Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
 17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenine- and uridine di- and triphosphates (in a 3 mM concentration) increase considerably phosphoprotein phosphatase (PPPase) (EC 3.1.3.16) activity of rat and chicken myocardium homogenates. AMP and Pi are effective inhibitors of the enzyme. The ATP activating effect is also shown in partially purified preparations of rat myocardium PPPase. ATP is able of protecting significantly the enzyme during its thermodenaturation.
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PMID:[Participation of some nucleotides in regulation of phosphoprotein phosphates activity in rat and chicken myocardium]. 19 73

Normal eukaryotic cells do not initiate mitosis until DNA replication has been completed. This requirement can be bypassed by exposing cells to certain chemicals. We report here that chemically induced premature mitosis is not readily achieved in all mammalian species. Although hamster cells underwent premature mitosis following treatment with caffeine, the protein phosphatase inhibitor okadaic acid, and the protein kinase inhibitors 2-aminopurine and 6-dimethyl-aminopurine, the mouse and human cells examined in this study displayed little or no response to any of these compounds. Differences in cell permeability or metabolism could not account for the species specificity of these drugs, because other biochemical and mitosis-promoting activities were apparent in human cells. Cell-type specificity can be explained, however, by the timing of cyclin B synthesis and p34cdc2/cyclin B complex formation during the cell cycle. Synthesis of cyclin B and formation of a p34cdc2/cyclin B complex, both of which are required for initiation of mitosis, were prevalent in hamster cells arrested in S phase but were absent or barely detectable in arrested human cells. In hamster cells, the hyperphosphorylated form of p34cdc2 was complexed with cyclin B and underwent tyrosine dephosphorylation during caffeine-induced premature mitosis. These findings indicate that the onset of mitosis is regulated somewhat differently among mammalian cell types and that these differences affect the vulnerability of cells to drug-induced mitotic aberrations and cytogenetic damage.
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PMID:Chemically induced premature mitosis: differential response in rodent and human cells and the relationship to cyclin B synthesis and p34cdc2/cyclin B complex formation. 183 Jun 67

We have examined the effects of various inhibitors of protein kinases and phosphatases on Sindbis virus maturation in BHK cells. 2-aminopurine, a nonspecific protein kinase inhibitor, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride (W-7), a specific inhibitor of calmodulin/Ca(2+)-dependent protein kinase, and okadaic acid (OKA), a protein phosphatase inhibitor, dose-dependently inhibited Sindbis virus maturation. Although virus production was inhibited, the membrane glycoprotein precursors PE2/E1 were exported from the endoplasmic reticulum and PE2 was converted to E2 at normal kinetic rates. The glycoproteins were delivered to the plasma membrane in conformations which rendered them competent for low pH-mediated cell-cell fusion from within. Electron microscopy showed that in the presence of W-7, virus nucleocapsids were free in the cell cytoplasm, while in the presence of OKA, the nucleocapsids were associated with cell membranes. Metabolic labeling of Sindbis virus-infected cells with [32P]orthophosphate in the presence of OKA resulted in the specific labeling of the PE2/E2 glycoprotein. We have previously shown that the carboxyl terminus of the PE2 glycoprotein is initially buried in cell membranes and is then exposed to the cytoplasm at some later stage in virus maturation. The data shown are consistent with the hypothesis that phosphorylation and dephosphorylation play a critical role in a late stage in Sindbis virus maturation, possibly in releasing of the E2 tail from cell membranes.
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PMID:Phosphorylation and dephosphorylation events play critical roles in Sindbis virus maturation. 839 6

The synthesis and phosphorylation of protein factor(s) that bind to the positive cis-acting element (-69 to -98 nt) of the CYP2B1/B2 gene have been examined in vivo in the rat. Treatment of rats with cycloheximide, a protein synthetic inhibitor, suppresses basal as well as phenobarbitone-induced levels of CYP2B1/B2 mRNA and its run-on transcription. Under these conditions, complex formation of the nuclear extract with the positive element is also inhibited, as judged by gel shift assays. Treatment of rats with 2-aminopurine, a general protein kinase inhibitor, blocks the phenobarbitone-mediated increase in CYP2B1/B2 mRNA, cell-free transcription of a minigene construct containing the positive element, pP450e179DNA, and binding of nuclear proteins to the positive element. Treatment of rats with okadaic acid, a protein phosphatase inhibitor, mimics the effects of phenobarbitone, but only partially. Thus, both phenobarbitone and okadaic acid individually enhance binding of the nuclear protein(s) to the positive element, cell-free transcription of the minigene construct, and phosphorylation of the approximately 26- and 94-kDa proteins binding to the positive element. But unlike phenobarbitone, okadaic acid is not an inducer of CYP2B1/B2 mRNA or its run-on transcription. Thus, phenobarbitone-responsive positive element interactions constitute only a minimal requirement, and okadaic acid is perhaps not able to bring about the total requirement for activation of CYP2B1/B2 gene transcription that should include interaction between the minimal promoter and further upstream elements. An intriguing feature is the antagonistic effect of okadaic acid on phenobarbitone-mediated effects on CYP21B1/B2 mRNA levels, cell-free and run-on transcription, and nuclear protein binding to the positive element. The reason for this antagonism is not clear. It is concluded that phenobarbitone treatment enhances in vivo the synthesis and phosphorylation of protein factors binding to the positive element and these constitute a minimal requirement for the transcriptional activation of the CYP2B1/B2 gene.
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PMID:Involvement of synthesis and phosphorylation of nuclear protein factors that bind to the positive cis-acting element in the transcriptional activation of the CYP2B1/B2 gene by phenobarbitone in vivo. 866 Jun 86

