UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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EF-1alpha binds aminoacyl-tRNA to the ribosome with the hydrolysis of GTP; the betagammadelta complex facilitates the exchange of GDP for GTP to initiate another round of elongation. To examine the subunit structure of EF-1 and phosphorylation by protein kinase CKII, recombinant beta, gamma, and delta subunits from rabbit were expressed in E. coli and the subunits were reconstituted into partial and complete complexes and analyzed by gel filtration. To determine the availability of the beta and delta subunits for phosphorylation by CKII, the subunits and the reconstituted complexes were examined as substrates for CKII. Formation of the nucleotide exchange complex increased the rate of phosphorylation of the beta subunit and reduced the Km, while addition of alpha to beta or the betagammacomplex inhibited phosphorylation by CKII. However, alpha had little effect on phosphorylation of delta. Thus, the beta and delta subunits in EF-1 were differentially phosphorylated by CKII, in that phosphorylation of beta was altered by association with other subunits, while the site on delta was always available for phosphorylation by CKII. From the availability of the subunits for phosphorylation by CKII and the composition of the reconstituted partial and complete complexes, a model for the subunit structure of EF-1 consisting of(alpha2betagamma2delta)2 is proposed and discussed.
Mol Cell Biochem 1999 Jan
PMID:A structural model for elongation factor 1 (EF-1) and phosphorylation by protein kinase CKII. 1009 7

The p53 tumour suppressor protein is regulated by several mechanisms including multisite phosphorylation. One of the protein kinases which has an established role in regulating p53 function is the protein kinase CK2. The regulation by CK2 occurs both through interaction of p53 with CK2 itself (the regulatory beta subunit) and phosphorylation at the penultimate residue of p53, serine 386 (murine p53). Strikingly, this phosphorylation event controls several independent functions of p53 including site-specific DNA binding, strand renaturation, transcriptional repression and the anti-proliferative function of p53. However, CK2 is a constitutively-active enzyme and therefore the mechanism by which the phosphorylation of p53 at serine 386 is itself regulated, or indeed the question as to whether phosphorylation of this site is regulated at all, remains unresolved. In this paper we provide evidence that serine 386 is highly resistant to dephosphorylation in cultured cells, even though this site can be dephosphorylated in vitro by recombinant protein phosphatase 1. These data suggest that, once phosphorylated at the CK2 site, a p53 molecule remains in this modified form throughout its lifespan. To address the issue of whether the level of serine 386 phosphorylation may be regulated through controlling the subcellular compartmentalisation of p53 and CK2, we examined the subcellular localisation of p53 and CK2alpha in C57MG cells and Rat-1 fibroblasts by immunofluorescence staining. Both proteins were present in the cytoplasm and enriched in the nucleus, with minor variations in the intensity of subcellular location over the course of the cell cycle. Similarly, activation of p53 by UV irradiation or DNA damage-inducing drugs had no effect on either the localisation or levels of CK2alpha, even although significant nuclear p53 accumulation was observed. A striking observation arising from these studies was the intense staining of CK2alpha with the centrosomes, suggesting a potentially important role for this kinase in microtubule formation and/or chromosomal segregation.
Mol Cell Biochem 1999 Jan
PMID:Protein kinase CK2-dependent regulation of p53 function: evidence that the phosphorylation status of the serine 386 (CK2) site of p53 is constitutive and stable. 1009 8

Neuronal morphogenesis depends on the organization of cytoskeletal elements among which microtubules play a very important role. The organization of microtubules is controlled by the presence of microtubule-associated proteins (MAPs), the activity of which is modulated by phosphorylation and dephosphorylation. One of these MAPs is MAP1B, which is very abundant within growing axons of developing neurons where it is found phosphorylated by several protein kinases including CK2. The expression of MAP1B is notably decreased after neuronal maturation in parallel with a change in the localization of the protein, which becomes largely concentrated in neuronal cell bodies and dendrites. Interestingly, MAP1B remains highly phosphorylated at sites targeted by protein kinase CK2 in mature neurons. We have analyzed the expression and localization of CK2 catalytic subunits along neuronal development. CK2alpha subunit appears early during development whereas CK2alpha' subunit appears within mature neurons at the time of dendrite maturation and synaptogenesis, in parallel with the change in the localization of MAP1B. CK2alpha subunit is found associated with microtubule preparations obtained from either grey matter or white matter from adult bovine brain, whereas CK2alpha' subunit is highly enriched in microtubules obtained from grey matter. These results lend support to the hypothesis that CK2alpha' subunit is concentrated in neuronal cell bodies and dendrites, where it associates with microtubules, thus contributing to the increased phosphorylation of MAP1B in this localization in mature neurons.
Mol Cell Biochem 1999 Jan
PMID:Distribution of CK2, its substrate MAP1B and phosphatases in neuronal cells. 1009 9

