UNIPROT:P67775 - FACTA Search

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Query: UNIPROT:P67775 (alpha isoform)
797 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The chromosome region 11q is frequently deleted in colorectal cancers. The PPP2R1B tumor suppressor gene, encoding the beta isoform of the A subunit of serine/threonine-specific protein phosphatase 2A (PP2A-Abeta), located at 11q22-23, is inactivated in patients with cancer. The present study investigated whether or not PP2A-Abeta is altered in colorectal cancers. We searched for alterations of the PPP2R1B gene and interactions between PP2A-Abeta and PP2A-C proteins in 50 surgically resected colorectal cancer tissues. Missense mutations and homozygous deletions of the PPP2R1B gene were found in 4 of 50 patients (8%) and in 1 of 50 patients, respectively, with colorectal cancers. Deletions and/or point mutations within 412-601 amino acid sequences (binding regions of PP2A-C protein) of the PPP2R1B gene derived from colorectal cancer tissues inhibited co-immunoprecipitation of PP2A-Abeta and PP2A-C proteins. These finding suggested that the PPP2R1B gene functions as a tumor suppressor gene and acts as a molecular switch that becomes active in response to specific up-stream signals. Upon activation, the gene alters the activities of specific downstream target proteins for the cell cycle regulations and/or metabolism in some colorectal cancers.
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PMID:PPP2R1B gene alterations inhibit interaction of PP2A-Abeta and PP2A-C proteins in colorectal cancers. 1476 17

We have recently shown that in colon cancer cells, Vitamin D receptor (VDR) interacts with the catalytic subunit of Ser/Thr protein phosphatases, PP1c and PP2Ac, and induces their enzymatic activity in a ligand-dependent manner. The VDR-PP1c and VDR-PP2Ac interactions were ligand independent in vivo, and 1,25-dihydroxyvitamin D(3) (1,25(OH)(2)D(3))-mediated increase in VDR-associated phosphatase activity resulted in dephosphorylation and inactivation of p70S6 kinase in colon cancer cells. Here, we demonstrate that in myeloid leukemia cells, 1,25(OH)(2)D(3) treatment increased the Thr389 phosphorylation of p70S6 kinase. Accordingly, 1,25(OH)(2)D(3) decreased VDR-associated Ser/Thr protein phosphatase activity by dissociating VDR-PP1c and VDR-PP2Ac interactions. Further, 1,25(OH)(2)D(3) increased the association between VDR and Thr389 phosphorylated p70S6 kinase. Finally, by using non-secosteroidal VDR ligands, we demonstrate a separation between transactivation and p70S6 kinase phosphorylation activities of VDR and show pharmacologically that p70S6 kinase phosphorylation correlates with HL-60 cell differentiation.
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PMID:Ligand modulates VDR-Ser/Thr protein phosphatase interaction and p70S6 kinase phosphorylation in a cell-context-dependent manner. 1522 71

Caveolae are small invaginations of the cell membrane that are thought to play a role in important physiological functions such as cell surface signaling, endocytosis and intracellular cholesterol transport. Caveolin-1 is a key protein in these domains and contributes to the organization of cholesterol and saturated lipids within these vesicular invaginations of the plasma membrane. Caveolae are thought to be involved in the signaling of tyrosine kinase receptors and serine threonine receptors. In this article we focus on the involvement of caveolae in the signal transduction of bone morphogenetic proteins (BMPs). BMPs play important roles during embryonic development and especially in chondrogenesis, osteogenesis, neurogenesis and hematopoiesis. The initiation of the signal tranduction starts by the binding of a BMP to a corresponding set of BMP receptors. Using image cross-correlation spectroscopy, we show that the BMP receptors BRIa and BRII colocalize with caveolin-1 isoforms alpha and beta on the cell surface. BRIa colocalizes predominantly with the caveolin-1 alpha isoform. Coexpression of BRII leads to a redistribution of BRIa into domains enriched in caveolin-1 beta. After stimulation with BMP-2, BRIa moves back into the region with caveolin-1 alpha. BRII is expressed in regions enriched in caveolin-1 alpha and beta. Stimulation of cells with BMP-2 leads to a redistribution of BRII into domains enriched in caveolin-1 alpha. Immunoprecipitation studies using transfected COS-7 cells indicate that BRII binds to caveolin-1 alpha and beta. The binding of BRII to caveolin-1 was verified using A431 cells. Stimulation of starved A431 cells with BMP-2 lead to a release of caveolin-1 from the BMP receptors. We show further that the caveolin-1 beta isoform inhibits BMP signaling whereas the alpha isoform does not.
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PMID:Dynamics and interaction of caveolin-1 isoforms with BMP-receptors. 1565 86