The bladder carcinoma cell line J82-NVB was selected for resistance to the new vinca alkaloid Navelbine. These cells possessed a non-MDR phenotype and were cross-resistant to vinca alkaloids and taxoids. Some morphological differences between sensitive (J82) and resistant (J82-NVB) cells were observed J82 cells had a heterogeneous population morphology with both epithelial and spindle shaped cells, while J82-NVB cells were almost all of the epithelial type. Vimentin intermediate filaments were less organized in J82-NVB than in J82 cells. Moreover, desmosomes were present in the membranes of J82NVB cells but not in J82 cells. These findings suggest that J82 cells are poorly differentiated epithelial cells while J82-NVB cells possess some characteristics of a more differentiated epithelial cell line. After a two-week treatment with all-trans retinoic acid, all the cells became spindle shaped, vimentin filaments reappeared in the cytoplasm of J82-NVB cells and desmosomes disappeared from the membranes of these cells. These changes were accompanied by a decrease from 17 to 4.6 of the resistance factor of J82-NVB cells to Navelbine. This decrease in resistance was concomitant with modifications of microtubules assembly regulation mechanisms. After Navelbine treatment, microtubule reassembly occurred in resistant but not in sensitive nor in retinoic acid treated cells. Okadaic acid, a protein phosphatase inhibitor, inhibited microtubule reassembly in resistant cells, and 2-aminopurine, a protein kinase inhibitor, induced microtubule reassembly in sensitive cells after Navelbine treatment. These findings show that microtubule reassembly after depolymerization is regulated by the kinase/phosphatase systems. A treatment with phorbol myristate acetate (PMA), a protein kinase C (PKC) agonist, induced the same morphological modifications and resistance decrease as retinoic acid treatment. A specific PKC inhibitor (Bisindolymaleimide) prevented these PMA-induced morphological modifications and resistance decrease in J82-NVB cells, showing that these effects were mediated by PKC. This study suggests that, in part by acting on some properties of the cytoskeleton, the differentiation modulator, retinoic acid, and the signal transduction modulator, phorbol myristate acetate, can decrease the resistance of J82-NVB cells to microtubule poisons.
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PMID:Concomitant decrease of resistance and modifications of the cytoskeleton after all-trans retinoic acid and phorbol ester treatments in a navelbine-resistant bladder carcinoma cell line. 913 63

Protein phosphatase 2A (PP2A) is a large family of holoenzymes that comprises 1% of total cellular proteins and accounts for the majority of Ser/Thr phosphatase activity in eukaryotic cells. PP2A proteins are made of a core dimer, composed of a catalytic (C) subunit and a structural (A) subunit, in association with a third variable -regulatory (B) subunit. Although initially considered as a constitutive housekeeping enzyme, PP2A is indeed highly regulated by post-translational modifications of its catalytic subunit or by the identity of a regulatory type B subunit, which determines substrate specificity, subcellular localization and enzymatic activity of a defined holoenzyme. During the two last decades, multiple studies of structural and functional regulation of PP2A holoenzymes by viral proteins led to the identification of critical pathways for both viral biology and tumorigenesis. To date a dozen of different viruses (ADN/ARN or retrovirus) have been identified that encode viral proteins associated to PP2A. In this review, we analyze a biological strategy, used by various viruses based on the targeting of PP2A enzymes by viral proteins, in order to specifically deregulate cellular pathways of their hosts. The impact of such PP2A targeting for biomedical search, and in further therapeutic developments against cancer, will also be discussed.
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PMID:[Targeting of PP2A enzymes by viral proteins and cancer signalling]. 2219 50