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)

Calponin is a basic smooth-muscle-specific protein capable of binding to F-actin, tropomyosin and calmodulin in vitro. Using two-dimensional gel electrophoresis, we show that calponin exists as multiple isoelectric variants in avian and mammalian tissues. During chick embryogenesis, one isoform is expressed in gizzard that shows a pI identical to the most basic adult alpha variant; around 10 d after hatching multiple isoforms then appear. SM 22 [Pearlstone, J. R., Weber, M., Lees-Miller, J. P., Carpenter, M. R. & Smillie, L. B. (1987) J. Biol. Chem. 262, 5985-5991], which has sequence-motifs related to calponin, displays a similar isoform pattern during development; one isoform (alpha) is present in the embryo and three in the adult. In living smooth-muscle strips from chicken gizzard and guinea pig taenia coli, labelled with 32PO4, no phosphate incorporation could be detected in any of the calponin or SM 22 isoforms during either contraction or relaxation. From the additional observation that antibodies against phosphoserine also failed to label calponin and SM 22 in two-dimensional gel immunoblots, we conclude that the multiple isoforms do not arise via differential phosphorylation. These results support the claim [Barany, M., Rokolya, A. & Barany, K. (1991) FEBS Lett. 279, 65-68] that calponin phosphorylation is not involved in smooth muscle regulation in vivo, as has been suggested from in vitro studies [Winder, S. J. & Walsh, M. J. (1990) J. Biol. Chem. 265, 10148-10155]. In vitro translation of porcine and chicken smooth-muscle mRNA produced only a single (alpha) isoform of calponin, suggesting that the adult isoforms do not derive from multiple gene products; in the same assay two polypeptides appeared in the position of SM 22, one corresponding to the alpha isoform and a second more basic spot, not observed in tissue samples. Whereas calponin and SM 22 appear synchronously during smooth muscle differentiation in vivo, SM 22 is not fully down-regulated like calponin, metavinculin and heavy-caldesmon in smooth muscle cells in culture, pointing to a differential regulation of expression of the alpha SM 22 isoform during smooth-muscle phenotype modulation in vitro.
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PMID:Calponin and SM 22 isoforms in avian and mammalian smooth muscle. Absence of phosphorylation in vivo. 157 91

Two forms of protein kinase C (PKC) activity in cytosol of cultured rat mesangial cells have been characterized in vitro by using histone H1 or endogenous proteins as substrates. Histones H1-phosphorylation was significantly increased only when calcium, phosphatidylserine (PS) and 1,2-diacylglycerol (DAG) or phorbol myristate acetate (PMA) were present together in the incubation medium. EGTA, a calcium chelator, completely inhibited this activity. Upon hydroxyapatite chromatography (HPLC), the PKC activity was eluted as a main peak at 150 mM potassium phosphate with a shoulder at 180 mM. Both peaks corresponded to the type III PKC from rat brain and were identified as PKC alpha isoform by immunoblot analysis. In contrast with what was observed using histone H1, the increased phosphorylation of endogenous proteins in the presence of a mixture of Ca2+/PS, plus either DAG or PMA, was only partly reduced by EGTA. Moreover, the level of the PKC activity detected in the presence of EGTA was comparable to the level of kinase activity, measured in the presence of PS alone or associated with DAG or PMA. This suggests that mesangial cells contain PKC activity which does not absolutely require calcium. Polyacrylamide gel electrophoresis revealed that patterns of phosphorylated mesangial cell proteins are different depending on whether calcium was added or not. In the presence of calcium, PKC strongly phosphorylated the proteins of 53,000 molecular weight, a doublet of 37,000-39,000, the 24,000 and the triplet of 17,000-20,000-22,000 molecular weight. The addition of EGTA to the assays suppressed completely the labelling of most proteins; only the 20,000 molecular weight protein remained strongly labelled, while the 39,000 molecular weight band was only faintly visible. The same patterns of phosphorylations were obtained after omission of calcium in the assays containing only PS and DAG (or PMA). So, the main substrates of calcium-dependent PKC are proteins of 53,000, 39,000, 37,000, 22,000, 24,000 and 17,000 molecular weight while the protein of 20,000 molecular weight appears to be the main substrate of calcium-independent PKC. The existence in mesangial cells of at least two forms of PKC, which phosphorylate specific endogenous proteins, emphasizes the complexity of the phospholipid-dependent regulatory cascade and raises the possibility that actions of different regulators may be transduced through distinct PKC isozymes.
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PMID:Heterogeneity of protein kinase C in cultured rat mesangial cells. 161 24

