UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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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.
Crit Rev Biochem Mol Biol 1992
PMID:The structure, role, and regulation of type 1 protein phosphatases. 135 Feb 40

Glycogen synthase kinase-3 (GSK-3) was purified from rabbit liver to homogeneity by ultracentrifugation, ion-exchange chromatography on DEAE-cellulose, Cellulose phosphate, CM-Sephadex and Fast Protein Liquid Chromatography (FPLC) on Mono-S column. The enzyme was purified approximately 20,000 fold with an approximate 2% recovery. The purified enzyme showed a single band on SDS-polyacrylamide gel electrophoresis. GSK-3 is a monomeric enzyme with a molecular weight of 50,000-52,000 as derived from SDS-polyacrylamide gel electrophoresis and gel filtration. The purified enzyme was indeed a GSK-3 since it phosphorylated three sites, i.e., 3a, 3b, and 3c on liver glycogen synthase. GSK-3 incorporated up to 2.6 mol Pi/mol glycogen synthase subunit with a concomitant inactivation of glycogen synthase activity.
Mol Cell Biochem 1990 Jun 25
PMID:Purification and partial characterization of glycogen synthase kinase-3 from rabbit liver. 216 42

Addition of glucose or related fermentable sugars to derepressed cells of the yeast Saccharomyces cerevisiae triggers a RAS-mediated cyclic AMP (cAMP) signal that induces a protein phosphorylation cascade. In yeast mutants (tpk1w1, tpk2w1, and tpk3w1) containing reduced activity of cAMP-dependent protein kinase, fermentable sugars, as opposed to nonfermentable carbon sources, induced a permanent hyperaccumulation of cAMP. This finding confirms previous conclusions that fermentable sugars are specific stimulators of cAMP synthesis in yeast cells. Despite the huge cAMP levels present in these mutants, deletion of the gene (BCY1) coding for the regulatory subunit of cAMP-dependent protein kinase severely reduced hyperaccumulation of cAMP. Glucose-induced hyperaccumulation of cAMP was also observed in exponential-phase glucose-grown cells of the tpklw1 and tpk2w1 strains but not the tpk3w1 strain even though addition of glucose to glucose-repressed wild-type cells did not induce a cAMP signal. Investigation of mitochondrial respiration by in vivo 31P nuclear magnetic resonance spectroscopy showed the tpk1w1 and tpk2w1 strains, to be defective in glucose repression. These results are consistent with the idea that the signal transmission pathway from glucose to adenyl cyclase contains a glucose-repressible protein. They also show that a certain level of cAMP-dependent protein phosphorylation is required for glucose repression. Investigation of the glucose-induced cAMP signal and glucose-induced activation of trehalase in derepressed cells of strains containing only one of the wild-type TPK genes indicates that the transient nature of the cAMP signal is due to feedback inhibition by cAMP-dependent protein kinase.
Mol Cell Biol 1990 Sep
PMID:Glucose-induced hyperaccumulation of cyclic AMP and defective glucose repression in yeast strains with reduced activity of cyclic AMP-dependent protein kinase. 220 93

The conservation in evolution of fundamental signal transduction modules offers a means of isolating genes likely to be involved in plant development. We have amplified by PCR Arabidopsis cDNA and genomic sequences related to the product of the shaggy/zeste-white 3 (sgg) segment polarity gene of Drosophila. This regulatory protein is functionally homologous to glycogen synthase kinase-3 in mammals (GSK-3), which regulates, among others, the DNA-binding activity of the c-jun/AP1 transcription factor. Analysis of PCR products led to the identification of five genes; for two of which, corresponding full-length cDNAs, ASK-alpha and gamma (for Arabidopsis shaggy-related protein kinase), were characterized. The encoded proteins were 70% identical to GSK-3 and sgg over the protein kinase catalytic domain and, after production in Escherichia coli, autophosphorylated mainly on threonine and serine residues, but phosphotyrosine was also detected. ASK-alpha and ASK-gamma also phosphorylated phosphatase inhibitor-2 and myelin basic protein, on threonine and serine, respectively. The high conservation of the protein kinases of GSK-3 family, and their action at the transcriptional level, suggest that the ASK proteins have important functions in higher plants.
Mol Gen Genet 1994 Feb
PMID:Arabidopsis homologs of the shaggy and GSK-3 protein kinases: molecular cloning and functional expression in Escherichia coli. 750 23

