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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Type 2C protein phosphatase (PP2C) is one of four major serine-threonine specific phosphoprotein phosphatases which modulate various intracellular activities. By in situ hybridization analysis of the adult rat, expression signals of mRNA for PP2C were observed most highly in the granule cells and Purkinje cells of the cerebellum, the pyramidal cells of the hippocampus and granule cells of the dentate gyrus, and plexus choroideus of the lateral ventricle, whereas moderate levels of its expression were observed in the medial habenula, piriform cortex and the pineal body. Several discrete nuclei of the brainstem including pars compacta of the substantia nigra, the pontine nuclei, and the locus ceruleus expressed the mRNA moderately. Weak expression of PP2C mRNA was observed in mitral and internal granule cells of the olfactory bulb, spinal cord gray matter, the cerebral neocortex, thalamic and hypothalamic nuclei. Only faint expression was detected in the caudate putamen. These patterns of expression are different from that of calcineurin/PP2B reported by other immunohistochemical studies and it is suggested that various neuronal proteins are differentially dephosphorylated by the different types of PP.
Brain Res Mol Brain Res 1992 May
PMID:Localization of mRNA for protein phosphatase 2C in the brain of adult rats. 132 Jul 18

By using an assay specific for detection of calcineurin, a Ca2+/calmodulin-dependent phosphoprotein phosphatase, this enzyme was purified approximately 5,000-fold from extracts of the yeast Saccharomyces cerevisiae. Cna1p and Cna2p, the products of two yeast genes encoding the catalytic (A) subunits of calcineurin, were major constituents of the purified fraction. A third prominent component of apparent molecular mass 16 kDa displayed several properties, including ability to bind 45Ca2+, that are characteristic of the regulatory (B) subunit of mammalian calcineurin and was recognized by an antiserum raised against bovine calcineurin. These antibodies were used to isolate the structural gene (CNB1) encoding this protein from a yeast expression library in the vector lambda gt11. The nucleotide sequence of CNB1 predicted a polypeptide similar in length and highly related in amino acid sequence (56% identity) to the mammalian calcineurin B subunit. Like its counterpart in higher cells, yeast Cnb1p was myristoylated at its N terminus. Mutants lacking Cnb1p, or all three calcineurin subunits (Cna1p, Cna2p, and Cnb1p), were viable. Extracts of cnb1 delta mutants contained no detectable calcineurin activity, even though Cna1p and Cna2p were present at normal levels, suggesting that the B subunit is required for full enzymatic activity in vitro. As was observed previously for MATa cna1 cna2 double mutants, MATa cnb1 mutants were defective in their ability to recover from alpha-factor-induced growth arrest. Thus, the B subunit also is required for the function of calcineurin in promoting adaptation of haploid yeast cells to pheromone in vivo.
Mol Cell Biol 1992 Aug
PMID:Regulatory subunit (CNB1 gene product) of yeast Ca2+/calmodulin-dependent phosphoprotein phosphatases is required for adaptation to pheromone. 132 37

Saccharomyces cerevisiae genomic clones that encode calmodulin-binding proteins were isolated by screening a lambda gt11 expression library using 125I-labeled calmodulin as probe. Among the cloned yeast genes, we found two closely related genes (CMP1 and CMP2) that encode proteins homologous to the catalytic subunit of phosphoprotein phosphatase. The presumed CMP1 protein (62,999 Da) and CMP2 protein (68,496 Da) contain a 23 amino acid sequence very similar to those identified as calmodulin-binding sites in many calmodulin-regulated proteins. The yeast genes encode proteins especially homologous to the catalytic subunit of mammalian phosphoprotein phosphatase type 2B (calcineurin). The products of the CMP1 and CMP2 genes were identified by immunoblot analysis of cell extracts as proteins of 62,000 and 64,000 Da, respectively. Gene disruption experiments demonstrated that elimination of either or both of these genes had no effect on cell viability, indicating that these genes are not essential for normal cell growth.
Mol Gen Genet 1991 May
PMID:The Saccharomyces cerevisiae genes (CMP1 and CMP2) encoding calmodulin-binding proteins homologous to the catalytic subunit of mammalian protein phosphatase 2B. 164 87

