Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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Saccharomyces cerevisiae, like most eucaryotic cells, can prevent the onset of anaphase until chromosomes are properly aligned on the mitotic spindle. We determined that Cdc55p (regulatory B subunit of protein phosphatase 2A [PP2A]) is required for the kinetochore/spindle checkpoint regulatory pathway in yeast. ctf13 cdc55 double mutants could not maintain a ctf13-induced mitotic delay, as determined by antitubulin staining and levels of histone H1 kinase activity. In addition, cdc55::LEU2 mutants and tpd3::LEU2 mutants (regulatory A subunit of PP2A) were nocodazole sensitive and exhibited the phenotypes of previously identified kinetochore/spindle checkpoint mutants. Inactivating CDC55 did not simply bypass the arrest that results from inhibiting ubiquitin-dependent proteolysis because cdc16-1 cdc55::LEU2 and cdc23-1 cdc55::LEU2 double mutants arrested normally at elevated temperatures. CDC55 is specific for the kinetochore/spindle checkpoint because cdc55 mutants showed normal sensitivity to gamma radiation and hydroxyurea. The conditional lethality and the abnormal cellular morphogenesis of cdc55::LEU2 were suppressed by cdc28F19, suggesting that the cdc55 phenotypes are dependent on the phosphorylation state of Cdc28p. In contrast, the nocodazole sensitivity of cdc55::LEU2 was not suppressed by cdc28F19. Therefore, the mitotic checkpoint activity of CDC55 (and TPD3) is independent of regulated phosphorylation of Cdc28p. Finally, cdc55::LEU2 suppresses the temperature sensitivity of cdc20-1, suggesting additional roles for CDC55 in mitosis.
Mol Cell Biol 1997 Feb
PMID:Cdc55p, the B-type regulatory subunit of protein phosphatase 2A, has multiple functions in mitosis and is required for the kinetochore/spindle checkpoint in Saccharomyces cerevisiae. 900 Dec 15

The phosphorylation state of neurofilaments plays an important role in the control of cytoskeletal integrity, axonal transport, and axon diameter. Immunocytochemical analyses of spinal cord revealed axonal localization of all protein phosphatase subunits. To determine whether protein phosphatases associate with axonal neurofilaments, neurofilament proteins were isolated from bovine spinal cord white matter by gel filtration. approximately 15% of the total phosphorylase a phosphatase activity was present in the neurofilament fraction. The catalytic subunits of PP1 and PP2A, as well as the A and B alpha regulatory subunits of PP2A, were detected in the neurofilament fraction by immunoblotting, whereas PP2B and PP2C were found exclusively in the low molecular weight soluble fractions. PP1 and PP2A subunits could be partially dissociated from neurofilaments by high salt but not by phosphatase inhibitors, indicating that the interaction does not involve the catalytic site. In both neurofilament and soluble fractions, 75% of the phosphatase activity towards exogenous phosphorylase a could be attributed to PP2A, and the remainder to PP1 as shown with specific inhibitors. Neurofilament proteins were phosphorylated in vitro by associated protein kinases which appeared to include protein kinase A, calcium/calmodulin-dependent protein kinase, and heparin-sensitive and -insensitive cofactor-independent kinases. Dephosphorylation of phosphorylated neurofilament subunits was mainly (60%) catalyzed by associated PP2A, with PP1 contributing minor activity (10-20%). These studies suggest that neurofilament-associated PP1 and PP2A play an important role in the regulation of neurofilament phosphorylation.
Brain Res Mol Brain Res 1997 Oct 03
PMID:Protein serine/threonine phosphatase 1 and 2A associate with and dephosphorylate neurofilaments. 938 59

