EC:3.1.3.16 - FACTA Search

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)

Five protein serine/threonine phosphatases (PP) have been identified by cloning cDNA from mammalian and Drosophila libraries. These novel enzymes, which have not yet been detected by the techniques of protein chemistry and enzymology, are termed PPV, PP2Bw, PPX, PPY and PPZ. The complete amino acid sequences of PPX, PPY and PPZ and an almost complete sequence of PPV are presented. In the catalytic domain PPV and PPX are more similar to PP2A (57-69% identity) than PP1 (45-49% identity), while PPY and PPZ are more similar to PP1 (66-68% identity) than PP2A (44% identity). The cDNA for PP2Bw encodes a novel Ca2+/calmodulin-dependent protein phosphatase only 62% identical to PP2B in the catalytic domain. Approaches for determining the cellular functions of these protein phosphatases are discussed.
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PMID:Protein serine/threonine phosphatases; an expanding family. 216 91

The role of protein phosphorylation in the formation of secretory vesicles from the trans-Golgi network (TGN) and in the regulation of this process by TGN-associated trimeric G-proteins was investigated, using a previously established and a novel cell-free system derived from the neuroendocrine cell line PC12. In the absence of exogenous activators of trimeric G-proteins, okadaic acid, an inhibitor of protein serine/threonine phosphatase types 1, 2A, and PPX, had no significant effect on secretory vesicle formation as reconstituted in a postnuclear supernatant. However, okadaic acid antagonized the inhibition of secretory vesicle formation which occurred upon activation of trimeric G-proteins by either aluminum fluoride or guanosine 5'-3-O-(thio)-triphosphate (GTP gamma S). Microcystin-LR, a protein phosphatase inhibitor structurally distinct from okadaic acid, also antagonized the trimeric G-protein-mediated inhibition of secretory vesicle formation but, in contrast to okadaic acid, alone was sufficient to stimulate this process. The antagonistic effect of the phosphatase inhibitors was abolished by a broad spectrum protein kinase inhibitor, staurosporine, which alone, however, did not affect vesicle formation. The effect of okadaic acid was promoted by activators of protein kinase C (phorbol myristate acetate) and protein kinase A (cyclic AMP). To investigate the subcellular localization of the phosphoprotein that is involved in the antagonistic effect of protein phosphatase inhibitors, a novel cell-free system was established which reconstitutes the formation of secretory vesicles from TGN membranes supplemented with cytosol. Using this cell-free system, the relevant phosphoprotein was found to reside in the cytosol. In conclusion, our results suggest that serine/threonine protein phosphorylation is not required for secretory vesicle formation from the TGN but modulates, via a cytosolic phosphoprotein, the regulation of this process by TGN-associated trimeric G-proteins.
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PMID:An elevation of cytosolic protein phosphorylation modulates trimeric G-protein regulation of secretory vesicle formation from the trans-Golgi network. 792 71

A clone encoding the catalytic subunit of a protein phosphatase from Saccharomyces cerevisiae was isolated. Except for replacement of IIe-245 by Met the structure of the phosphatase was identical to that encoded by PPH3 (Ronne, H., Carlberg, M., Hu, G. Z. and Nehlin, J. O. (1991). Mol. Cell. Biochem. 11, 4876-4884) and exhibited 63% sequence identity to PPX cloned from a rabbit liver cDNA library (Brewis, N.D., Street, A.J., Prescott, A.R. and Cohen, P.T.W. (1993). EMBO J. 12, 987-996). Expression of active enzyme was achieved in Escherichia coli mutants which were generated by a genetic selection based on functional complementation of bacterial phosphoserine phosphatase. Though some of the properties of PPH3 resembled those of protein phosphatase 2A and PPX, others were different. PPH3 exhibited lower sensitivity against inhibition by okadaic acid, showed different substrate specificity and required a divalent cation (Mn2+ was preferred before Mg2+ and Ca2+) for activity when assayed with phospho-histone as a substrate. However, 25% of maximum activity was observed in the absence of divalent cations when the peptide LRRAS(P)LG was used as substrate. The PPH3-protein was also identified by chromatography of extracts from S. cerevisiae on DEAE-cellulose. Protein immunoreactive with an antiserum raised against the non-conserved N-terminal 53 amino acids of PPH3 was coeluted with a single peak of LRRAS(P)LG dephosphorylating activity.
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PMID:The Saccharomyces cerevisiae gene PPH3 encodes a protein phosphatase with properties different from PPX, PP1 and PP2A. 794 42