This article focuses on the role of protein phosphorylation, especially that mediated by protein kinase C (PKC), in neurotransmitter release. In the first part of the article, the evidence linking PKC activation to neurotransmitter release is evaluated. Neurotransmitter release can be elicited in at least two manners that may involve distinct mechanisms: Evoked release is stimulated by calcium influx following chemical or electrical depolarization, whereas enhanced release is stimulated by direct application of phorbol ester or fatty acid activators of PKC. A markedly distinct sensitivity of the two pathways to PKC inhibitors or to PKC downregulation suggests that only enhanced release is directly PKC-mediated. In the second part of the article, a framework is provided for understanding the complex and apparently contrasting effects of PKC inhibitors. A model is proposed whereby the site of interaction of a PKC inhibitor with the enzyme dictates the apparent potency of the inhibitor, since the multiple activators also interact with these distinct sites on the enzyme. Appropriate PKC inhibitors can now be selected on the basis of both the PKC activator used and the site of inhibitor interaction with PKC. In the third part of the article, the known nerve terminal substrates of PKC are examined. Only four have been identified, tyrosine hydroxylase, MARCKS, B-50, and dephosphin, and the latter two may be associated with neurotransmitter release. Phosphorylation of the first three of these proteins by PKC accompanies release. B-50 may be associated with evoked release since antibodies delivered into permeabilized synaptosomes block evoked, but not enhanced release. Dephosphin and its PKC phosphorylation may also be associated with evoked release, but in a unique manner. Dephosphin is a phosphoprotein concentrated in nerve terminals, which, upon stimulation of release, is rapidly dephosphorylated by a calcium-stimulated phosphatase (possibly calcineurin [CN]). Upon termination of the rise in intracellular calcium, dephosphin is phosphorylated by PKC. A priming model of neurotransmitter release is proposed where PKC-mediated phosphorylation of such a protein is an obligatory step that primes the release apparatus, in preparation for a calcium influx signal. Protein dephosphorylation may therefore be as important as protein phosphorylation in neurotransmitter release.
Mol Neurobiol 1991
PMID:The role of protein kinase C and its neuronal substrates dephosphin, B-50, and MARCKS in neurotransmitter release. 168 57

The effects of divalent metals, metal chelators (EDTA, EGTA) and sodium dodecyl sulfate were investigated on the phosphatase activity of isolated bovine brain calcineurin assayed in the absence (called intrinsic) and presence of calmodulin. Intrinsic phosphatase was increased by Mn2+, was unaffected by Mg2+, Ca2+, and Ba2+, and was markedly inhibited by Ni2+, Fe2+, Zn2+ and Cu2+. When assayed in the presence of calmodulin, many divalent metals (Ni2+, Zn2+, Pb2+, Cd2+), besides Mn2+, increased modestly the phosphatase activity at low concentrations (10-100 microM) and inhibited it markedly at high concentrations. Ca2(+)-calmodulin stimulated phosphatase activity was antagonized by Ni2+, Zn2+, Fe2+, Cu2+, Pb2+, at low concentrations (50 microM), and by Ba2+, Cd2+ at slightly higher concentrations (greater than 100 microM); Mn2+ and Co2+ (50 microM to 1 mM) in fact augmented it. EDTA and EGTA in a concentration and time dependent fashion inhibited the intrinsic phosphatase activity, particularly that of trypsinized calcineurin. SDS in low concentrations (0.005%) augmented the phosphatase activity and inhibited it at high concentrations. Mn2+ (+/- calmodulin) and Ca2+ only with calmodulin present increased the phosphatase activity assayed with low concentrations of SDS. The EDTA dependent inhibition of intrinsic phosphatase was almost abolished in assays containing SDS. Prior exposure of calcineurin to Mn2+ led to a high activity conformation state of calcineurin that was 'long-lived' or 'pseudo-irreversible'. Such Mn2(+)-activated state of calcineurin exhibited no discernible change in the affinity towards myelin basic protein or its inhibition by trifluoperazine. At alkaline pH, Mg2+ supported the intrinsic phosphatase activity, although to a lesser degree than Mn2+. The latter cation, compared to Mg2+ and Ni2+, was also a more powerful stimulator of the calcineurin phosphatase assayed with histone (III-S) and myosin light chain as substrates.
Mol Cell Biochem 1990 Sep 03
PMID:Divalent cation effects on calcineurin phosphatase: differential involvement of hydrophobic and metal binding domains in the regulation of the enzyme activity. 170 Oct 13