We have shown previously (Nishimura, M., Fedorov, S., and Uyeda, K. (1994) (J. Biol. Chem. 269, 26100-26106) that the administration of high concentrations of glucose stimulates dephosphorylation of Fru-6-P,2-kinase: Fru-2,6-bisphosphatase in perfused liver, and xylulose (Xu) 5-P activates the dephosphorylation reaction. To characterize the protein phosphatase, we have purified the Xu 5-P-activated protein phosphatase to homogeneity from livers of rats injected with high glucose. Several protein phosphatases in the livers were separated by DEAE-cellulose chromatography, but only one peak of the enzyme was activated by Xu 5-P. The protein phosphatase was inhibited by okadaic acid (IC50 = 1-3 nM) and did not require Mg2+ or Ca2+, suggesting that the enzyme was type 2A. The enzyme was a heterotrimer (M(r) = 150,000) and consisted of structural (A, 65 kDa) catalytic (C, 36 kDa), and regulatory (B, 52 kDa) subunits. Amino acid sequences of five tryptic peptides derived from the B subunit showed similarity with those of the B alpha isoform of rat protein phosphatase 2A, but five out of 73 residues were different. The protein phosphatase catalyzed dephosphorylation of Fru-6-P,2-kinase:Fru-2,6-Pase, phosphorylase alpha, and pyruvate kinase, and the Km values were 0.8 microM, 3.7 microM, and 2.2 microM, respectively. Among these substrates dephosphorylation of only the bifunctional enzyme was activated by Xu 5-P, and the K alpha value for Xu 5-P was 20 microM. Xu 5-P was the only sugar phosphate which activated the PP2A among all the sugar phosphates examined. These results demonstrated the existence and isolation of a unique heterotrimeric protein phosphatase 2A in rat liver which catalyzed the dephosphorylation of Fru-6-P,2-kinase:Fru-2,6-Pase and was activated specifically by Xu 5-P. The Xu 5-P-activated protein phosphatase 2A explains the increased Fru 2,6-P2 level in liver after high glucose administration.
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PMID:Purification and characterization of a novel xylulose 5-phosphate-activated protein phosphatase catalyzing dephosphorylation of fructose-6-phosphate,2-kinase:fructose-2,6-bisphosphatase. 759 45

Phosphatidylinositol-3 kinase (PI-3 kinase) has been implicated in cellular events such as mitogenic signaling, actin organization, and receptor sorting. The p85 subunit of PI-3 kinase contains multiple domains capable of protein-protein interactions that may contribute to mediate the multiple physiological functions of this enzyme. Here, we demonstrate that antibodies raised against the p85 subunit of PI-3 kinase immunoprecipitate a single tyrosine-phosphorylated protein of 120 kDa (pp120) from lysates of activated Jurkat T cells and A20 B cells. This protein is the only significant phosphotyrosine-containing protein in p85 immunoprecipitates from these cells, and it cannot be detected in immunoprecipitates of other signaling proteins such as PLC gamma. Furthermore, antibodies specific for the beta isoform of p85 but not antibodies specific for the alpha isoform immunoprecipitate this tyrosine-phosphorylated protein. pp120 completely comigrates with the proto-oncogene c-cbl, which is a 120 kDa protein product abundant in lymphoid cells. Furthermore, immunoblots of p85 immunoprecipitates using antibodies raised against c-cbl detect a band at exactly the position of pp120. In addition, p85 can be detected in immunoblots of c-cbl immunoprecipitates. Thus, pp120 appears to correspond to c-cbl. A direct association between c-cbl and p85 can be observed in vitro using a fusion protein comprising the Src homology 2 (SH2) domains of p85, and this binding is abolished by phenyl phosphate, suggesting that the interaction is mediated through phosphotyrosine-SH2 domain interactions. Thus, these results show important functional differences between the alpha and beta isoforms of p85 in vivo and point to c-cbl as a potentially important mediator of some of the functions of PI-3 kinase in intact cells.
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PMID:Specific association of the beta isoform of the p85 subunit of phosphatidylinositol-3 kinase with the proto-oncogene c-cbl. 762 44