Despite its wide range of known substrates, the signaling function of protein kinase CK2 is still enigmatic. Mounting evidence suggests that CK2alpha, the catalytic subunit of holoenzymic CK2, may exist free of its usual regulatory partner CK2beta, raising the possibility that 'free' CK2alpha has regulation and function distinct from those of the holoenzyme. We previously reported that CK2alpha could bind to the core dimer of protein phosphatase 2A, and indirectly cause down-regulation of the PP2A substrate MEK1, possibly via activation of PP2A and/or targeting of PP2A to some element of the Ras/Raf/MEK pathway. Here, these results are confirmed and extended. By using transfection experiments and immune kinase assays, we show that endogenous PP2Ac and CK2beta are the only major substrates associating with epitope-tagged CK2alpha, and that expression of activated Raf results in disruption of the CK2alpha-PP2A association. Such disruption might be a necessary step for maximal activation of the MAP kinase pathway by Raf. In keeping with this idea, overexpression ofCK2alpha dose-dependently inhibits the mitogen-induced activation of cotransfected, epitope-tagged MAP kinase. We suggest that the CK2beta free form of CK2alpha is both a target and a regulator of Raf/MAPK signaling.
Mol Cell Biochem 1999 Jan
PMID:CK2alpha-protein phosphatase 2A molecular complex: possible interaction with the MAP kinase pathway. 1009 10

There are indications from genetic, biochemical and cell biological studies that protein kinase CK2 (formerly casein kinase II) has a variety of functions at different stages in the cell cycle. To further characterize CK2 and its potential roles during cell cycle progression, one of the objectives of this study was to systematically examine the expression of all three subunits of CK2 at different stages in the cell cycle. To achieve this objective, we examined levels of CK2alpha, CK2alpha' and CK2beta on immunoblots as well as CK2 activity in samples prepared from: (i) elutriated populations of MANCA (Burkitt lymphoma) cells, (ii) serum-stimulated GL30-92/R (primary human fibroblasts) cells and (iii) drug-arrested chicken bursal lymphoma BK3A cells. On immunoblots, we observed a significant and co-ordinate increase in the expression of CK2alpha and CK2alpha' following serum stimulation of quiescent human fibroblasts. By comparison, no major fluctuations in CK2 activity were detected during any other stages during the cell cycle. Furthermore, we did not observe any dramatic differences between the relative levels of CK2alpha to CK2alpha' during different stages in the cell cycle. However, we observed a significant increase in the amount of CK2beta relative to CK2alpha in cells arrested with nocodazole. We also examined the activity of CK2 in extracts or in immunoprecipitates prepared from drug-arrested cells. Of particular interest is the observation that the activity of CK2 is not changed in nocodazole-arrested cells. Since CK2 is maximally phosphorylated in these cells, this result suggests that the phosphorylation of CK2 by p34cdc2 does not affect the catalytic activity of CK2. However, the activity of CK2 was increased by incubation with p34cdc2 in vitro. Since this activation was independent of ATP we speculate that p34cdc2 may have an associated factor that stimulates CK2 activity. Collectively, the observations that relative levels of CK2beta increase in mitotic cells, that CK2alpha and CK2beta are phosphorylated in mitotic cells and that p34cdc2 affects CK2 activity in vitro suggest that CK2 does have regulatory functions associated with cell division.
Mol Cell Biochem 1999 Jan
PMID:Expression and regulation of protein kinase CK2 during the cell cycle. 1009 11

In order to aid in an understanding of the cellular functions of protein kinase CK2, a search for interacting proteins was carried out using a 32P-labeled CK2 overlay method. Several proteins were found to associate with CK2 by this assay; among them, one protein of 110 kDa appeared to be the most prominent one. The possible association of CK2 with p110 was suggested by experiments involving the co-immunoprecipitation using anti-CK2 antibodies. Further analysis using GST-CK2 fusion proteins demonstrated that the CK2-p110 interaction occurred through the CK2alpha/alpha' subunits. To identify p110, it was purified using a GST-CK2 affinity column, and internal amino acid sequencing was then performed. p110 was found to be nucleolin, a nucleolar protein that may be important for rRNA synthesis; a possible role of CK2 in the control of this process is suggested. Using the same CK2 overlay technique, another interacting protein, insulin receptor substrate 1 (IRS-1), was also identified. By applying a modified overlay method using individual 35S-labeled CK2 subunits, obtained by in vitro translation in rabbit reticulate lysates, it was determined that CK2 associates with IRS-1 through its alpha/alpha' subunits; i.e. in keeping with the fact that IRS-1 is a known substrate for CK2. However, further work is needed to examine the association of CK2 with IRS-1 in vivo in order to fully understand the significance of the interaction.
Mol Cell Biochem 1999 Jan
PMID:Identification of proteins that associate with protein kinase CK2. 1009 12

Human recombinant CK2 subunits were incubated for different times with the two main cytosolic proteases m-calpain and 20 S proteasome. Both, m-calpain in a calcium dependent manner and the 20 S proteasome, were able to degrade CK2 subunits in vitro. In both cases, CK2alpha' was more resistant to these proteases than CK2alpha. When these proteases were assayed on the reconstituted (alpha2beta2 holoenzyme), a 37 kDa alpha-band, analogous to that observed in AML extracts, was generated which was resistant to further degradation. No degradation was observed when the 26 S proteasome was assayed on free subunits. Studies with CK2alpha deletion mutants showed that m-calpain and the 20 S proteasome acted on the C-terminus end of CK2alpha. These results pointed to cytosolic proteases as agents involved in the control of the amount of free CK2 subunits within the cell, which becomes evident when CK2 is overexpressed as in AML cells.
Mol Cell Biochem 1999 Jan
PMID:Multiple forms of protein kinase CK2 present in leukemic cells: in vitro study of its origin by proteolysis. 1009 13

