EC:2.7.11.26 - FACTA Search

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Query: EC:2.7.11.26 (GSK)
6,788 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Polyclonal antibodies have been raised against two synthetic peptides reproducing the 48-64 and 353-369 sequences of CSK, a protein tyrosine kinase implicated in the down-regulation of src-related protein kinases. Both antibodies specifically recognize recombinant CSK and a CSK-related 49 kDa protein tyrosine kinase present in spleen but they do not cross-react with purified TPK-IIB, a spleen protein tyrosine kinase sharing with CSK catalytic activity toward src kinases and incapability to autophosphorylate. CSK and TPK-IIB once resolved from each other by heparin-Sepharose affinity chromatography, display opposite specificities toward synthetic peptides reproducing the sequences around the main phosphoacceptor residues of pp60c-src, namely Tyr-416 and Tyr-527. These data support the view that TPK-IIB and CSK may exert opposite effects on the activity of src-related protein tyrosine kinases.
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PMID:Spleen protein tyrosine kinases TPK-IIB and CSK display different immunoreactivity and opposite specificities toward c-src-derived peptides. 128 Feb 30

The L-myc protein migrates as three distinct differentially phosphorylated bands in sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). This phosphorylation can be rapidly increased either by treatment with the protein kinase C (PKC) activator phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA) or by inhibition of serine/threonine protein phosphatases with okadaic acid. In vitro mutagenesis and phosphoamino acid analyses define the N-terminal serine residues 38 and 42 of L-myc as critical targets for the PKC-dependent phosphorylation. These are the exclusive sites of phosphorylation in the N-terminal third of the L-myc protein, and can be phosphorylated in vitro by glycogen synthase kinase 3 beta (GSK-3 beta). A mutant L-myc protein in which these serines have been replaced by alanine residues does not show heterogeneous electrophoretic migration or hyperphosphorylation in response to PKC activation, and is not a substrate for GSK-3 beta in vitro. Similar potential phosphorylation sites are present in c-myc and N-myc in a highly conserved region thought to represent a transcriptional activation domain. We suggest that N-terminal phosphorylation of the L-myc protein is a means of rapid regulation of this oncoprotein, possibly mediated in vivo by the action of GSK-3.
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PMID:Activation of protein kinase C increases phosphorylation of the L-myc trans-activator domain at a GSK-3 target site. 131 97

Multifunctional ATP-citrate lyase kinase (ACLK) exhibits several properties that are similar to glycogen-synthase kinase-3 (GSK-3). The molecular cloning of two distinct mammalian GSK-3 cDNAs and a Drosophila melanogaster (fruitfly) homologue, zeste-white3sgg, has established the existence of a GSK-3 subfamily. A multifunctional protein kinase first identified as an ACLK has recently been shown to exhibit several similarities to the alpha- and beta-forms of GSK-3. Here we have used immunological and biochemical analyses to directly compare these enzymes. Thus purified preparations of ACLK isolated from brain and liver preferentially cross-react with anti-GSK-3 alpha antisera and phosphorylate previously defined substrates of GSK-3 at identical sites. Conversely, both alpha- and beta-forms of GSK-3 phosphorylated ATP-citrate lyase at the same site(s) targeted by ACLK. These, and other similarities, demonstrate ACLK to be identical with, or highly related to, GSK-3 alpha, the implications of which are discussed.
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PMID:Identification of multifunctional ATP-citrate lyase kinase as the alpha-isoform of glycogen synthase kinase-3. 133 98

Thiamin and its mono- (TMP), di- (TDP) and triphosphate (TTP) were assayed in adult human whole blood using high-performance liquid chromatography (HPLC). TDP and TTP were detected in red blood cells (RBC), but not in plasma. After incubation with 20 microM thiamin and 5 mM glucose for 2 h, the TDP and TTP contents of RBC increased from 111 to 222 and 0.6 to 2.2 nmol/l of packed RBC, respectively, suggesting enzymatic conversion of thiamin to TDP and then to TTP. Thiamin pyrophosphokinase (TPK, EC 2.7.6.2) had not been isolated before from human materials, nor had cytosolic adenylate kinase (AK1, EC 2.7.4.3) in human RBC been demonstrated to catalyze the phosphorylation of TDP to TTP, although AK1 from pig and chicken skeletal muscle possess TTP-synthesizing activity. TPK and AK1 in a human RBC lysate were therefore purified by a series of the conventional techniques. The specific activity of the purified TPK, which was obtained as a single protein, was 720 nmol TDP formed/mg protein per h at 37 degrees C. A partially purified AK1 preparation catalyzed the formation of TTP from TDP (specific activity, 170 nmol/mg protein per h at 37 degrees C) in addition to its proper reaction to form ATP from ADP. After incubation of the purified TPK and AK1 with 20 microM thiamin in the presence of ATP, ADP and Mg2+ at 37 degrees C for 48 h, the amounts of TDP and TTP synthesized were 465 and 54.0 pmol/250 microliters reaction mixture, respectively. Neither TDP nor TTP was formed when TPK was omitted from the reaction mixture and an omission of AK1 resulted in the formation of TDP alone. These results indicate that thiamin is converted to TDP by TPK and, subsequently, to TTP by AK1 in human RBC.
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PMID:Identification, purification and reconstitution of thiamin metabolizing enzymes in human red blood cells. 133 81