Inhibitor-2 (I-2) is the regulatory subunit of the cytosolic ATP-Mg-dependent form of type 1 serine/threonine protein phosphatase and its phosphorylation at Thr-72 by glycogen synthase kinase-3 results in phosphatase activation. Activation of cytosolic type 1 phosphatase has been observed in cells treated with growth factors. Reported here is the phosphorylation and activation of the ATP-Mg-dependent phosphatase by mitogen-activated protein kinase (MAPK). Recombinant I-2 was phosphorylated by activated MAPK to an extent (approximately 0.3 mol of phosphate/mol of polypeptide) similar to that reported for phosphorylation by the alpha isoform of glycogen synthase kinase-3. The phosphorylation of I-2 by MAPK was exclusively at Thr-72, the site involved in the activation of phosphatase. Incubation of MAPK with purified ATP-Mg-dependent phosphatase resulted in phosphorylation of the I-2 component and activation of the phosphatase. Ribosomal S6 protein kinase II (p90rsk) was also able to phosphorylate the recombinant I-2; however, this phosphorylation occurred on serines and had no effect on phosphatase activation. Our data may explain growth factor-induced activation of the ATP-Mg-dependent phosphatase and suggest that MAPK may of cytosolic type 1 phosphatase in response to insulin and/or other growth factors.
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PMID:Phosphorylation and activation of the ATP-Mg-dependent protein phosphatase by the mitogen-activated protein kinase. 762 58

The enzymatic and regulatory properties of Ca2+/calmodulin-dependent protein kinase in the postsynaptic density (mPSDp CaM kinase) of the rat forebrain was compared with those of soluble Ca2+/calmodulin-dependent protein kinase II (CaM kinase II). mPSDp CaM kinase was different from soluble CaM kinase II in terms of substrate specificity, regulatory consequences and sites of autophosphorylation. Both soluble and PSD kinases generated Ca(2+)-independent activity by autophosphorylation and Ca(2+)-independent activity almost reached the maximum during the first minute of autophosphorylation. Ca(2+)-independent activity of mPSDp CaM kinase was more stable than that of the soluble kinase under autophosphorylating conditions. Autophosphorylation of the kinases decreased the mobility of the kinases on SDS-polyacrylamide gels. The mobility shift and determination of 32P phosphate incorporation into the kinases demonstrated that there were three species in mPSDp CaM kinase alpha isoform: two active forms with and without the mobility shift (about 22 and 19%, respectively), and an inactive form (about 59%). However, there was only one species in the soluble kinase alpha isoform, which was active. The maximum incorporation of 32P phosphate into mPSDp CaM kinase alpha isoform was less than that of the soluble kinase. Tryptic peptide analysis indicated that the phosphorylation sites of mPSDp CaM kinase alpha isoform differed from those of the soluble kinase.
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PMID:Characterization and autophosphorylation of Ca2+/calmodulin-dependent protein kinase in the postsynaptic density of the rat forebrain. 839 Sep 10

