here that when expressed in Saccharomyces cerevisiae, the p68 kinase produced a growth suppressing phenotype resulting from an inhibition of polypeptide chain initiation consistent with functional protein kinase activity. This slow growth phenotype was reverted in yeast by two different mechanisms: expression of the p68 kinase N-terminus, shown to bind double-stranded RNA in vitro and expression of a mutant form of the alpha-subunit of yeast initiation factor 2, altered at a single phosphorylatable site. These results provide the first direct in vivo evidence that the p68 kinase interacts with the alpha-subunit of eukaryotic initiation factor 2. Sequence similarity with a yeast translational regulator, GCN2, further suggests that this enzyme may be a functional homolog in higher eukaryotes, where its normal function is to regulate protein synthesis through initiation factor 2 phosphorylation.
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PMID:Human p68 kinase exhibits growth suppression in yeast and homology to the translational regulator GCN2. 134 91

The interferon (IFN)-inducible double-stranded (ds) RNA-activated protein kinase (p68 kinase) is a physiologically important enzyme that regulates the rate of cellular and viral protein synthesis by phosphorylating and thereby inactivating the peptide chain initiation factor 2. We have generated a partial cDNA clone, which probably represents the murine p68 kinase, by reverse transcription-polymerase chain reaction (RT-PCR) using sequence information of the human p68 kinase. The 725-bp cDNA clone encoded the carboxyl-terminal 238 amino acid residues of the mouse kinase. It has 67% overall identity with the corresponding region of the human kinase. All the protein kinase catalytic domains are conserved in the mouse protein. Moreover, there are additional stretches of residues that are totally conserved between the two proteins. The functional equivalence of the two proteins was tested by constructing a chimeric cDNA that encoded a protein whose amino-terminal 364 residues were of human origin and carboxyl-terminal 187 residues were of mouse origin. The chimeric protein was as efficient as the human p68 kinase in binding to the dsRNA, autophosphorylating and phosphorylating exogenous substrate.
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PMID:Construction and expression of an enzymatically active human-mouse chimeric double-stranded RNA-dependent protein kinase. 135 89

The interferon-inducible double-stranded (ds) RNA-activated protein kinase (p68 kinase) is a physiologically important enzyme that regulates the rate of cellular and viral protein synthesis by phosphorylating and thereby inactivating the peptide chain initiation factor 2. We have generated a cDNA clone of the human p68 kinase by polymerase chain reaction cloning using the recently published sequence of this enzyme. Active enzyme was synthesized by in vitro transcription-translation of the cDNA clone. This system was used for mapping the dsRNA-binding domain of the enzyme. Progressive deletions from the carboxyl terminus were introduced by digesting the cDNA with suitable restriction enzymes. Expression of proteins harboring deletions from the amino terminus was achieved by cloning DNA fragments into appropriately constructed expression vectors. Affinity of the truncated proteins for dsRNA was examined by testing their capacity to bind to dsRNA-agarose beads. Our results demonstrated that the dsRNA-binding domain lies at the amino terminus of the protein. A truncated protein containing the first 170 amino acid residues from the amino terminus could bind to dsRNA. However, deletion of 34 residues from the amino terminus or 41 residues from the carboxyl terminus of this truncated protein eliminated its dsRNA-binding activity. Comparison of the primary structure and the secondary structure of this region of p68 kinase and the corresponding region of 2'-5'-oligoadenylate synthetase revealed no apparent similarity.
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PMID:Identification of the double-stranded RNA-binding domain of the human interferon-inducible protein kinase. 137 35

