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)

Apoptosis is a mechanism of cell death that occurs in normal development and on the regulation of vertebrate tissues and organ cellularity. Neurons undergo p53-dependent and p53-independent apoptosis, depending upon the stimulus that triggers DNA fragmentation. Many neurons in the developing nervous system suffer apoptosis, with the cyclin D1 being an essential mediator of neuronal cell death. Other characteristics of apoptosis are: condensation of the nucleus, fragmentation of chromatin at nucleosome linkage sites, membrane blebbing, and the formation of apoptotic bodies. Among the possible molecular mechanisms are: (a) activation of proteases, as ICE (Il-1 beta converting enzyme); (b) calpain is activated in several cells, with PARP (Poly-ADP-ribose polymerase) and a small U1 Ribonucleoprotein, being substrates for ICE and its homologs such as ICH and others proteins. The p53 gene encodes a transcription factor that contributes to several different cellular activities, including apoptosis, the cellular response to radiation, and the activation of proteins such as GADD, Bcl-2 (represses to apoptosis) and Bax. P53 exerts a role as inductor of apoptosis by transactivating expression of the Bax gene. The p53 gene tumor suppressor limits cellular proliferation by including either the arrest of cell cycle in G1, or apoptosis, depending on the cellular context. The p21 is an inhibitor of cyclin-dependent kinase, which is transactivated by p53. During apoptosis, there is an activation of both, c-myc, and the transcription factor NF-kB, which is a important regulator of apoptosis. As an example of signalization of apoptosis we have selected to illustrate the problem related to the system Fas/APO in thymocytes.
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PMID:[Molecular bases of the programmed cell death process: implications of tumor suppressor protein p53 and other proteins in the control of cell cycle. Mechanisms of apoptotic action. Review]. 992 5

PKR is an interferon-inducible, double-stranded (ds) RNA-activated serine/threonine protein kinase, and has been shown to play roles in viral pathogenesis, cell growth and apoptosis. We expressed PKR as a fusion protein with enhanced jellyfish green fluorescence protein (EGFP) in human embryonic kidney 293 cells to visualize the effect of PKR transfection. The EGFP-fusion construct with wild-type PKR showed both auto- and substrate-phosphorylation activities independent of dsRNA, indicating EGFP-PKR is constitutively active. The EGFP-construct with a mutant PKR with the first RNA binding domain deleted still possessed kinase activities. On the other hand, the EGFP-fusion with a catalytically inactive mutant of PKR with the substitution of K at 296 with R, which has been shown to have tumorigenic properties, did not possess kinase activities. Transfection of the constitutive active forms of EGFP-PKR constructs induced apoptosis in 293 cells without dsRNA, whereas the EGFP-fusion with the catalytically inactive mutant did not cause apoptosis but rather protected cells from Fas-induced cell death. In addition, Fas-stimulation increased endogenous PKR activities. These results constitute evidence that PKR is sufficient to induce apoptosis, and plays a role in Fas-mediated apoptosis.
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PMID:Double-stranded RNA-activated protein kinase (PKR) fused to green fluorescent protein induces apoptosis of human embryonic kidney cells: possible role in the Fas signaling pathway. 999 Jan 39

The E2F transcription factor plays a major role in cell cycle regulation, differentiation and apoptosis, but it is not clear how it is regulated by non-mitogenic signaling cascades. Here we report that two kinases involved in signal transduction have opposite effects on E2F function: the stress-induced kinase JNK1 inhibits E2F1 activity whereas the related p38 kinase reverses Rb-mediated repression of E2F1. JNK1 phosphorylates E2F1 in vitro, and co-transfection of JNK1 reduces the DNA binding activity of E2F1; treatment of cells with TNFalpha had a similar effect. Fas stimulation of Jurkat cells is known to induce p38 kinase and we find a pronounced increase in Rb phosphorylation within 30 min of Fas stimulation. Phosphorylation of Rb correlated with a dissociation of E2F and increased transcriptional activity. The inactivation of Rb by Fas was blocked by SB203580, a p38-specific inhibitor, as well as a dominant-negative p38 construct; cyclin-dependent kinase (cdk) inhibitors as well as dominant-negative cdks had no effect. These results suggest that Fas-mediated inactivation of Rb is mediated via the p38 kinase, independent of cdks. The Rb/E2F-mediated cell cycle regulatory pathway appears to be a normal target for non-mitogenic signaling cascades and could be involved in mediating the cellular effects of such signals.
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PMID:Regulation of Rb and E2F by signal transduction cascades: divergent effects of JNK1 and p38 kinases. 1007 27

