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)

P68 is a protein kinase expressed by eukaryotic cells, which is inducible by alpha interferon, and is believed to be an important factor in the regulation of viral and cellular protein synthesis. We have previously reported on a monoclonal antibody, TJ4C4, which is able to specifically detect p68 in formalin-fixed, paraffin-embedded tissue. Because of its important role in regulating cellular protein synthesis, we hypothesized that p68 expression would vary among lung neoplasms with level of differentiation and degree of biosynthetic activity. A total of 246 untreated primary pulmonary and pleural neoplasms were studied. The frequency and relative intensity of p68 expression was determined by light microscopic evaluation of ABC immunoperoxidase stained specimens. All categories of tumors studied demonstrated a spectrum of p68 expression. Expression of p68 correlated well with degree of differentiation in squamous cell carcinomas (SQCC) and acinar adenocarcinomas (AAC). Papillary adenocarcinoma (PAC) and bronchioalveolar carcinoma (BAC) expressed low levels of p68, despite their well differentiated appearance. Expression of the antigen in large cell carcinoma (LCC) was higher than that seen in either poorly differentiated AAC or SQCC. Neuroendocrine tumors generally showed low levels of p68 expression with the intermediate variant of small cell carcinoma expressing higher levels of p68 than the classic "oat cell" form (SCC). Carcinoid tumors expressed higher levels of p68 than did atypical carcinoid tumors. Mesotheliomas showed weak expression of p68, limited primarily to areas of glandular differentiation in the epithelioid form.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of the protein kinase p-68 recognized by the monoclonal antibody TJ4C4 in human lung neoplasms. 135 15

The P68 protein kinase (referred to as P68 based on its M(r) of 68,000 in human cells) is a serine/threonine kinase induced by interferon treatment and activated by dsRNAs. The kinase is under tight controls in virus-infected cells since once activated, it phosphorylates its natural substrate eukaryotic initiation factor 2 (elF-2), leading to potential limitations in functional elF-2 and decreases in protein synthesis initiation. To further delineate the molecular mechanisms underlying kinase regulation, we attempted to express the P68 protein kinase in insect cells using a baculovirus vector. Repeated efforts to isolate recombinant baculoviruses containing a wild-type kinase failed, whereas recombinants expressing a nonfunctional kinase with a catalytic domain II mutation were readily isolated. When used to infect Spodoptera frugiperda cells, the recombinant virus expressed the exogenous mutant protein at almost 5-10% of the total proteins synthesized. We then purified the kinase by immunoaffinity chromatography to raise monospecific antiserum which recognized not only the human native wild-type P68, but also kinase homologues in murine, bovine, and monkey cells as determined by immunoblot and immunoprecipitation analysis. Fortunately, kinase function also could be assayed using this antibody since the human and nonhuman kinase homologues, present in immunoprecipitates, were autophosphorylated and phosphorylated the natural substrate, elF-2 alpha. Further, this antiserum recognized epitopes throughout the molecule including the amino and carboxyl termini in contrast to the available monoclonal antibody. In vitro assays using the polyclonal antibody revealed the importance of the amino terminus, especially amino acids 1-97, in the binding of the kinase to viral RNA activators and inhibitors. Finally, we determined that the P68 amino terminus was both necessary and sufficient for binding dsRNA as we were able to transfer dsRNA-binding properties to a reporter gene product previously unable to bind RNA.
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PMID:Detection of protein kinase homologues and viral RNA-binding domains utilizing polyclonal antiserum prepared against a baculovirus-expressed ds RNA-activated 68,000-Da protein kinase. 136 Jan 80