We report here the isolation of the Arabidopsis thaliana gene AtK-1. The predicted protein sequence of AtK-1 shows 70% identity to the Arabidopsis ASK and alfalfa MsK kinases that are homologs of the Drosophila shaggy and rat GSK-3 serine/threonine protein kinases playing an important role in signal transduction processes in animals. Northern analysis of different organs revealed exclusive expression in inflorescences suggesting an involvement of the AtK-1 kinase in reproduction-specific processes.
Plant Mol Biol 1995 Jan
PMID:Inflorescence-specific expression of AtK-1, a novel Arabidopsis thaliana homologue of shaggy/glycogen synthase kinase-3. 786 93

We report the cloning of the skp1+ gene, a Schizosaccharomyces pombe homolog of the glycogen synthase kinase 3 (GSK-3) family whose members in higher eukaryotes are involved in cell fate determination, nuclear signalling, and hormonal regulation. skp1 is 67% identical to mammalian GSK-3 beta and displays similar biochemical properties in vitro. Like GSK-3 beta, skp1 is phosphorylated on a conserved tyrosine residue, and this phosphorylation is required for efficient activity. skp1 is also phosphorylated at a serine which has been identified as S-335. Phosphorylation at this site is likely to inhibit its function. Unlike the mammalian enzyme, skp1 both tyrosine autophosphorylates in yeast cells and can phosphorylate other proteins on tyrosine in bacteria. The skp1+ gene is not essential. However, cells with deletions in skp1+ are sensitive to heat shock and exhibit defects in sporulation. Overexpression of wild-type skp1+ specifically complements cdc14-118, one of several mutations causing a defect in cytokinesis. In addition, certain phosphorylation site mutants induce a delay or block in cytokinesis when overexpressed. Together, these data identify novel interactions of a fission yeast GSK-3 homolog with elements of the cytokinesis machinery.
Mol Cell Biol 1996 Jan
PMID:Schizosaccharomyces pombe skp1+ encodes a protein kinase related to mammalian glycogen synthase kinase 3 and complements a cdc14 cytokinesis mutant. 906 3

Of 21 phosphorylation sites identified in PHF-tau 11 are on ser/thr-X motifs and are probably phosphorylated by non-proline-dependent protein kinases (non-PDPKs). The identities of the non-PDPKs and how they interact to hyperphosphorylate PHF-tau are still unclear. In a previous study we have shown that the rate of phosphorylation of human tau 39 by a PDPK (GSK-3) was increased several fold if tau were first prephosphorylated by non-PDPKs (Singh et al., FEBS Lett 358: 267-272, 1995). In this study we have examined how the specificity of a non-PDPK for different sites on human tau 39 is modulated when tau is prephosphorylated by other non-PDPKs (A-kinase, C-kinase, CK-1, CaM kinase II) as well as a PDPK (GSK-3). We found that the rate of phosphorylation of tau 39 by a non-PDPK can be stimulated if tau were first prephosphorylated by other non-PDPKs. Of the four non-PDPKs only CK-1 can phosphorylate sites (thr 231, ser 396, ser 404) known to be present in PHF-tau. Further, these sites were phosphorylated more rapidly and to a greater extent by CK-1 if tau 39 were first prephosphorylated by A-kinase, CaM kinase II or GSK-3. These results suggest that the site specificities of the non-PDPKs that participate in PHF-tau hyperphosphorylation can be modulated at the substrate level by the phosphorylation state of tau.
Mol Cell Biochem 1996 Jan 26
PMID:Non-proline-dependent protein kinases phosphorylate several sites found in tau from Alzheimer disease brain. 871 28

Several peptides derived from microtubule-associated tau protein, have been tested as substrates for glycogen synthase kinase 3 (GSK 3). In the absence of cofactors, GSK 3 can modify serines or threonines followed by prolines. In other cases, a phosphorylation in position +4 is required for the phosphorylation of threonine/serine residues. A third type of substrate can be modified by GSK 3 in the presence of heparin. The comparison of GSK 3 with other kinases suggests some similar features of this kinase with proline-directed protein kinases, such as cdc-2 or mitogen-activated protein kinase (MAP Kinases,) and also with casein kinase 2 (CK 2). Thus, all these kinases are specifically inhibited by 5,6-Dichloro-1-(beta-D-ribofuranosyl)-benzimidazole (DRB). However, heparin is an inhibitor of CK 2 whereas it activates the modification of certain substrates by GSK 3. A possible explanation for the obtained results is that the consensus sequence for GSK 3 phosphorylation is a serine/threonine adjacent to a proline or other beta-turn former residue and that such recognition could be favoured by the presence of adjacent negative charges or the addition of polyanions.
Mol Cell Biochem 1996 Dec 06
PMID:Glycogen synthase kinase 3 phosphorylation of different residues in the presence of different factors: analysis on tau protein. 897 80