We have identified a highly active Ca2+ calmodulin-dependent protein kinase in the cytoskeletons of normal (bovine fasciculata) and transformed (Y-1 mouse tumor) adrenal cells. In view of evidence for the involvement of calmodulin and microfilaments in the regulation of cholesterol transport and hence steroidogenesis, it is likely that this kinase is important in this process. The kinase activity was examined for its capacity to phosphorylate endogenous proteins analyzed by one- and two-dimensional gel electrophoresis, in the presence of saturating amounts of Ca2+ (5 mM) and calmodulin (5 microM). Three inhibitors of calmodulin (trifluoperazine, pimozide and W-7) inhibit steroidogenesis and Ca2(+)-calmodulin-dependent phosphorylation kinase activity with similar values for EC50 for the two processes. All three inhibitors inhibit the increased transport of cholesterol to mitochondria in response to ACTH. Two substrates for the kinase (alpha-spectrin and beta-tubulin) were identified and two others (51,000 and 60,000 molecular weight) were tentatively identified as the subunits of the kinase itself in cytoskeletons of both cell types. Calmodulin-binding proteins analyzed by [125I]iodocalmodulin overlay and calmodulin-Sepharose affinity chromatography were also identified in the same cytoskeletons including alpha-spectrin, the Ca2+ calmodulin-dependent phosphatase calcineurin and three that were tentatively identified as the two subunits of the kinase itself and myosin light chain kinase. It is concluded that calmodulin, by binding to the kinase and phosphatase, is capable of influencing the degree of phosphorylation of specific substrates in the cytoskeleton and of forming complexes with spectrin, actin and tubulin. These events may be involved in the regulation of the rate-limiting step of steroidogenesis, i.e. transport of cholesterol to mitochondria.
Mol Cell Endocrinol 1990 Dec 03
PMID:Calcium-calmodulin-dependent phosphorylation of cytoskeletal proteins from adrenal cells. 196 7

Calcineurin was discovered as an inhibitor of calmodulin stimulated cyclic AMP phosphodiesterase and its ability to act as a calmodulin binding protein largely explains its inhibitory action on calmodulin regulated enzymes. Recent studies establish calcineurin as the enzyme protein phosphatase whose activity is regulated by calmodulin and a variety of divalent metals. In this work, we have investigated the effects of several agents including sulfhydryl agents, trifluoperazine (a calmodulin antagonist), PPi, NaF and orthovanadate and of tryptic proteolysis on the calcineurin inhibition of cyclic AMP phosphodiesterase (called inhibitory activity) and on protein phosphatase activity. Inhibitors for sulfhydryl groups (pHMB, NEM) inhibited phosphatase activity without any effect on the inhibitory activity. Dithioerythritol completely reversed the inhibition by pHMB. Limited proteolysis of calcineurin caused an activation of basal phosphatase activity with a complete loss of inhibitory activity. Phosphatase activity of the proteolyzed calcineurin was not stimulated by calmodulin. The presence of calmodulin along with calcineurin during tryptic digestion appeared to preserve the stimulation of phosphatase by Ca2(+)-calmodulin. [3H]-Trifluoperazine (TFP) was found to be incorporated irreversibly into calcineurin in the presence of ultraviolet light. This incorporation was evident into the A and B subunits of calcineurin. TFP-caused a decrease in the phosphatase activity and an increase in its inhibitory activity. [3H]-TFP incorporation into the A subunit was drastically decreased in the proteolyzed calcineurin. This was also true when the [3H]-TFP incorporated calcineurin was subjected to tryptic proteolysis. The incorporation into the B unit was essentially unaffected in the trypsinized calcineurin. Phosphatase activity was inhibited by orthovanadate, NaF, PPi, and EDTA. Inhibitions by these compounds were more pronounced when the phosphatase was determined in the presence of Ca2(+)-calmodulin than in their absence.
Mol Cell Biochem 1990 Sep 03
PMID:Effects of sulfhydryl agents, trifluoperazine, phosphatase inhibitors and tryptic proteolysis on calcineurin isolated from bovine cerebral cortex. 217 99