Study of GSK-3 had an inauspicious beginning rooted in intermediary metabolism. However, owing to the fortuitous convergence of several disparate areas of biology, the enzyme now offers unique opportunities for study of the control of a variety cellular processes. While at first sight a role in transcriptional regulation appears unlikely for a protein first identified as acting on glycogen synthase, it is even more surprising that the same protein should be functionally interchangeable with a fruit fly homeotic gene. Such understandable scepticism, however, is based on teleological bias. Glycogen synthase is a critical enzyme regulating glucose storage. The c-Jun oncoprotein may have the potential to transform cells but this does not excuse it from similar mechanisms of control to glycogen synthase. Likewise, homeotic genes play a crucial role in setting up the body plan of an embryo but must also be subject to control. The main difference is that when such control is lost, the result is rather graphic. It is, therefore, only to be expected that regulatory protein kinases will surface in superficially quite unrelated areas and that many of their targets will be 'housekeeping' proteins. Perhaps the most difficult aspect of protein phosphorylation research is the linking of physiological substrates with particular protein kinases, hence reconstructing pathways. No matter how compelling in vitro data appear, there must be demonstration that the protein is targeted by the specific protein kinase in cells, an extremely difficult process. Most progress in this respect has been made using genetic analysis in lower organisms, especially yeast. Here another problem arises: demonstration of biochemical linkages underlying genetic interactions which requires function to be ascribed to genes identified by a gross effect. The challenge is to co-ordinate these two approaches, a strategy currently being employed to further unravel the biological role of GSK-3.
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PMID:Glycogen synthase kinase-3: functions in oncogenesis and development. 133 7

Glycogen synthase kinase-3 (GSK-3) reduced the mobility of human tau on SDS-PAGE, prevented binding of the monoclonal antibody (mAb), Tau.1, and induced binding of the mAb 8D8. Recombinant tau phosphorylated by GSK-3 aligned on SDS-PAGE with the abnormally phosphorylated tau (PHF-tau) associated with the paired helical filaments in Alzheimer's disease brain. Phosphorylated serine396 (numbering of the largest human brain tau isoform) was identified as a binding site on tau for mAb 8D8. The localisation of GSK-3 within granular structures in pyramidal cells indicates that GSK-3 alpha and GSK-3 beta may have a role in the production of PHF-tau in Alzheimer's disease.
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PMID:Glycogen synthase kinase-3 induces Alzheimer's disease-like phosphorylation of tau: generation of paired helical filament epitopes and neuronal localisation of the kinase. 133 52

Molecular cloning of glycogen synthase kinase-3 (GSK-3) has demonstrated the existence of a novel form, termed GSK-3 beta, which is highly related to the well characterised GSK-3 alpha protein but derived from a distinct gene. The cDNA cloning also revealed a striking degree of amino acid identity between the two GSK-3 proteins, particularly the beta-form, and the zeste-white3/shaggy (zw3sgg) homeotic gene of Drosophila melanogaster. Abrogation of zw3sgg causes pleiotropic effects on fruitfly development affecting segmental organisation and cell fate determination. In view of the potential importance of GSK-3 beta in mammalian development and the lack of previous characterisation, we have expressed this protein in insect cells using recombinant baculovirus. A rapid purification scheme has been developed yielding essentially pure GSK-3 beta protein in three chromatographic steps. The protein has autonomous protein kinase activity and similar, but not identical, substrate preferences to GSK-3 alpha. Both GSK-3 proteins activate the MgATP-dependent form of protein phosphatase-1 and thus display 'factor A' activity. Since GSK-3 beta exhibits an identical site specificity to GSK-3 alpha with respect to phosphorylation of the proto-oncogene/transcription factors c-jun and c-myc, it is likely that the Drosophila zw3sgg protein kinase has a similar specificity for such transcription factors which may underlie the pleiotropic phenotypes observed when the Drosophila homologue is mutationally inactivated.
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PMID:Baculovirus-mediated expression and characterisation of rat glycogen synthase kinase-3 beta, the mammalian homologue of the Drosophila melanogaster zeste-white 3sgg homeotic gene product. 134 4