Tau protein from Alzheimer disease (AD) brain is hyperphosphorylated by both proline-dependent protein kinases (PDPKs) and non-PDPKs. It is presently unclear how PDPKs and non-PDPKs interact in tau hyperphosphorylation. Previously we have shown that non-PDPKs can positively modulate the activity of a PDPK (GSK-3) in tau phosphorylation (Singh et al. (1995) FEBS Lett. 358, 267-272). In this study we have investigated whether (A) non-PDPKs can also modulate the activity of the PDPK, cdk5, (B) a PDPK can modulate the activities of another PDPK, as well as non-PDPKs. We found that, like GSK-3, the activity of cdk5 is stimulated if tau were first prephosphorylated by any of several non-PDPKs (A-kinase, C-kinase, CK-1, CaM-kinase II). Prephosphorylation of tau by cdk5 stimulated both the rate and extent of a subsequent phosphorylation catalyzed by GSK-3. Under these conditions thr 231 phosphorylation was especially enhanced (9-fold). No significant stimulation of phosphorylation was observed when the order of these kinases was reversed (i.e. GSK-3 followed by cdk5). By contrast, prephosphorylation of tau by cdk5 served to inhibit subsequent phosphorylation catalyzed by C-kinase and CK-1, but not by A-kinase or CaM-kinase II. Our results suggest that in tau hyperphosphorylation in AD brain, cdk5-catalyzed phosphorylation may serve to upregulate the activity of GSK-3 and down-regulate the activities of C-kinase and CK-1.
Mol Cell Biochem 1997 Feb
PMID:Potentiation of GSK-3-catalyzed Alzheimer-like phosphorylation of human tau by cdk5. 905 86

All six isoforms of the microtubule-associated protein tau are present in hyperphosphorylated states in the brains of patients with Alzheimer's disease (AD). It is presently unclear how such hyperphosphorylation of tau is controlled. In a previous study (Singh et al. Arch Biochem Biophys 328: 43-50, 1996) we have shown that three-repeat taus containing two N-terminal inserts were phosphorylated to higher levels and at different sites compared to those either lacking or containing only one such insert. We have extended these observations in this study by comparing the phosphorylation of tau isoforms containing three-repeats (tau 3, tau 3 L) and four-repeats (tau 4, tau 4 L). In the absence of N-terminal inserts in tau structure (tau 3, tau 4) both CaM kinase II and C-kinase phosphorylated four-repeat tau (tau 4) to a higher extent than three-repeat tau (tau 3). When two N-terminal inserts are present in tau structure (tau 3 L, tau 4 L), then three-repeat tau (tau 3 L) is phosphorylated to a higher extent than four-repeat tau (tau 4 L) by these kinases. CK-1 and GSK-3 phosphorylated each of the above pairs of three-repeat and four-repeat taus to the same extents. However, after an initial prephosphorylation of the taus by CaM kinase II, GSK-3 differentially phosphorylated three-repeat and four-repeat taus. Under these conditions thr 231, ser 235, ser 396, and ser 404 were phosphorylated to greater extents in four-repeat tau (tau 4) compared to three-repeat tau (tau 3) in the absence of N-terminal inserts. In the presence of such inserts these sites were phosphorylated to greater extents in three-repeat (tau 3 L) compared to four-repeat (tau 4 L) tau. Our results indicate that the extents to which tau isoforms are phosphorylated in normal and AD brain depends on (a) the number of repeats (3 or 4), (b) the number of N-terminal inserts (0, 1, or 2), and (c) the initial phosphorylation state of tau.
Mol Cell Biochem 1997 Mar
PMID:Protein kinase C and calcium/calmodulin-dependent protein kinase II phosphorylate three-repeat and four-repeat tau isoforms at different rates. 906 3

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