Activation of insulin receptors stimulates the phosphoinositide 3-kinase (PI3-K)/Akt signaling pathway in vascular endothelial cells. Heterotrimeric G proteins appear to modulate some of the cellular responses that are initiated by receptor tyrosine kinases, but the roles of specific G protein subunits in signaling are less clearly defined. We found that insulin treatment of cultured bovine aortic endothelial cells (BAEC) activates the alpha isoform of PI3-K (PI3-Kalpha) and discovered that purified G protein Gbeta1gamma2 inhibits PI3-Kalpha enzyme activity. Transfection of BAEC with a duplex siRNA targeting bovine Gbeta1 leads to a 90% knockdown in Gbeta1 protein levels, with no effect on expression of other G protein subunits. siRNA-mediated Gbeta1 knockdown markedly and specifically potentiates insulin-dependent activation of kinase Akt, likely reflecting the removal of the inhibitory effect of Gbetagamma on PI3-Kalpha activity. Insulin-induced tyrosine phosphorylation of insulin receptors is unaffected by Gbeta1 siRNA. By contrast, Gbeta1 knockdown leads to a significant decrease in the level of serine phosphorylation of the insulin receptor substrate IRS-1. We explored the effects of siRNA on several serine/threonine protein kinases that have been implicated in insulin signaling. Gbeta1 siRNA significantly attenuates phosphorylation of the 70 kDa ribosomal protein S6 kinase (p70S6K) in the basal state and following insulin treatment. We also found that IGF-1-initiated activation of Akt is significantly enhanced after siRNA-mediated Gbeta1 knockdown, while IGF-1-induced p70S6K activation is markedly suppressed following transfection of Gbeta1 siRNA. We propose that Gbeta1 participates in the activation of p70S6K, which in turn promotes the serine phosphorylation and inhibition of IRS-1. Taken together, these studies suggest that Gbeta1 plays an important role in insulin and IGF-1 signaling in endothelial cells, both by inhibiting the activity of PI3-Kalpha and by stimulating pathways that lead to activation of protein kinase p70S6K and to the serine phosphorylation of IRS-1.
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PMID:Insulin signaling in vascular endothelial cells: a key role for heterotrimeric G proteins revealed by siRNA-mediated Gbeta1 knockdown. 1680 Jun 27

Alpha4 phosphoprotein in the mTOR pathway is a prolactin (PRL)-downregulated gene product that interacts with the catalytic subunit of serine/threonine protein phosphatase 2A (PP2Ac) in rat Nb2 lymphoma cells. Transient overexpression of alpha4 in COS-1 cells inhibited PRL-inducible interferon-regulatory-1 (IRF-1) promoter activity, but the mechanism underlying this inhibition was not known. The present study showed a stable alpha4-PP2Ac complex that was not dissociated by rapamycin in COS-1 cells. Transient overexpression of alpha4 in COS-1 cells had no effect on endogenous PP2Ac protein levels but significantly increased PP2Ac carboxymethylation and PP2A activity as compared to controls. The increased PP2A activity was accompanied by decreased phosphorylation of eukaryotic initiation factor 4E-binding protein (4E-BP1) but had no effect on Stat phosphorylation. However, overexpressed alpha4 decreased arginine methylation of Stat1alpha and increased Stat1alpha binding to the Stat1alpha-specific inhibitor, PIAS1. In summary, ectopic alpha4 increased PP2A activity in COS-1 cells and this was accompanied by Stat1alpha hypomethylation and increased Stat1alpha-PIAS1 association. These events would inhibit Stat action and ultimately inhibit PRL-inducible IRF-1 promoter activity.
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PMID:Overexpression of the mTOR alpha4 phosphoprotein activates protein phosphatase 2A and increases Stat1alpha binding to PIAS1. 1708 18