The double-stranded (ds) RNA-activated protein kinase from human cells is a 68 kd protein (p68 kinase) induced by interferon. On activation by dsRNA in the presence of ATP, the kinase becomes autophosphorylated and can catalyze the phosphorylation of the alpha subunit of eIF2, which leads to an inhibition of the initiation of protein synthesis. Here we report the molecular cloning and characterization of several related cDNAs from which can be deduced the full-length p68 kinase sequence. All of the cDNAs identify a 2.5 kb RNA that is strongly induced by interferon. The deduced amino acid sequence of the p68 kinase predicts a protein of 550 amino acids containing all of the conserved domains specific for members of the protein kinase family, including the catalytic domain characteristic of serine/threonine kinases. In vitro translation of a reconstructed full-length p68 kinase cDNA yields a protein of 68 kd that binds dsRNA, is recognized by a monoclonal antibody raised against the native p68 kinase, and is autophosphorylated.
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PMID:Molecular cloning and characterization of the human double-stranded RNA-activated protein kinase induced by interferon. 169 51

The double-stranded (ds) RNA-activated protein kinase from human cells is a 68,000 Mr protein (p68 kinase) induced by interferon. When autophosphorylated, p68 kinase catalyzes the phosphorylation of the protein synthesis eukaryotic initiation factor-2, thus mediating inhibition of protein synthesis. The level of p68 kinase is dramatically reduced in nonionic detergent NP-40 extracts, obtained from interferon-treated cells during infection with encephalomyocarditis virus (EMCV) (A. G. Hovanessian, J. Galabru, E. Meurs, C. Buffet-Janvresse, J. Svab and N. Robert, Virology 159, 126-136, 1987). Here we show that such reduction of p68 kinase is in fact due to its reduced NP-40 solubility occurring during EMCV infection. However, p68 kinase can be recovered by extraction with an ionic detergent. Reduced NP-40 extractibility of p68 kinase is dependent on the multiplicity of virus infection and seems to be specific, since other cellular proteins as well as the 100-kDa 2',5'-oligoadenylate synthetase also induced by interferon are not modified. Immunofluorescence studies using specific antibodies demonstrated that p68 kinase which is distributed evenly in the cytoplasm of HeLa cells becomes concentrated around the nuclei after EMCV infection. As a consequence of aggregating around the nuclei, p68 kinase might then resist extraction by NP-40. The aggregated kinase is found to be already activated probably due to binding to the replicative form and/or to replicative intermediates of EMCV RNA. Through this process, the functioning of p68 kinase might be guaranteed by a localized activation in the replication complexes of EMCV.
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PMID:Modified subcellular localization of interferon-induced p68 kinase during encephalomyocarditis virus infection. 170 May 39

Eukaryotic viruses have devised numerous strategies to downregulate activity of the interferon-induced, double-stranded (dsRNA)-activated protein kinase (referred to as p68 on the basis of its Mr of 68,000 in human cells). Viruses must exert this control to avoid extensive phosphorylation of the alpha subunit of eukaryotic initiation factor 2 (eIF-2) by p68 and the resultant negative effects on protein synthesis initiation. To begin to define the molecular mechanisms underlying this regulation, we optimized expression of p68 in an in vitro transcription-translation system utilizing the full-length cDNA clone. The in vitro-expressed kinase was autophosphorylated in response to dsRNAs and heparin in a manner similar to that for the native p68 provided that the kinase inhibitor, 2-aminopurine, was present during the in vitro translation reaction. Further, the activated kinase efficiently phosphorylated its natural substrate, the alpha subunit of eIF-2. Binding experiments revealed that the expressed kinase complexed with the dsRNA activator, reovirus dsRNA, as well as the adenovirus-encoded inhibitor, VAI RNA. Interestingly, both the reovirus RNAs and VAI RNA also complexed with protein kinase molecules that lacked the carboxyl terminus and all catalytic domains. Deletion analysis confirmed that the p68 amino terminus contained critical determinants for reovirus dsRNA and VAI RNA binding. Further, reovirus dsRNA efficiently bound to, but failed to activate, p68 kinase molecules containing a single amino acid substitution in the invariant lysine 295 present in catalytic domain II. Taken together, these data demonstrate that this expression system permits a detailed mutagenic analysis of the regions of p68 required for interaction with virus-encoded activators and repressors.
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PMID:Functional expression and RNA binding analysis of the interferon-induced, double-stranded RNA-activated, 68,000-Mr protein kinase in a cell-free system. 171 30

