Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Rat CD16 is defined here by a family of highly homologous class III Fc gamma receptor isoforms. Northern blot and polymerase chain reaction analysis indicate that multiple rtFc gamma RIII alpha isoforms are expressed by rat NK and macrophages contrasting the expression of a single class III receptor isoform by human and mouse NK and macrophages. Analysis of genomic Southern blots and splice variants identified by polymerase chain reaction suggests the existence of several homologous rat Fc gamma RIII alpha genes organized similar to human and mouse class III receptor genes. All rat Fc gamma RIII alpha isoform protein sequences have conventional transmembrane insertion sequences containing the unique LFAVDTGL motif conserved in all other class III Fc gamma and Fc epsilon RI alpha receptor sequences. A model is proposed for the protein-protein interactions between this sequence and the transmembrane sequences of two heteroprotein subunits, Fc epsilon RI gamma and CD3 zeta, known to interact with human and mouse class III receptors. Rat NK, monocytes, and neutrophils were all found to express transcripts for both of these subunits, whereas rat macrophages express only Fc epsilon RI gamma subunit transcripts. Furthermore, the Fc epsilon RI gamma subunit was found to promote the cell surface expression of rtFc gamma RIII alpha isoforms in transfected COS cells.
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PMID:Rat CD16 is defined by a family of class III Fc gamma receptors requiring co-expression of heteroprotein subunits. 171 Feb 49

Although the protein kinase inhibitors (PKIs) are known to be potent and specific inhibitors of the catalytic (C) subunit of cAMP-dependent protein kinase, little is known about their physiological roles. Glutamate 203 of the C alpha isoform (C alpha E203) has been implicated in the binding of the arginine 15 residue of the skeletal isoform of PKI (PKI alpha R15) (Knighton, D. R., Zheng, J., Ten Eyck, L. F., Xuong, N., Taylor, S.S., and Sowadski, J. M. (1991) Science 253, 414-420). To investigate the role of C alpha E203 in the binding of PKI and in vivo C-PKI interactions, in vitro mutagenesis was used to change the C alpha E203 codon of the murine C alpha cDNA to alanine and glutamine codons. Initially, the C alpha E203 mutant proteins were expressed and purified from Escherichia coli. C alpha E203 is not essential for catalysis as all of the C subunit mutants were enzymatically active. The mutation of Glu203 did increase the apparent Km for Leu-Arg-Arg-Ala-Ser-Leu-Gly (Kemptide) severalfold but did not affect the apparent Km for ATP. The Vmax(app) was not affected by the mutation of C alpha E203. The mutation of C alpha E203 compromised the ability of PKI alpha (5-24), PKI alpha, and PKI beta to inhibit phosphotransferase activity. PKI alpha was altered using in vitro mutagenesis to probe the role of Arg15 in interacting with C alpha E203. The PKI alpha R15A mutant was reduced in its inhibition of C alpha. Preliminary studies of the expression of these C alpha mutants in COS cells gave similar results. These results suggest that the C alpha E203 mutants may be useful in assessing the role of PKI in vivo.
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PMID:Glutamic acid 203 of the cAMP-dependent protein kinase catalytic subunit participates in the inhibition by two isoforms of the protein kinase inhibitor. 790 1

The influence of inositol phosphates and phosphoinositides on the alpha isoform of the RAC-protein kinase B (RAC/PKB) was studied using purified wild type and mutant kinase preparations and a recombinant pleckstrin homology (PH) domain. Binding of inositol phosphates and phosphoinositides to the PH domain was measured as the quenching of intrinsic tryptophan fluorescence. Inositol phosphates and D3-phosphorylated phosphoinositides bound with affinities of 1-10 microM and 0.5 microM, respectively. Similar values were obtained using RAC/PKB expressed and purified from baculovirus-infected Sf9 cells in the fluorescence assay. The influence of synthetic dioctanoyl derivatives of phosphatidylinositol 3,4-bisphosphate and phosphatidylinositol 3,4,5-trisphosphate on the activity of RAC/PKB purified from transfected COS-1 cells was studied. Phosphatidylinositol 3,4,5-trisphosphate was found to inhibit the RAC/PKB kinase activity with half-maximal inhibition at 2.5 microM. In contrast, phosphatidylinositol 3, 4-bisphosphate stimulated kinase activity (half-maximal stimulation at 2.5 microM). A mutant RAC/PKB protein lacking the PH domain was not affected by D3-phosphorylated phosphoinositides. These results demonstrate that the PH domain of RAC/PKB binds inositol phosphates and phosphoinositides with high affinity, and suggest that the products of the phosphatidylinositide 3-kinase can act as both a membrane anchor and modulator of RAC/PKB activity. The data also provide further evidence for a link between phosphatidylinositide 3-kinase and RAC/PKB regulation.
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PMID:High affinity binding of inositol phosphates and phosphoinositides to the pleckstrin homology domain of RAC/protein kinase B and their influence on kinase activity. 907 75

Signalling by MAP kinase was examined in COS-7 cells by transiently expressing a transcription reporter system plus epitope-tagged protein phosphatase 2A catalytic subunit [(HA)3-PP2Ac]. Transactivation of a luciferase gene by GAL4-Elk-1 in serum-stimulated cells was reduced 20-fold by co-expression of wild type (HA)3-PP2Ac. This reduction of MAP kinase signalling required specific type-2A phosphatase activity, because the effects were not mimicked by co-expression of either a mutated, inactive (HA)3-PP2Ac or wild-type PP1Cdelta. Expression of (HA)3-PP2Ac was severely restricted by its own activity because 3-fold more inactive (HA)3-PP2Ac was produced. In a different assay the kinase activity of FLAG-ERK2 was 4-fold lower when co-transfected with (HA)3-PP2Ac, compared to controls. Unexpectedly, mRNA of the reporter constructs were nearly eliminated by even low level expression of (HA)3-PP2Ac in either COS7 or HEK293 cells. The results show that PP2A activity is strictly regulated and can be a limiting factor in ectopic expression of various proteins.
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PMID:Protein phosphatase 2A suppresses MAP kinase signalling and ectopic protein expression. 1043 18