The protein phosphatase 2A (PP2A) is a serine/threonine phosphatase involved in the regulation of multiple signaling pathways including the Wnt/beta-catenin and the ERK pathways. To understand the complex signaling networking associated with PP2A, we searched proteins interacting with the catalytic subunit of protein phosphatase 2A (PP2Ac) by a pull-down analysis followed by 2-D gel electrophoresis and proteomic analyses. The probability of identification of the proteins interacting with PP2Ac was increased by searching proteins differently interacting with PP2Ac according to stimulation of Wnt3a, which regulates both the Wnt/beta-catenin and the ERK pathways. Around 100 proteins, pulled-down by His-tagged PP2Ac, were identified in 2-D gels stained with CBB. By MALDI-TOF-MS analyses of 45 protein spots, we identified several proteins that were previously known to interact with PP2A, such as Axin and CaMK IV. In addition, we also identified many proteins that potentially interact with PP2Ac. The interactions of several candidate proteins, such as tuberous sclerosis complex 2, RhoB, R-Ras, and Nm23H2, with PP2Ac, were confirmed by in vitro binding analyses and/or coimmunoprecipitation experiments.
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PMID:Identification of proteins interacting with the catalytic subunit of PP2A by proteomics. 1716 75

In the context of fibroblast growth factor (FGF) signaling, Sprouty2 (Spry2) is the most profound inhibitor of the Ras/ERK pathway as compared with other Spry isoforms. An exclusive, necessary, but cryptic PXXPXR motif in the C terminus of Spry2 is revealed upon stimulation. The activation of Spry2 appears to be linked to sequences in the N-terminal half of the protein and correlated with a bandshifting seen on SDS-PAGE. The band-shifting is likely caused by changes in the phosphorylation status of key Ser and Thr residues following receptor stimulation. Dephosphorylation of at least two conserved Ser residues (Ser-112 and Ser-115) within a conserved Ser/Thr sequence is accomplished upon stimulation by a phosphatase that binds to Spry2 around residues 50-60. We show that human Spry2 co-immunoprecipitates with both the catalytic and the regulatory subunits of protein phosphatase 2A (PP2A-C and PP2A-A, respectively) in cells upon FGF receptor (FGFR) activation. PP2A-A binds directly to Spry2, but not to Spry2Delta50-60 (Delta50-60), and the activity of PP2A increases with both FGF treatment and FGFR1 overexpression. c-Cbl and PP2A-A compete for binding centered around Tyr-55 on Spry2. We show that there are at least two distinct pools of Spry2, one that binds PP2A and another that binds c-Cbl. c-Cbl binding likely targets Spry2 for ubiquitin-linked destruction, whereas the phosphatase binding and activity are necessary to dephosphorylate specific Ser/Thr residues. The resulting change in tertiary structure enables the Pro-rich motif to be revealed with subsequent binding of Grb2, a necessary step for Spry2 to act as a Ras/ERK pathway inhibitor in FGF signaling.
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PMID:Direct binding of PP2A to Sprouty2 and phosphorylation changes are a prerequisite for ERK inhibition downstream of fibroblast growth factor receptor stimulation. 1725 9

The prototypical form of the Ser/Thr phosphatase PP2A is a heterotrimeric complex consisting of catalytic subunit (C), and A and B regulatory subunits. C-terminal methylation of PP2A-C influences holoenzyme assembly. Using late gestation development in the rat as an in vivo model of liver growth, we found that PP2A-C protein and activity levels were higher in fetal compared to adult liver extracts. However, unmethylated PP2A-C was much higher in the adult extracts. In MonoQ fractionation, unmethylated C eluted separately from methylated C, which was present predominantly in ABC heterotrimers. Gel filtration chromatography revealed that some unmethylated C was present as free catalytic subunit in adult liver. In addition, a significant proportion of PP2A was in inactive forms that may involve novel regulatory subunits. Our results indicate that methylation of PP2A-C appears to be a primary determinant for the biogenesis of PP2A heterotrimers.
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PMID:Subunit composition and developmental regulation of hepatic protein phosphatase 2A (PP2A). 1739 44