Protein kinase CK2 is a ubiquitous, highly conserved protein kinase with a tetrameric alpha2beta2 structure. For the formation of this tetrameric complex a beta-alpha dimer seems to be a prerequisite. Using the two-hybrid system and a series of CK2beta deletion mutants, we mapped domains involved in alpha-beta and beta-beta interactions. We also detected an intramolecular beta interaction within the amino acid stretch 132-165. Using CK2beta as a bait in a two-hybrid library screening several new putative cellular partners have been identified, among them the S6 kinase p90rsk, the putative tumor suppressor protein Doc-1, the Fas-associated protein FAF1, the mitochondrial translational initiation factor 2 and propionyl CoA carboxylase beta subunit.
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PMID:Interactions of protein kinase CK2beta subunit within the holoenzyme and with other proteins. 1009 92

PKR is an interferon-induced dsRNA-dependent protein kinase involved in the antiviral response as well as in cell growth and differentiation. Studies using a transdominant negative mutant of PKR also have implicated the kinase in tumor suppression and apoptosis. However, functional studies of PKR have been hampered by the lack of a suitable expression system. In this study, we used a tetracycline-regulated inducible system in NIH3T3 cells to investigate the involvement of PKR in programmed cell death (apoptosis). We show that expression of wild-type PKR causes apoptosis and correlates with increased mRNA levels for the Fas receptor, a member of the tumor necrosis family of proteins. Expression of an inactive form of PKR (K296R) or the vector alone did not induce apoptosis or elevate Fas mRNA levels. Our results clearly demonstrate that expression of an active form of PKR triggers apoptosis, possibly through upregulation of the Fas receptor.
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PMID:Regulatable expression of the interferon-induced double-stranded RNA dependent protein kinase PKR induces apoptosis and fas receptor expression. 1019 Nov 97

Caveolae-like domains (CLDs) have been hypothesized to mediate apoptosis, since they contain sphingomyelin and initiate the conversion of sphingomyelin to ceramide. To address whether CLDs are directly involved in apoptosis, CLDs from U937 cells were isolated, taking advantage of their detergent insolubility and low density. The CLDs contained alkaline phosphatase as well as many signaling molecules, including Fyn, protein kinase Calpha, Raf-1, phospholipase Cgamma1, and tyrosine phosphoproteins. Immunoblotting and immunofluorescent data showed that TNF receptor 1 colocalized with CD36 in CLDs, suggesting that TNF-alpha-initiated apoptosis occurs in CLDs. When cells were incubated with lipoprotein-deficient medium, the cholesterol concentration was greatly decreased in CLDs but not in other fractions, implying that the CLDs were selectively disrupted. In the CLD-disrupted cells, the surface expression of TNF receptor 1 and CD36 was significantly reduced. Analysis of cellular morphology, percent DNA fragmentation, DNA laddering, and caspase-3 activity showed that TNF-alpha-mediated apoptosis was blocked in CLD-disrupted cells, whereas anti-Fas-mediated apoptosis was not. Since Fas was not found in CLDs of Jurkat cells, apoptosis by Fas ligation might not require CLDs. Taken together, these data strongly imply that TNF-alpha-mediated apoptosis is initiated in CLDs.
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PMID:TNF-alpha-mediated apoptosis is initiated in caveolae-like domains. 1035 68

The double-stranded (ds) RNA-dependent protein kinase (PKR) is a key mediator of antiviral effects of interferon (IFN) and an active player in apoptosis induced by different stimuli. The translation initiation factor eIF-2alpha (alpha subunit of eukaryotic translation initiation factor 2) and IkappaBalpha, the inhibitor of the transcription factor NF-kappaB, have been proposed as downstream mediators of PKR effects. To evaluate the involvement of NF-kappaB and eIF-2alpha in the induction of apoptosis by PKR, we have used vaccinia virus (VV) recombinants that inducibly express PKR concomitantly with a dominant negative mutant of eIF-2alpha or a repressor form of IkappaBalpha. We found that while expression of PKR by a VV vector resulted in extensive inhibition of protein synthesis and induction of apoptosis, coexpression of PKR with a dominant negative mutant of eIF-2alpha (Ser-51-->Ala) reversed both the PKR-mediated translational block and PKR-induced apoptosis. Coexpression of PKR with a repressor form of IkappaBalpha (Ser-32, 36-Ala) also leads to the inhibition of apoptosis by abolishing NF-kappaB induction, while translation remains blocked. Treating cells with two different proteasome inhibitors which block IkappaBalpha degradation, prevented PKR-induced apoptosis, supporting results from coexpression studies. Biochemical analysis and transient assays revealed that PKR expression by a VV vector induced NF-kappaB binding and transactivation. In addition, upregulation of Fas mRNA transcription occurred during PKR activation. Our findings provide direct evidence for the involvement of eIF-2alpha and NF-kappaB in the induction of apoptosis by PKR.
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PMID:Induction of apoptosis by double-stranded-RNA-dependent protein kinase (PKR) involves the alpha subunit of eukaryotic translation initiation factor 2 and NF-kappaB. 1037 14