Calcium tolerant pig and rabbit cardiomyocytes were isolated using retrograde aortic perfusion of nominally calcium-free collagenase. Preconditioning protocols used 1 or 3x10-min episodes of ischemic pelleting or pre-incubation with 100 micro M adenosine, followed by a 15-min post-incubation and 180-240-min ischemic pelleting. Control cells were incubated and washed in parallel with the experimental groups. Injury was assessed by determination of cell morphology, trypan blue permeability following osmotic swelling, lactate and HPLC analysis of adenine nucleotides. Preconditioned pig cardiomyocytes had a reduced rate of ischemic contracture, but protection occurred without conservation of ATP. Preconditioned rabbit cardiomyocytes were protected without significant changes in rates of ischemic contracture or ATP depletion. Incubation of ischemic cells with the protein phosphatase inhibitor, fostriecin, at PP2A-selective concentrations (0.1-10 micro M), mimicked preconditioning in both rabbit and pig cardiomyocytes. In rabbits, the KATP channel blocker, 5-hydroxydecanoate (5-HD), did not block preconditioning or fostriecin protection. In the pig, 5-HD blocked both preconditioning and fostriecin protection, with return of the rates of ischemic contracture to control. However, 5-HD was an effective blocker of protection only in early ischemia. Fostriecin mimicked preconditioning in the rabbit and the early responses of the preconditioned pig. Preconditioning appears associated with protein phosphorylation in both the rabbit and the pig, but major pathways leading to protection may differ in the two species.
J Mol Cell Cardiol 1997 Nov
PMID:Comparison of in vitro preconditioning responses of isolated pig and rabbit cardiomyocytes: effects of a protein phosphatase inhibitor, fostriecin. 940 76

Five cDNA clones encoding the catalytic subunits of Ser/Thr protein phosphatases (PP) of Nicotiana tabacum were described. Among them, three clones (NPP1, NPP2, and NPP3) encoded type 1 PP (PP1), whereas the rest of the clones (NPP4 and NPP5) encoded type 2A PP (PP2A). These cDNA clones exhibited high sequence identity in the PP core region to the corresponding genes from animals and plants. NPP1 mRNA was predominantly expressed in flowers, whereas NPP5 mRNA was mainly detected in leaves and flowers. In contrast, the transcripts of NPP2, NPP3, and NPP4 genes were present in all tissues examined. Throughout flower development, NPP1, NPP2, NPP5 mRNAs were expressed without any significant variation at the steady-state level. Genomic Southern blot showed that tobacco genome contained multiple genes and/or pseudogenes for both type 1 and type 2A phosphatases.
Plant Mol Biol 1998 Jan
PMID:Multiple genes encoding serine/threonine protein phosphatases and their differential expression in Nicotiana tabacum. 948 43

The Wcs120 gene encodes a highly abundant protein which appears to play an important role during cold acclimation of wheat. To understand the regulatory mechanism controlling its expression at low temperature, the promoter region has been characterized. Electrophoretic mobility shift assays using short promoter fragments revealed the presence in nuclear extracts from non-acclimated (NA) plants of multiple DNA-binding proteins which interact with several elements. In contrast, no DNA-binding activity was observed in the nuclear extracts from cold-acclimated (CA) plants. In vitro dephosphorylation of these CA nuclear extracts with alkaline phosphatase restored the binding activity. Moreover, okadaic acid (a potent phosphatase inhibitor) markedly stimulated the in vivo accumulation of the WCS120 family of proteins. This suggests that protein phosphatases PP1 and/or PP2A negatively regulate the expression of the Wcs120 gene. In addition, both Ca(2+)-dependent and Ca(2+)-independent kinase activities were found to be significantly higher in the CA nuclear extracts. Western analysis using antibodies directed against protein kinase C (PKC) isoforms showed that a PKCgamma homolog (84 kDa) is selectively translocated into the nucleus in response to low temperature. Taken together, our results suggest that, in vivo, the expression of the Wcs120 gene may be regulated by nuclear factors whose binding activity is modulated by a phosphorylation/dephosphorylation mechanism.
Mol Gen Genet 1998 Jan
PMID:Low temperature-stimulated phosphorylation regulates the binding of nuclear factors to the promoter of Wcs120, a cold-specific gene in wheat. 949 Oct 74