Ca2+-calmodulin-dependent protein phosphatase activity is found in cytoskeletons of Y-1 mouse adrenal and bovine fasciculata cells. The activity is inhibited by three inhibitors of calmodulin (trifluoperazine, W-7 and pimozide) with EC50 in the low micromolar range. Protein phosphatase activity is inhibited by vanadate, fluoride, Zn2+ and pyrophosphate, stimulated by Mn2+ and found to be tightly bound to the cytoskeleton. Substrates for endogenous phosphatase activity were defined by one- and two-dimensional polyacrylamide gels. Phosphatase activity was seen with proteins that are substrates for both cyclic AMP-dependent and cyclic AMP-independent kinase enzymes. One specific Ca2+-calmodulin-dependent phosphatase, namely calcineurin, was purified to near homogeneity from cytoskeletons of Y-1 cells. The enzyme was found to be a heterodimer (MW 61,000 and 16,000) and the smaller subunit was shown to cross-react with antibodies raised against calcineurin from bovine brain. The purified enzyme catalyzes dephosphorylation of proteins (phosphorylase kinase and casein), phosphoamino acids (tyr greater than thre greater than ser) and a synthetic substrate (p-nitrophenyl phosphate). In addition, a new application of membrane transfer was devised by which the purified enzyme was incubated with a Western blot of cytoskeleton following incubation with [32P]ATP. This method defined four specific substrates of the enzyme (MW 150,000, 55,000, 35,000 and 30,000). Anti-calcineurin revealed that only a single Ca2+-calmodulin-dependent phosphatase is found in adrenal cell cytoskeleton.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Endocrinol 1989 May
PMID:Isolation and characterisation of calcineurin from adrenal cell cytoskeleton: identification of substrates for Ca2+-calmodulin-dependent phosphatase activity. 254 40

Protein phosphatase 1 (PP1) is a serine/threonine protein phosphatase that is essential in regulating diverse cellular processes. Here we report the crystal structure of the catalytic subunit of human PP1 gamma 1 and its complex with tungstate at 2.5 A resolution. The anomalous scattering from tungstate was used in a multiple wavelength anomalous dispersion experiment to derive crystallographic phase information. The protein adopts a single domain with a novel fold, distinct from that of the protein tyrosine phosphatases. A di-nuclear ion centre consisting of Mn2+ and Fe2+ is situated at the catalytic site that binds the phosphate moiety of the substrate. Proton-induced X-ray emission spectroscopy was used to identify the nature of the ions bound to the enzyme. The structural data indicate that dephosphorylation is catalysed in a single step by a metal-activated water molecule. This contrasts with other phosphatases, including protein tyrosine phosphatases, acid and alkaline phosphatases which form phosphoryl-enzyme intermediates. The structure of PP1 provides insight into the molecular mechanism for substrate recognition, enzyme regulation and inhibition of this enzyme by toxins and tumour promoters and a basis for understanding the expanding family of related phosphatases which include PP2A and PP2B (calcineurin).
J Mol Biol 1995 Dec 15
PMID:Crystal structure of the catalytic subunit of human protein phosphatase 1 and its complex with tungstate. 750 Mar 62

Ca2+/calmodulin-dependent phosphoprotein phosphatase (calcineurin, PP2B) of Saccharomyces cerevisiae is implicated in adaptation to high-salt conditions. Calcineurin mediates high salt-induced expression of the ENA1/PMR2 gene encoding the P-type ATPase, which is suggested to be involved in Na+ efflux. We identified the PDE1 gene encoding the low-affinity cAMP phosphodiesterase as a multicopy suppressor of the Li(+)- and Na(+)-sensitive calcineurin null mutant, suggesting that cAMP is a negative regulator of adaptation to high-salt stress. Genetic analysis indicated that calcineurin and cAMP act antagonistically in a common pathway for adaptation. The bcy1 disruption, which leads to constitutive cAMP-dependent protein kinase (PKA) activity inhibited high NaCl-induced expression of the ENA1/PMR2 gene, caused an elevation of the intracellular Na+ level and a growth defect in high-NaCl medium, all of which were analogous to the defects of a calcineurin mutant. A reduced cAMP level resulting from multiple copies of the PDE1 gene caused increased expression of the ENA1/PMR2 gene in response to high NaCl. We propose a model for the regulation of cation homeostasis, in which calcineurin antagonizes PKA to activate transcription of the ENA1/PMR2 gene in response to high-salt conditions.
Mol Gen Genet 1995 Nov 27
PMID:Adaptation to high-salt stress in Saccharomyces cerevisiae is regulated by Ca2+/calmodulin-dependent phosphoprotein phosphatase (calcineurin) and cAMP-dependent protein kinase. 750 Sep 49


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