The alpha isoform of the glucocorticoid receptor (GRalpha) binds glucocorticoids and functions as a ligand-dependent transcription factor. Although GRalpha is expressed in almost all tissues and cells, its subcellular distribution is controversial. Many studies have reported that GRalpha translocates from the cytoplasm to the nucleus in a hormone-dependent manner whereas others have concluded that GRalpha is constitutively located in the nucleus. These conflicting data may result from the use of antibodies that do not discriminate GRalpha from a splice variant of the GR gene termed GRbeta. Using a GRbeta-specific antibody, we have recently demonstrated that GRbeta resides in the nucleus of cells independent of glucocorticoid treatment. In the following study we have generated a novel GRalpha-specific antibody (AShGR) in order to assess, unambiguously, the subcellular distribution of GRalpha. AShGR recognizes recombinant GRalpha on Western blots and in immunoprecipitation experiments but does not cross-react with recombinant GRbeta. Endogenous GRalpha is detected by AShGR in a variety of human cell lines including HeLa S3, CEM-C7, HEK-293, MCF-7, Hep G2, and secondary lung epithelial cells. In addition, AShGR detects endogenous rat and mouse GRalpha. Immunocytochemistry was performed with AShGR on COS-I cells transfected with human GRalpha and on HTC rat hepatoma cells expressing endogenous GRalpha. In both systems, GRalpha was found in the cytoplasm of cells in the absence of hormone and in the nucleus after hormone treatment. These studies mark the first time a GRalpha-specific antibody has been employed to examine the expression and subcellular distribution of endogenous GRalpha.
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PMID:Immunocytochemical analysis of the glucocorticoid receptor alpha isoform (GRalpha) using GRalpha-specific antibody. 1049 33

The classical alpha isoform of the estrogen receptor (ER) has been reported to localize almost exclusively in the nucleus. However, studies on non-genomic steroid effects have also suggested the existence of ERs residing at the cell surface. In this work, we present immunological data supporting extra-nuclear ERalpha localization in uterine (SHM) and mammary (MCF-7) cell lines. Immunocytological studies performed on SHM cells revealed that native ERs mainly localize as a perinuclear cytoplasmic ring. The receptors were rapidly translocated to the nucleus by 17beta-estradiol. In addition to nuclear ERs, a peripheral reservoir of ERalpha immunoreactivity, most probably associated with the plasma membrane, was detected in MCF-7 cells. These results were confirmed by the detection of membrane estrogen binding sites using fluorescent estrogen-BSA derivatives and ligand binding assays to intact cells, where [3H]-estradiol could be partly displaced by impeded estrogen conjugates. Partial inhibition of radioligand binding by an antibody against the steroid binding domain of the ERalpha suggests that the isoform faces the extracellular media in MCF-7 cells. Moreover, ERalpha-like proteins ( approximately 67 kDa) were found to be associated in isolated membrane subfractions from the cells. However, immunocytology of COS-1 (ER-negative) and SHM cells transfected with the complete cDNA coding for the cloned ERalpha and beta isoforms showed exclusive nuclear localization of the overexpressed ERs. The non-classical distribution of native ERalpha-like proteins in each cell line, suggests an alternative mode of ERalpha cellular localization/function. Cell type-dependent processing may account for the differential localization shown by native and expressed receptors in the systems considered.
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PMID:Differential cellular localization of estrogen receptor alpha in uterine and mammary cells. 1147 46

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

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

Mammalian alpha4 phosphoprotein, the homolog of yeast Tap42, is a component of the mammalian target-of-rapamycin (mTOR) pathway that regulates ribogenesis, the initiation of translation, and cell-cycle progression. alpha4 is known to interact with the catalytic subunit of protein phosphatase 2A (PP2Ac) and to regulate PP2A activity. Using alpha4 as bait in yeast two-hybrid screening of a human K562 erythroleukemia cDNA library, EDD (E3 isolated by differential display) E3 ubiquitin ligase was identified as a new protein partner of alpha4. EDD is the mammalian ortholog of Drosophila hyperplastic discs gene (hyd) that controls cell proliferation during development. The EDD protein contains a PABC domain that is present in poly(A)-binding protein (PABP), suggesting that PABP may also interact with alpha4. PABP recruits translation factors to the poly(A)-tails of mRNAs. In the present study, immunoprecipitation/immunoblotting (IP/IB) analyses showed a physical interaction between alpha4 and EDD in rat Nb2 T-lymphoma and human MCF-7 breast cancer cell lines. alpha4 also interacted with PABP in Nb2, MCF-7 and the human Jurkat T-leukemic and K562 myeloma cell lines. COS-1 cells, transfected with Flag-tagged-pSG5-EDD, gave a (Flag)-EDD-alpha4 immunocomplex. Furthermore, deletion mutants of alpha4 were constructed to determine the binding site for EDD. IP/IB analysis showed that EDD bound to the C-terminal region of alpha4, independent of the alpha4-PP2Ac binding site. Therefore, in addition to PP2Ac, alpha4 interacts with EDD and PABP, suggesting its involvement in multiple steps in the mTOR pathway that leads to translation initiation and cell-cycle progression.
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PMID:alpha4 phosphoprotein interacts with EDD E3 ubiquitin ligase and poly(A)-binding protein. 2054 96

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