IkappaBalpha is an inherently unstable protein which binds to and retains the ubiquitous transcription factor NFkappaB in the cytoplasm of resting cells. A continuous low level translocation of NFkappaB to the nucleus, secondary to the basal turnover of IkappaBalpha, is hypothesized to be necessary for cellular maturation, survival and, potentially, transformation. In response to cellular stimulation by inflammatory cytokines or mitogens, IkappaBalpha is rapidly degraded allowing larger pools of NFkappaB to translocate to the nucleus. Phosphorylation of IkappaBalpha at serine 32 (S32) and serine 36 (S36) is necessary for this stimuli-induced degradation. IKKalpha/beta kinases and p90(rsk1)are involved in stimuli-induced targeting of one or both of these IkappaBalpha sites. Whether other kinases phosphorylate S32 and S36 directly, and if so, what function they serve in NFkappaB activation remains unknown. Here we present evidence of a direct phosphorylation of IkappaBalpha at both S32 and S36 by purified or immunoprecipitated protein kinase CKII (PK-CKII) and a specific in vivo association between IkappaBalpha and PK-CKII. This PK-CKII-specific kinase activity is not found within the IKKalpha/beta-containing signalsome complex and is biochemically distinct from that of the IKKalpha/beta kinases. The identification of an additional N-terminal IkappaBalpha kinase which is constitutively active and not significantly inducible raises numerous possibilities as to its role in cellular function.
J Mol Biol 1999 Jul 23
PMID:Serine 32 and serine 36 of IkappaBalpha are directly phosphorylated by protein kinase CKII in vitro. 1039 85

By interaction cloning (yeast two-hybrid system) using the catalytic domain of protein kinase Czeta (PKCzeta) as bait, we cloned a human full-length cDNA with 62% nucleotide homology to the A6 protein recently cloned and characterized by Beeler et al. [Beeler, J.F., LaRochelle, W.J., Chedid, M., Tronick, S.R. & Aaronson, S. A. (1994) Mol. Cell. Biol. 14, 982-988]. The deduced amino acid sequence (349 amino acids) of the A6-related protein (A6rp) contained potential actin-binding sites and ATP-binding sites. We also cloned the murine homolog of A6rp. Human A6rp was expressed in an in-vitro transcriptional/translational system with an apparent molecular mass of 40 kDa and as a glutathione S-transferase (GST) fusion protein in bacteria. A polyclonal anti-(A6rp) was raised in rabbits and used for the identification of A6rp by immunoblotting. A6rp was found to be expressed at the mRNA and the protein levels in all cells and tissues investigated. GST-A6rp was phosphorylated by PKCzeta but not significantly by other PKC isoenzymes. Moreover, it was phosphorylated by casein kinase 2 and most effectively by the tyrosine kinase Src. In contrast to GST-A6rp, GST-A6 was also phosphorylated by PKC isoforms other than PKCzeta and strongly by CK2, but just weakly by Src. In contrast to the results of Beeler et al. on beta-galactosidase-A6, we were unable to demonstrate autokinase activity or tyrosine phosphorylation of either GST-A6 or GST-A6rp. In accordance with the potential ATP-binding sites, both proteins were able to bind ATP.
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PMID:Cloning, expression and characterization of an A6-related protein. 1040 62

Ectonucleotidases provide the signal termination mechanism for purinergic transmission, including fast excitatory neurotransmission by ATP in the CNS. This study provides evidence for ectonucleotidase expression in the rat cochlea, brain and other tissues. In addition to detection of rat ecto-ATPase and ecto-ATPDase in these tissues, we identify a novel ecto-ATPase splice variant arising from the loss of a putative exon (193 bp) in the C-terminal coding region. This is the first evidence of alternative splicing in the ecto-ATPase gene family. Splicing of the 193-bp putative exon containing a stop codon extends the open reading frame and provides translation of an additional 50 amino acids compared with the isoform isolated earlier from the rat brain (rEATPase(A); GenBank accession #Y11835). The splice variant (rEATPase(B); GenBank accession #AF129103) encodes 545 amino acids with a predicted protein molecular mass of 60 kDa. rEATPase(B) contains a long cytoplasmic tail (62 amino acids) with three potential protein kinase CK2 phosphorylation sites not present in rEATPase(A). Co-expression of two ecto-ATPase isoforms with different regulatory sites suggests that the extracellular ATP signal levels may be differently influenced by intracellular feedback pathways.
Brain Res Mol Brain Res 1999 Nov 10
PMID:Evidence for alternative splicing of ecto-ATPase associated with termination of purinergic transmission. 1058 1

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