The P68 protein kinase is a serine/threonine kinase induced by interferon treatment and activated by double-stranded RNAs (dsRNAs). Once activated, the kinase phosphorylates its natural substrate, the alpha subunit of eukaryotic initiation factor 2 (eIF-2) leading to potential limitations in functional eIF-2 and decreases in protein synthesis initiation. We have recently purified from influenza virus-infected cells a P68 kinase inhibitor, found to be a 58-kDa cellular protein. We have now investigated the mechanisms by which the 58-kDa inhibitor regulates P68 kinase activity and how the inhibitor itself is controlled. The 58-kDa inhibitor did not function by degrading or sequestering the dsRNA activator of P68 but could repress phosphorylation of eIF-2 alpha by an already activated protein kinase. Utilizing antibody prepared against a 58-kDa-specific peptide, we showed that the 58-kDa proteins from infected and uninfected cells were present in equivalent amounts. Although kinase inhibitory activity could not be detected in crude uninfected cell extracts, ammonium sulfate treatment unmasked this activity and allowed purification of the cellular inhibitor with identical chromatographic properties as that from influenza virus-infected cells. Finally, we have identified and partially purified a specific inhibitor of the 58-kDa protein which we refer to as an "anti-inhibitor." Based on these data, we present a model depicting the complex regulation of the interferon-induced protein kinase in eukaryotic cells.
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PMID:Characterization and regulation of the 58,000-dalton cellular inhibitor of the interferon-induced, dsRNA-activated protein kinase. 137 38

A number of eukaryotic viruses have evolved mechanisms to downregulate activity of the interferon-induced, double-stranded RNA-activated protein kinase (referred to as P68 based on its Mr of 68,000 in human cells). This control is essential because once activated, the P68 kinase phosphorylates its natural substrate, the alpha subunit of the eukaryotic protein synthesis initiation factor 2 (eIF-2), limiting functional eukaryotic protein synthesis initiation factor 2 available for protein synthesis initiation. We have previously shown that influenza virus encoded a specific mechanism to repress the autophosphorylation and activity of P68. Using in vitro assays for P68 inhibition, we now have purified, to near homogeneity, the P68 repressor from influenza virus-infected cells. The purified product inhibited both the autophosphorylation of P68 as well as phosphorylation of the alpha subunit of eukaryotic protein synthesis initiation factor 2 by the kinase. We tested for both protease and phosphatase activity but found neither activity associated with the purified inhibitor. Surprisingly we found the purified repressor, which had an apparent Mr of approximately 58,000, was a cellular and not a viral-encoded protein. Possible mechanisms by which influenza virus activates this cellular regulator of the protein kinase, thereby minimizing potential antiviral effects of interferon, are discussed.
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PMID:Purification and partial characterization of a cellular inhibitor of the interferon-induced protein kinase of Mr 68,000 from influenza virus-infected cells. 169 20

A number of eucaryotic viruses have devised strategies to minimize the deleterious effects on protein synthesis caused by activation of the interferon-induced, double-stranded-RNA-activated protein kinase, P68. In a recent report, we described the down regulation of the P68 protein kinase in cells infected by human immunodeficiency virus type 1 (HIV-1) (S. Roy, M. G. Katze, N. T. Parkin, I. Edery, A. G. Hovanessian, and N. Sonenberg, Science 247:1216-1219, (1990). We now present evidence that such a decrease in amounts of P68 could be essential for HIV-1 replication because of the presence of the Tat-responsive sequence (TAR sequence) present in the 5' untranslated region of HIV-1 mRNAs, which activates the P68 kinase. We found that poly(A)+ mRNAs prepared from HIV-1-infected cells efficiently activated the protein kinase as did mRNAs from stably transformed cell lines constitutively expressing the TAR region. Furthermore, we found that TAR-containing RNAs complexed with purified P68 protein kinase in vitro by two independent assays and could be cross-linked to P68 kinase present in a HeLa cell extract. Experiments using in vitro-synthesized wild-type and mutant TAR RNAs revealed that both the efficient binding to and the activation of P68 kinase were dependent on the TAR RNA stem structure. The TAR-P68 complex could be competed out by a synthetic RNA that bound to and activated the protein kinase but not by a synthetic RNA that bound with low affinity and did not activate P68. The possible biological consequences of a P68-TAR interaction that may include the switch from latent to active virus replication are discussed.
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PMID:The integrity of the stem structure of human immunodeficiency virus type 1 Tat-responsive sequence of RNA is required for interaction with the interferon-induced 68,000-Mr protein kinase. 170 40