Because of the low abundance of the two major isoforms (C alpha and C beta) of catalytic (C) subunit of cAMP-dependent protein kinase, it has been difficult to monitor their expression and virtually impossible to quantify their synthesis, phosphorylation, and turnover in intact mammalian cells. We now describe sensitive and quantitative immunochemical methods using a goat antibody raised against the recombinant C alpha isoform of murine C subunit that enable studies of the expression and metabolism of C subunit in cultured cells. The antibody reacts well with C alpha and C beta isoforms of murine C subunit and with C subunits from rat, hamster, and human cell lines, so it should have widespread utility. Immunoreactivity with bovine heart C subunit was substantially weaker. For quantitation of C subunit radioactivity in extracts of cells labeled metabolically with [35S]methionine, we developed a two-cycle immunoadsorption protocol that reduces nonspecific adsorption to negligible levels. A tritium-labeled, truncated C subunit marker protein is added to extracts as an internal marker to monitor C subunit recoveries in different samples. For analysis of expression of C subunit isoforms in different cells or tissues, we describe a nonradioactive Western immunoblot procedure that can quantitate C subunit in amounts as low as 12 pg. Using extraction conditions that either stabilize or destabilize the phosphate on Thr-197, we show how the relative expression and phosphorylation of C alpha and C beta isoforms can be estimated from SDS-gel patterns resulting from either immunoblot or immunoadsorption procedures.
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PMID:Methods for studying synthesis, turnover, and phosphorylation of catalytic subunit of cAMP-dependent protein kinase in mammalian cells. 864 25

Type I phosphatidylinositol 4-phosphate (PtdIns(4)P) 5-kinases (PIP5K) catalyze the synthesis of phosphatidylinositol 4, 5-bisphosphate, an essential lipid molecule in various cellular processes. Here, we report the cloning of the third member (PIP5Kgamma) and the characterization of members of the type I PIP5K family. Type I PIP5Kgamma has two alternative splicing forms, migrating at 87 and 90 kDa on SDS-polyacrylamide gel electrophoresis. The amino acid sequence of the central portion of this isoform shows approximately 80% identity with those of the alpha and beta isoforms. Northern blot analysis revealed that the gamma isoform is highly expressed in the brain, lung, and kidneys. Among three isoforms, the beta isoform has the greatest Vmax value for the PtdIns(4)P kinase activity and the gamma isoform is most markedly stimulated by phosphatidic acid. By analyzing deletion mutants of the three isoforms, the minimal kinase core sequence of these isoforms were determined as an approximately 380-amino acid region. In addition, carboxyl-terminal regions of the beta and gamma isoforms were found to confer the greatest Vmax value and the highest phosphatidic acid sensitivity, respectively. It was also discovered that lysine 138 in the putative ATP binding motif of the alpha isoform is essential for the PtdIns(4)P kinase activity. As was the case with the alpha isoform reported previously (Shibasaki, Y., Ishihara, H., Kizuki, N., Asano, T., Oka, Y., Yazaki, Y. (1997) J. Biol. Chem. 272, 7578-7581), overexpression of either the beta or the gamma isoform induced an increase in short actin fibers and a decrease in actin stress fibers in COS7 cells. Surprisingly, a kinase-deficient substitution mutant also induced an abnormal actin polymerization, suggesting a role of PIP5Ks via structural interactions with other molecules.
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PMID:Type I phosphatidylinositol-4-phosphate 5-kinases. Cloning of the third isoform and deletion/substitution analysis of members of this novel lipid kinase family. 953 51