Calcium-tolerant rabbit cardiomyocytes were isolated using retrograde aortic perfusion with a nominally calcium-free, collagenase buffer. In vitro ischemic preconditioning was induced by a 10-min episode of ischemic pelleting, followed by a 15-min post-incubation and a prolonged period of ischemic pelleting. Injury was assessed by determination of cell contracture and trypan blue permeability following hypotonic swelling and correlated with metabolic assays of lactate and adenine nucleotides. The protein phosphatase PP1/2A inhibitor calyculin A and PP2A-selective fostriecin protected isolated rabbit cardiomyocytes from lethal injury after a 10-min pre-incubation and when added late into ischemic pellets after a delay of 75 min. At the time of late drug addition, cells were severely ATP-depleted and in rigor contracture. Protection with Calyculin A from 1 nM to 1 microM was dose-related. Cells pre-incubated with 10 nM to 10 microM fostriecin 10 min prior to ischemic pelleting were protected with an EC50 approximating 71 nM, implying protection at a PP2A-selective dose. The selective protein kinase C inhibitor, calphostin C, blocked ischemic preconditioning protection but not protection from 1 microM calyculin A. Protection of severely ischemic cardiomyocytes following protein phosphatase inhibition appears not to require PKC activity or ATP conservation. Pre-incubation of cells with calyculin A induced high levels of phosphorylation in p38 mitogen activated protein kinase (MAPK), as compared to the ischemia-induced phosphorylation observed in the untreated group only at 30 min of ischemia, providing evidence of protein phosphatase activity in cardiomyocytes. Pharmacological protection in late ischemia has been demonstrated, but the mechanism of protection is undetermined.
J Mol Cell Cardiol 1998 Jan
PMID:Protein phosphatase inhibitors calyculin A and fostriecin protect rabbit cardiomyocytes in late ischemia. 950 Aug 65

Cantharidin and calyculin A, natural toxins that are inhibitors of protein phosphatases 1 and 2A (PPI and PP2A, respectively). inhibit Neurospora crassa hyphal growth. When N. crassa was grown in the presence of either drug, abnormalities were observed at hyphal tips. In addition, both drugs induced an increase in hyphal branching. Cantharidin inhibited N. crassa hyphal growth in a temperature-dependent manner, as the effect of the drug was more pronounced at 34 degrees C than at 25 degrees C. In addition to the drug-mediated inhibition of phosphatase activity, a genetic approach was used to determine the phenotypic consequences of reduced PP2A activity. Two strains with subnormal PP2A activity were constructed. The first, in which the original pph-1 gene (encoding the PP2A catalytic subunit) was replaced with an ectopically integrated copy of pph-1, exhibited lower levels of pph-1 transcript, lower PP2A activity and increased sensitivity to cantharidin. Similarly, in a second strain, in which the pph-1 gene was cloned in an antisense orientation downstream of the inducible isocitrate lyase promoter, lower levels of pph-1 transcript, as well as of PP2A activity, and a reduction in hyphal growth were observed. The results of this study indicate that PP2A, and probably other Ser/Thr phosphatases, are involved in the regulation of hyphal growth in N. crassa.
Mol Gen Genet 1998 Sep
PMID:Protein phosphatase 2A is involved in hyphal growth of Neurospora crassa. 979 May 84

The binding of aldosterone (ALDO) to the mineralocorticoid receptor (MR) induces a conformational change of the protein referred to as 'transformation'. This feature can be evidenced in vivo by the capacity of the MR to interact with chromatin, and in vitro by the ability of the MR to bind to DNA strands or to shift the sedimentation coefficient (S) to lower values. The transformation process allows MR to work as a transcription factor after interacting with specific sequences of DNA. The signal transduction pathway for the MR transformation remains unknown. As a first step towards elucidating the mechanism of steroid-dependent MR transformation, we asked if the MR-signaling pathway is affected by the phosphorylation status of the MR-heterocomplex, and how that pathway may be regulated. Incubation of preformed [3H]ALDO-MR complex with bovine intestinal alkaline phosphatase led to an increase in the rate of MR-transformation (measured as 9.4-5.4S shift). This alkaline phosphatase-dependent MR transformation was inhibited by the specific alkaline phosphatase-type inhibitor levamisole, and was not evident in incubations performed with acid phosphatases. A direct correlation between the DNA-cellulose binding capacity of the [3H]ALDO-MR complex and the percentage of transformed 5.4S MR form was also observed. When rat kidney cytosol was incubated in the absence of both exogenous phosphatase and stabilizing agents (such as molybdate or vanadate), MR transformation also took place, in a time- and temperature-dependent process. In contrast with the inhibitory effect observed upon alkaline phosphatase-promoted transformation, levamisole was unable to inhibit the endogenous transforming activity of MR, suggesting that an endogenous phosphatase other than those which belong to the alkaline-type may be responsible for that transformation. Tautomycin, a polyketide produced by the soil bacteria Streptomyces which inhibits serine/threonine phosphatases of the PP1/PP2A subgroup, was able to inhibit the endogenous phosphatase activity in a concentration-dependent form (Ki(app)=7.35 nM). These results support the idea that the endogenous renal activity involved in the regulation of rat kidney MR transformation may be a protein phosphatase which belongs to the PP1/PP2A subgroup.
Mol Cell Endocrinol 1998 Sep 25
PMID:Tautomycin inhibits phosphatase-dependent transformation of the rat kidney mineralocorticoid receptor. 986 32