The P68 protein (referred to as P68 on the basis of its molecular weight of 68,000 in human cells) is a serine/threonine kinase induced by interferon treatment and activated by double-stranded (ds) RNAs. Although extensively studied, little is currently known about the regulation of kinase function at the molecular level. What is known is that activation of this enzyme triggers a series of events which lead to an inhibition of protein synthesis initiation and may, in turn, play an integral role in the antiviral response to interferon. To begin to understand P68 and its biological functions in the eukaryotic cell, we have expressed the protein kinase in Escherichia coli under control of the bacteriophage T7 promoter. In rifampicin-treated cells, metabolically labeled with [35S]methionine and induced by IPTG, the P68 kinase was the predominant labeled product. Further, P68 was recovered from extracts as a fully functional enzyme, shown by its ability to become activated and phosphorylate its natural substrate, the alpha subunit of eukaryotic protein synthesis initiation factor 2 (eIF-2). Moreover, P68 was phosphorylated in vivo in E. coli, providing conclusive evidence that the kinase has the capacity to phosphorylate and activate itself in the absence of other eukaryotic proteins. In contrast, a mutant P68 protein, containing a single amino acid substitution in the invariant lysine in catalytic domain II, was completely inactive. Interestingly, both the mutant and wild-type protein kinases efficiently bound activator dsRNAs despite the fact that only the latter was activated by these RNAs. Finally, the expressed kinase could be isolated from contaminating E. coli proteins in an active form by immunoaffinity chromatography with a monoclonal antibody specific for P68.
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PMID:Functional expression and characterization of the interferon-induced double-stranded RNA activated P68 protein kinase from Escherichia coli. 171 19

In extracts of FL cells that were infected with Sindbis virus or treated with heat-shock stress, dsRNA-dependent phosphorylation of 77K protein was markedly increased. The 77K phosphoprotein was indistinguishable from the autophosphorylated and activated form of interferon (IFN)-induced dsRNA-dependent protein kinase (PK-I) by two-dimensional gel electrophoresis, and was immunologically related to P68 (Galabru, J. and Hovanessian, A., J. Biol. Chem. 262, 15538 (1987], the HeLa cell counterpart of PK-I. Immunoblotting experiments using monoclonal antibody against PK-I revealed that control cell extracts contained a substantial amount of PK-I protein, although they showed no measurable PK-I activity even when dsRNA was added. The amount of PK-I protein did not increase during a transient dsRNA-dependent enhancement of PK-I activity caused by Sindbis virus infection and heat-shock stress. This implies that the conversion of PK-I protein from a dsRNA-unresponsive form to a responsive form may be important in the regulation of PK-I activity. A similar mode of PK-I regulatory mechanism was operative in the early stages of IFN treatment, although after a prolonged treatment a net synthesis of the PK-I protein did take place.
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PMID:Enhancement of the interferon-induced double-stranded RNA-dependent protein kinase activity by Sindbis virus infection and heat-shock stress. 196 22