Recently, we demonstrated that the 36 kDa catalytic subunit of protein phosphatase 2A (PP2Ac) undergoes methylation at its C-terminal leucine in normal rat islets, human islets and isolated beta cells; this modification increases the catalytic activity of PP2A [Kowluru et al. Endocrinology. 137:2315-2323, 1996]. Previous studies have suggested that adenine and guanine nucleotides or glycolytic intermediates [which are critical mediators in beta cell function] also modulate phosphatase activity in the pancreatic beta cell. Therefore, we examined whether these phosphorylated molecules specifically regulate the carboxyl methylation and the catalytic activity of PP2A in beta cells. Micromolar concentrations of ATP, ADP, GTP or GDP each inhibited the carboxyl methylation of PP2Ac and, to a lesser degree, the catalytic activity of PP2A. Likewise, the carboxyl methylation of PP2Ac and its catalytic activity were inhibited by [mono- or di-] phosphates of glucose or fructose. Additionally, however, the carboxyl methylation of PP2Ac was significantly stimulated by divalent metal ions (Mn2+ > Mg2+ > Ca2+ > control). The nucleotide or sugar phosphate-mediated inhibition of carboxyl methylation of PP2Ac and the catalytic activity of PP2A were completely prevented by Mn2+ or Mg2+. These data indicate that divalent metal ions protect against the inhibition by purine nucleotides or sugar phosphates of the carboxyl methylation of PP2Ac perhaps permitting PP2A to function under physiologic conditions. Therefore, these data warrant caution in interpretation of extant data on the regulation of phosphatase function by purine nucleotides.
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PMID:Purine nucleotide- and sugar phosphate-induced inhibition of the carboxyl methylation and catalysis of protein phosphatase-2A in insulin-secreting cells: protection by divalent cations. 987 31

Catalytic domains of the metalloenzymes protein phosphatases (PPP) 1, 2A and 2B (PP1, PP2A and PP2B, respectively) are homologous to approximately 45%, with the residues in the enzymatic centers strictly conserved. PP1, PP2A and PP2B are abundant in cells and they dephosphorylate serine and/or threonine residues in a variety of proteins serving as cellular phospho switches. The active enzymes work as invariant catalytic subunits PP1c, PP2Ac and PP2Bc, respectively, complexed with diverse regulatory subunits, dependent on the enzymes' specific location and biological function. The crystal structures of PP1c and PP2B (calcineurin) heterotetramer calcineurinA x calcineurinB x FKBP x FK506 have been determined. A comparison of the catalytic subunits of both enzymes indicates their significant structural homology and virtual identity within the catalytic centers, each including a set of conservative amino acids, two metal ions and a phosphate; thus confirming a hypothesis on their common enzymatic mechanisms. The elongated substrate cleft at the active centre is kinked by approximately 120 degrees at the active center in its middle and thus divided into a pre-phospho-Ser/Thr (ligand N-terminal) and a post-phospho-Ser/Thr (ligand C-terminal) section. In PP1c the N-terminal section is highly acidic while in PP2Bc is not. This feature is likely pertinent but not sufficient to the enzymes' selectivity, which is also controlled by regulatory subunits, diverse in various tissues. The metalloenzymes in general and PPP in particular are hard to deal with using theoretical simulations due to parameterization problems for the metal cations. In fact, there are only a few PP1c simulations reported, with the metal di-cations treated quite crudely. This is a preliminary work, in which we introduce and test against some experimental evidence a concept of pseudomolecules of proper geometry, composed of double metal (2Zn2+ or 2Mn2+) cation, and the OH- nuclephile incorporated into the PP1c catalytic site. Both models are associated with either the phosphate (a free enzyme) or the phosphorylated dodecapeptide RRRRPpTPAMLFR, an active fragment (residues 29-40) of a regulatory subunit DARPP-32 inhibitor (PP1c-inhibitor complex); four models total. We have parameterized both pseudomolecules within the AMBER force field. Subsequently, using molecular dynamic in water, we have found the free PP1c subunits to be less stable than the complexed ones and we have speculated on possible reasons for this feature.
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PMID:Molecular modeling of the catalytic domain of serine/threonine phosphatase-1 with the Zn2+ and Mn2+ di-nuclear ion centers in the active site. 1081 8

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