The tat-responsive region (TAR) of the human immunodeficiency virus-1 (HIV-1) exhibits a trans-inhibitory effect on translation in vitro by activating the interferon-induced 68-kilodalton protein kinase (p68 kinase). Productive infection by HIV-1 was shown to result in a significant decrease in the amount of cellular p68 kinase. The steady-state amount of p68 kinase was also reduced in interferon-treated HeLa cell lines stably expressing tat, as compared to the amount of the kinase in interferon-treated control HeLa cells. Thus, the potential translational inhibitory effects of the TAR RNA region mediated by activation of p68 kinase may be downregulated by tat during productive HIV-1 infection.
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PMID:Control of the interferon-induced 68-kilodalton protein kinase by the HIV-1 tat gene product. 218 64

The double-stranded RNA-dependent protein kinase from human cells is a 68,000 molecular weight protein (p68 kinase), the level of which is enhanced significantly in cells treated with interferon. With a monoclonal antibody specific for p68 kinase, here we show the phosphorylation and steady-state levels of p68 kinase during virus infection. The p68 kinase is phosphorylated in interferon-treated cells during infection with encephalomyocarditis virus (EMCV), vesicular stomatitis virus (VSV), and vaccinia virus, thus indicating activation of p68 kinase during these virus infections, an essential step required for autophosphorylation of p68 kinase. However, in spite of this activation, the level of p68 kinase is rapidly decreased in virus-infected cells. The half-life of p68 kinase in uninfected cells is 6 to 7 hr, whereas in EMCV-infected cells it is 2 to 3 hr. This decrease in the level of p68 kinase is dependent on the multiplicity of virus infection and it seems to be specific since other cellular proteins as well as the activity of 2'-5'-oligoadenylate synthetase are not modified. Decreased levels of p68 kinase are also observed in cells infected with VSV and vaccinia virus. In the absence of virus infection, decreased levels of p68 kinase occur in cells following incubation with poly(I).poly(C).
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PMID:Rapid decrease in the levels of the double-stranded RNA-dependent protein kinase during virus infections. 244 Jan 79

Previous studies have shown that the antiviral response induced by interferon in murine cells could be degraded after a heat shock. Here we have confirmed that a similar effect occurs also in interferon-treated human HeLa cells subjected to a heat shock. In addition, we have investigated the fate of the interferon-induced, double-stranded RNA-dependent protein kinase in heat-shocked cells. This protein kinase is a Mr 68,000 protein (p68 kinase) which, when autophosphorylated, catalyzes phosphorylation of the protein synthesis eukaryotic initiation factor-2, thus mediating inhibition of protein synthesis. After heat shock of interferon-treated HeLa cells, the double-stranded RNA-dependent autophosphorylation of p68 kinase in cytoplasmic extracts is greatly reduced whereas the phosphorylation of other cellular proteins is not affected. In vivo, autophosphorylation of p68 kinase is also reduced in heat-shocked cells whereas there is no apparent effect on the phosphorylation state of other proteins. In such cells, the interferon-mediated antiviral response becomes modified according to the virus challenge, i.e. these cells remain resistant to vesicular stomatitis virus but become partially sensitive to encephalomyocarditis virus (EMCV) infection. The reduction in the activity of p68 kinase is due to its reduced nonionic detergent solubility occurring during the heat shock period. The resultant reduced detergent extractibility of p68 kinase is dependent on the intensity of the thermal stress. In contrast to the effect after a heat shock, arsenite treatment of interferon-treated HeLa cells induces heat shock proteins, but neither modifies the antiviral response nor affects the extractibility of p68 kinase. These results indicate that the degradation of the anti-EMCV response and reduced p68 kinase activity occur in response to heat treatment independently of the induction of heat shock proteins. The role of p68 kinase in the mechanism of the antiviral response against EMCV and vesicular stomatitis virus is discussed.
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PMID:Reduced activity of the interferon-induced double-stranded RNA-dependent protein kinase during a heat shock stress. 254

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