Type 2A serine/threonine phosphatases are part of the PPP subfamily that is formed by PP2A, PP4 and PP6, and participate in a variety of cellular processes including transcription, translation, regulation of the cell cycle, signal transduction and apoptosis. PP2A is found predominantly as a heterotrimer formed by the catalytic subunit (C) and by a regulatory (B, B' or B'') and a scaffolding (A) subunit. Yeast Tap42p and Tip41p are regulators of type 2A phosphatases, playing antagonistic roles in the target of rapamycin signaling pathway. alpha4 and target of rapamycin signaling pathway regulator-like (TIPRL) are the respective mammalian orthologs of Tap42p and Tip41p. alpha4 has been characterized as an essential protein implicated in cell signaling, differentiation and survival; by contrast, the role of mammalian TIPRL is still poorly understood. In this study, a yeast two-hybrid screen revealed that TIPRL interacts with the C-terminal region of the catalytic subunits of PP2A, PP4 and PP6. Tauhe TIPRL-interacting region on the catalytic subunit was mapped to residues 210-309 and does not overlap with the alpha4-binding region, as shown by yeast two-hybrid and pull-down assays using recombinant proteins. TIPRL and alpha4 can bind PP2Ac simultaneously, forming a stable ternary complex. Reverse two-hybrid assays revealed that single amino acid substitutions on TIPRL including D71L, I136T, M196V and D198N can block its interaction with PP2Ac. TIPRL inhibits PP2Ac activity in vitro and forms a rapamycin-insensitive complex with PP2Ac and alpha4 in human cells. These results suggest the existence of a novel PP2A heterotrimer (alpha4:PP2Ac:TIPRL) in mammalian cells.
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PMID:Interaction analysis of the heterotrimer formed by the phosphatase 2A catalytic subunit, alpha4 and the mammalian ortholog of yeast Tip41 (TIPRL). 1794 32

Phospho-Ser/Thr protein phosphatases (PPs) are dinuclear metalloenzymes classed into two large families, PPP and PPM, on the basis of sequence similarity and metal ion dependence. The archetype of the PPM family is the alpha isoform of human PP2C (PP2Calpha), which folds into an alpha/beta domain similar to those of PPP enzymes. The recent structural studies of three bacterial PPM phosphatases, Mycobacterium tuberculosis MtPstP, Mycobacterium smegmatis MspP, and Streptococcus agalactiae STP, confirmed the conservation of the overall fold and dinuclear metal center in the family, but surprisingly revealed the presence of a third conserved metal-binding site in the active site. To gain insight into the roles of the three-metal center in bacterial enzymes, we report structural and metal-binding studies of MtPstP and MspP. The structure of MtPstP in a new trigonal crystal form revealed a fully active enzyme with the canonical dinuclear metal center but without the third metal ion bound to the catalytic site. The absence of metal correlates with a partially unstructured flap segment, indicating that the third manganese ion contributes to reposition the flap, but is dispensable for catalysis. Studies of metal binding to MspP using isothermal titration calorimetry revealed that the three Mn(2+)-binding sites display distinct affinities, with dissociation constants in the nano- and micromolar range for the two catalytic metal ions and a significantly lower affinity for the third metal-binding site. In agreement, the structure of inactive MspP at acidic pH was determined at atomic resolution and shown to lack the third metal ion in the active site. Structural comparisons of all bacterial phosphatases revealed positional variations in the third metal-binding site that are correlated with the presence of bound substrate and the conformation of the flap segment, supporting a role of this metal ion in assisting enzyme-substrate interactions.
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PMID:Structural and binding studies of the three-metal center in two mycobacterial PPM Ser/Thr protein phosphatases. 1796 94

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