Type 1 protein phosphatases (PP-1) comprise a group of widely distributed enzymes that specifically dephosphorylate serine and threonine residues of certain phosphoproteins. They all contain an isoform of the same catalytic subunit, which has an extremely conserved primary structure. One of the properties of PP-1 that allows one to distinguish them from other serine/threonine protein phosphatases is their sensitivity to inhibition by two proteins, termed inhibitor 1 and inhibitor 2, or modulator. The latter protein can also form a 1:1 complex with the catalytic subunit that slowly inactivates upon incubation. This complex is reactivated in vitro by incubation with MgATP and protein kinase FA/GSK-3. In the cell the type 1 catalytic subunit is associated with noncatalytic subunits that determine the activity, the substrate specificity, and the subcellular location of the phosphatase. PP-1 plays an essential role in glycogen metabolism, calcium transport, muscle contraction, intracellular transport, protein synthesis, and cell division. The activity of PP-1 is regulated by hormones like insulin, glucagon, alpha- and beta-adrenergic agonists, glucocorticoids, and thyroid hormones.
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PMID:The structure, role, and regulation of type 1 protein phosphatases. 135 Feb 40

A tyrosine protein kinase (TPK-I), isolated from rat spleen [Brunati, A. M. & Pinna, L. A. (1988) Eur. J. Biochem. 172, 451-457] and recently identified as the product of the lyn oncogene [Brunati, A. M., Donella-Deana, A., Ralph, S., Marchiori, F., Borin, G., Fischer, S. & Pinna, L. A. (1991) Biochim. Biophys. Acta 1901, 123-126], is stimulated by a variety of effectors, including poly(lysine), heparin and very high NaCl concentrations. The efficacy of these compounds is variably dependent on the nature of the phosphoacceptor peptide substrates. Here we show that poly(lysine), but neither NaCl nor heparin, specifically enhances the phosphorylation efficiency of lyn TPK for the peptide EDNEYTA (src peptide). It reproduces the main autophosphorylation site of pp60c-src (Tyr416), which is entirely conserved in lyn TPK. The favourable effect of poly(lysine) is accounted for by both a dramatic drop of the Km value (70 microM versus 670 microM) and more than a threefold increase in Vmax. The effect is not so evident with a variety of different peptides, either unrelated to the src peptide (e.g. angiotensin II, AAYAA) or derived from the src peptide by single or multiple substitutions of the residues located on the N-terminal side of tyrosine. In particular, the responsiveness to poly(lysine) is dramatically reduced whenever alanine is replaced for either asparagine at position -2 or glutamic acid at position -1, either in the src heptapeptide or in its shorter derivative, the pentapeptide NEYTA. In sharp contrast, the favourable effect of 2 M NaCl, which is invariably accounted for only by an increased Vmax, is especially evident with peptides like angiotensin II and AAYAA, whose phosphorylation is less sensitive to poly(lysine) stimulation. The phosphorylation of the src peptides are actually inhibited rather than stimulated by 2 M NaCl. Consistent with this, lyn TPK autophosphorylation is also dramatically stimulated by poly(lysine) while being inhibited by 2 M NaCl. These data show that poly(lysine) deeply alters the selectivity of lyn TPK by conferring to it an enhanced activity and an especially high affinity toward peptides that reproduce the conserved autophosphorylation site of the TPK of the src family. It is suggested that endogenous compound, whose effect is mimicked by poly(lysine) in vitro, may play a relevant role in determining the specificity of lyn TPK in vivo and possibly of other TPK of the src family.
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PMID:Selective effect of poly(lysine) on the enhancement of the lyn tyrosine protein kinase activity. Increased specificity toward src peptides. 137 54

Solid-phase ELISAs for the determination of EGF receptor (EGF-R) and pp60c-src tyrosine protein kinase activity are described. The methods were developed and optimized using purified recombinant EGF-R intracellular domain (ICD) and pp60c-src tyrosine protein kinases. A standardized assay that utilizes poly (GluNa-Tyr)4:1 as substrate and a monoclonal antiphosphotyrosine antibody for detection is described. Assay conditions for both enzymes were optimized with respect to substrate and ELISA plate-coating condition, divalent metal ion preferences, enzyme concentration, apparent kinetic constants for ATP, and reaction linearity. Following standardization, a number of reference tyrosine protein kinase inhibitors were tested in the ELISAs and compared to results obtained using solution-phase radioactive tyrosine protein kinase assays, which are based on the transfer of 32P from [gamma-32P]ATP to synthetic substrate. To enable a comprehensive comparison, IC50 values obtained in the ELISA were compared with values obtained in radioactive assays using both the holo-EGF-R and EGF-R ICD kinases. No substantial qualitative differences between these assays were seen. For many routine tyrosine protein kinase assays, semiquantitative or qualitative measurement of TPK activity is adequate. For such purposes, the ELISAs would be an attractive alternative to radioactive assays.
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PMID:Development of solid-phase enzyme-linked immunosorbent assays for the determination of epidermal growth factor receptor and pp60c-src tyrosine protein kinase activity. 138 73

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