We investigated the possible translational regulatory roles played by the interferon-induced, double-stranded-RNA-activated protein kinase (P68) and its natural substrate, eucaryotic initiation factor 2 (eIF-2), in poliovirus-infected cells. We demonstrated that protein kinase P68 was both highly autophosphorylated and activated during poliovirus infection. In accordance with these results, immunoprecipitation analysis revealed that phosphorylation of the endogenous eIF-2 alpha subunit also increased in poliovirus-infected cells. We found that double-stranded RNA synthesized during infection likely induced the high levels of P68 autophosphorylation. To determine whether the increase in kinase activity also could be attributed to induction of P68 synthesis, physical levels of protein kinase were measured. It was unexpectedly found that P68 protein levels did not increase but rather dramatically declined in poliovirus-infected cells. Pulse-chase experiments confirmed that the protein kinase was significantly degraded during virus infection. We corroborated our in vivo observations by developing an in vitro assay for P68 degradation using cell extracts. The possible consequences of P68 degradation and increased eIF-2 alpha phosphorylation for protein synthesis regulation in poliovirus-infected cells are discussed.
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PMID:The cellular 68,000-Mr protein kinase is highly autophosphorylated and activated yet significantly degraded during poliovirus infection: implications for translational regulation. 253 16

We investigated the mechanisms by which influenza virus prevents shutoff of protein synthesis by a cellular protein kinase normally activated during infection. Earlier work has shown that influenza virus superinfection of cells previously infected by the adenovirus VAI RNA-negative mutant dl331 resulted in selective translation of influenza virus mRNAs and suppression of the elevated protein kinase levels normally found in cells infected by the mutant alone (M. G. Katze, B. M. Detjen, B. Safer, and R. M. Krug, Mol. Cell. Biol. 6:1741-1750, 1986). We elucidated the mechanisms of this kinase repression and can now report that influenza virus encodes a gene product which functions to directly block the autophosphorylation and activity of the interferon-induced, double-stranded-RNA-activated protein kinase, P68. Suppressed P68 activity was found not only in doubly infected cells but also in cells infected by influenza virus alone. Moreover, the decrease in P68 activity correlated with a decrease in the endogenous levels of phosphorylation of the alpha subunit of the eucaryotic initiation factor eIF-2, the natural substrate of the protein kinase. Suppression of P68 activity occurred as early as 2 h after influenza virus infection and required viral gene expression beyond the level of primary mRNA transcription to take place. We confirmed our in vivo observations with in vitro mixing experiments which showed that the influenza virus inhibitor can act in trans to block P68 activity. Combined repression of P68 function and eIF-2 alpha phosphorylation during influenza virus infection is essential for continued catalytic recycling of eIF-2 and efficient mRNA translation.
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PMID:Influenza virus regulates protein synthesis during infection by repressing autophosphorylation and activity of the cellular 68,000-Mr protein kinase. 341 83

We have investigated the interaction of VAI RNA with the interferon-induced, double-stranded (ds) RNA-activated protein kinase, P68, both of which regulate protein synthesis in adenovirus-infected cells. Previous work has shown that during infection by the VAI RNA-negative mutant, dl331, both viral and cellular protein synthesis are inhibited due to phosphorylation of the alpha-subunit of the eukaryotic initiation factor, eIF-2, by the P68 protein kinase. Utilizing monoclonal antibodies specific for P68, we demonstrated that the physical levels of P68 in dl331-infected, wild-type Ad2-infected and uninfected cells were all comparable suggesting that the elevated kinase activity detected during mutant infection was not due to increased P68 synthesis. To examine the basis of the increased activity of P68, the protein kinase was purified from infected-cell extracts using the monoclonal antibody. We found that P68 was heavily autophosphorylated during dl331 infection but not during wild-type or mock infection. The extent of autophosphorylation correlated with elevated P68 activity and the loss of the dsRNA requirements to phosphorylate the exogenous substrates, eIF-1 alpha and histones. We also analyzed VAI RNA function in vitro and present evidence that purified VAI RNA can block the autophosphorylation of P68 in the ribosomal salt wash fraction of interferon-treated cells. Finally we suggest VAI RNA functions through a direct interaction with the P68 protein kinase, since we demonstrated that VAI RNA forms a complex with P68 both in vitro and in vivo.
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PMID:Adenovirus VAI RNA complexes with the 68 000 Mr protein kinase to regulate its autophosphorylation and activity. 358 71

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