In the past few years, molecular cloning studies have revealed the primary structure of plant protein serine/threonine phosphatases. Two structurally distinct families, the PP1/PP2A family and the PP2C family, are present in plants as well as in animals. This review will focus on the plant PP2C family of protein phosphatases. Biochemical and molecular genetic studies in Arabidopsis have identified PP2C enzymes as key players in plant signal transduction processes. For instance, the ABI1/ABI2 PP2Cs are central components in abscisic acid (ABA) signal transduction. Arabidopsis mutants containing a single amino acid exchange in ABI1 or ABI2 show a reduced response to ABA. Another member of the PP2C family, kinase-associated protein phosphatase (KAPP), appears to be an important element in some receptor-like kinase (RLK) signalling pathways. Finally, an alfalfa PP2C acts as a negative regulator of a plant mitogen-activated protein kinase (MAPK) pathway. Thus, the plant PP2Cs function as regulators of various signal transduction pathways.
Plant Mol Biol 1998 Dec
PMID:Protein phosphatase 2C (PP2C) function in higher plants. 986 99

To understand the molecular mechanism of gibberellin-dependent gene regulation, the effect of three phosphatase inhibitors on the germination of rice seeds and the expression of a target gene, the alpha-amylase gene, Osamy-c, were measured. We found that okadaic acid, microcystin-LR, and calyculin A, which are known to specifically inhibit Ser/Thr phosphatases 1 and 2A, strongly inhibit the expression of the Osamy-c and may be involved in the germination of rice seeds. The protein phosphatase enzyme activity assays showed that there is no obvious effect of GA3 on total PP1/PP2A activities. To further understand the possible role of protein phosphatases 1 and 2A in the GA-dependent expression of Osamy-c, we isolated cDNA clones encoding protein phosphatase 1 and protein phosphatase 2A from a rice aleurone cDNA library. These were designated OsPP1c and OsPP2Ac, respectively. Comparison of the deduced amino acid sequences of OsPP1c and OsPP2Ac with the catalytic subunits of PP1 or PP2A of rabbit skeletal muscle, Arabidopsis thaliana, maize and Brassica napus showed that the catalytic subunit sequences of PP1 or PP2A among these organisms are highly conserved (73% to 90% similarity). Genomic Southern blot analysis indicated that there are only one or two copies of OsPP1c genes and more than two copies of OsPP2Ac genes in the rice genome. Northern blot analysis showed that OsPP1c and OsPP2Ac genes are expressed in several organs of rice, including seed, shoot and root. We also showed by using 3' gene-specific probes of OsPP1c and OsPP2Ac cDNA, that the expression of neither gene is regulated by GA. Taken together, our results suggest that protein phosphatases PP1 or PP2A are involved in the GA-dependent expression of the rice Osamy-c gene, though the PP1 or/and PP2A enzymatic activities as well as mRNA levels do not increase upon GA3 treatment.
Plant Mol Biol 1999 Jan
PMID:Molecular characterization of catalytic-subunit cDNA sequences encoding protein phosphatases 1 and 2A and study of their roles in the gibberellin-dependent Osamy-c expression in rice. 1008 Jul 13


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