During development, excess neurons are eliminated by programmed cell death. Similarly, conditionally immortalized (SV40-Tts) rat hippocampal and septal cells undergo cell death following differentiation with several factors such as fibroblast growth factor, constitutively activated Raf-1, or phorbol esters. The mechanism by which cell death occurs has not been identified. Using RNA differential display, we have identified and characterized a novel immediate early gene (denoted PQR for proline- and glutamine-rich) induced during differentiation of both rat hippocampal and septal cell lines. The 44-kDa PQR protein, rich in PQ, PH, and QQ repeats, is homologous to a murine protein (TDAG51) required for Fas-mediated apoptosis in T cells. To determine whether PQR acts as a mediator of apoptosis in neuronal cells, the hippocampal H19-7 cells were microinjected with either a plasmid expressing PQR cDNA or an antibody against PQR. Microinjection of differentiating H19-7 cells with a neutralizing antibody against PQR increased the number of surviving cells by 50%. Transient expression of PQR in both differentiating and nondifferentiating H19-7 cells decreased the number of surviving cells by 35-50%; this reduction was reversed by microinjection of PQR antibody. Finally, levels of Fas transcripts are not increased in the neuronal cells, indicating that the mechanism of action differs from that in T cells. These results demonstrate that PQR can be induced by growth factors and differentiating agents and can itself induce apoptosis in hippocampal H19-7 cells. Furthermore, these data suggest that PQR can function more generally as a mediator of apoptosis and provide a possible mechanism for induction of programmed cell death during neuronal development.
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PMID:A proline- and glutamine-rich protein promotes apoptosis in neuronal cells. 1042 57

A member of the mitogen-activated protein (MAP) kinase family, Jun N-terminal kinase (JNK), has been implicated in regulating apoptosis in various cell types. We have investigated the requirement for another type of MAP kinase, extracellular signal-regulated protein kinase (ERK) in activation-induced cell death (AICD) of T cells. AICD is the process by which recently activated T cells undergo apoptosis when restimulated through the T-cell antigen receptor. Here we show that both JNK and ERK are activated rapidly upon T-cell receptor (TCR) ligation prior to the onset of AICD. A chemical inhibitor of ERK activation, PD 098059, inhibits ERK activation and apoptosis, while JNK activation is not inhibited. This suggests that JNK activation is not sufficient for apoptosis. TCR cross-linking induces expression of the apoptosis-inducing factor, Fas ligand (FasL), and its expression correlates with ERK activation. In addition, apoptosis induced by direct ligation of the Fas receptor by anti-Fas antibody is not associated with ERK activation and is not inhibited by PD 098059. These data suggest that ERK activation is an early event during T-cell apoptosis induced by antigen-receptor ligation, and is not involved in apoptosis per se but in the expression of FasL. MAP kinase family members may be similarly involved in inducing apoptosis signals in other cell types.
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PMID:Role of mitogen-activated protein kinases in activation-induced apoptosis of T cells. 1044 11

The Cdc2L locus encoding the PITSLRE protein kinases maps to chromosome band 1p36 and consists of two duplicated and tandemly linked genes. The purpose of the present study was to determine whether diminution of PITSLRE kinases leads to deregulation of apoptosis. The human melanoma cell lines A375 (Cdc2L wild-type alleles) and UACC 1227 (mutant Cdc2L alleles) were tested with agonist anti-Fas monoclonal antibody. We found that exposure of these cells to anti-Fas for 24, 48, or 72 h resulted in differential sensitivity to Fas-induced apoptosis. In A375, cell death started at 24-48 h post-treatment, and it was maximal by 72 h. Conversely, UACC 1227 cells were resistant to Fas-mediated apoptosis. Induction of PITSLRE histone H1 kinase activity was observed in A375 anti-Fas treated but not in UACC 1227 cells. Also, the PITSLRE protein kinase activity in A375 anti-Fas-treated cells preceded maximal levels of apoptosis. Finally, fluorescence confocal microscopy revealed a nuclear localization of PITSLRE proteins in normal melanocytes and A375 cells but a cytoplasmic localization in UACC 1227 cells. The differences in PITSLRE protein and cellular localization between A375 and UACC 1227 cells appear to account for the differences in sensitivity of the two cells lines to anti-Fas and staurosporine. These observations suggest that alterations in PITSLRE gene expression and protein localization may result in the loss of apoptotic signaling.
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PMID:Fas-induced apoptosis in human malignant melanoma cell lines is associated with the activation of the p34(cdc2)-related PITSLRE protein kinases. 1049 14

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