The amino acid sequence of a novel mammalian protein phosphatase, termed PPX (and designated PPP4 in the human genome nomenclature), has been deduced from the cDNA and shown to be 65% identical to PP2A alpha and PP2A beta and 45% identical to PPI isoforms, the predicted molecular mass being 35 kDa. PPX was expressed in the baculovirus system. Its substrate specificity and sensitivity to the inhibitors, okadaic acid and microcystin, were similar (but not identical) to the catalytic subunit of PP2A. However, PPX did not bind the 65 kDa regulatory subunit of PP2A. The intracellular localization of PPX was investigated by immunofluorescence using two different antibodies raised against bacterially expressed PPX and a PPX-specific peptide. These showed that although PPX was distributed throughout the cytoplasm and the nucleus, intense staining occurred at centrosomes. The centrosomal staining was apparent in interphase and at all stages of mitosis, except telophase. In contrast, antibodies directed against bacterially expressed PP2A were not specifically localized to centrosomes. The human autoantibody #5051, which stains the pericentriolar material, colocalizes with PPX antibodies, suggesting that PPX may play a role in microtubule nucleation.
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PMID:PPX, a novel protein serine/threonine phosphatase localized to centrosomes. 838 57

An unknown sequence that may encode a fragment of the Ser/Thr protein phosphatase (designated PP6Zm) related to PPT/rdgC phosphatases was identified using PCR on maize genomic DNA. A dbEST search using a partial amino acid sequence of PP6Zm revealed a putative homolog of PP6Zm expressed in Arabidopsis thaliana (EMBL AT6726). A search of the SwissProt database indicated that the partial amino acid sequence of AT6726 has the highest identity (54.3%) to the rdgC phosphatase from Drosophila melanogaster. The maize phosphatase PP1Zm6, described previously as a PP1 isoform (EMBO J., 1993, vol. 12, p. 3497), was found by us to be plant homolog of mammalian PPT. In addition, six fragments of new (pseudo) genes homologous to the phosphatase genes encoding PP1, PP2A, and PPX isoforms were detected in the maize genome. The existence in maize of a multigene PP2A family, reported only for dicotyledons, and of a PP1 multigene family, found earlier in both di- and monocotyledons, was shown.
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PMID:[Genes of plant Ser/Thr protein phosphatases: detection of sequences related to PPT/rdgC]. 926 70

Specific rabbit polyclonal antibodies against peptides corresponding to the highly homologous protein serine/threonine phosphatase 2A and X catalytic subunits (PP2A/C and PPX/C respectively) were used to investigate the cellular and subcellular distribution of PP2A/C and PPX/C, as well as their methylation state. Immunoblots of rat tissue extracts revealed a widespread distribution of these enzymes but particularly high levels of PP2A/C and PPX/C in brain and testes respectively. In addition, immunoblots of subcellular fractions and immunocytochemical analyses of rat brain sections demonstrated that PPX/C is predominantly localized to the nucleus, whereas PP2A/C is largely cytoplasmic. Treatment of nuclear extracts with alkali resulted in increased PPX/C immunoreactivity to a polyclonal antibody directed against the C-terminus; no change in PPX immunoreactivity was observed using an antibody against an internal peptide. Alkali treatment of brain and liver cytosolic and nuclear extracts did not change the molecular mass or the isoelectric point of PPX/C. Furthermore, tritiated PPX/C was immunoprecipitated from COS cell extracts incubated with the methyl donor S-adenosyl-l-[methyl-3H]methionine. Thus the increase in immunoreactivity probably results from removal of a carboxymethyl group from PPX/C, as has been shown previously for PP2A/C [Favre, Zolnierowicz, Turowski and Hemmings (1994) J. Biol. Chem. 269, 16311-16317]. Together, our results indicate that the PPX catalytic subunit is a predominantly nuclear phosphatase and is methylated at its C-terminus.
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PMID:Carboxymethylation of nuclear protein serine/threonine phosphatase X. 935 19

The compact genome of the Japanese pufferfish, Fugu rubripes, about 7.5 times smaller than the human genome, facilitates the isolation of vertebrate genes. We have used this genome to isolate and characterize members of the vertebrate serine/threonine protein phosphatase gene family. Our data reveal the presence of two isoforms of PP2A, alpha and beta, and PPX, as previously found in mammals.
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PMID:Serine/threonine phosphatases of the pufferfish, Fugu rubripes. 937 Feb 85

Nuclear factor kappaB (NF-kappaB) and the Rel family of proteins are pleiotropic transcription factors that play central roles in the immune and inflammatory responses, as well as apoptosis. Here, we identified a serine/threonine protein phosphatase X (PPX; also called protein phosphatase 4 (PP4)) that specifically associated with c-Rel, NF-kappaB p50, and RelA. The amino acid sequences of human and mouse PPX are 100% identical, and the PPX gene was mapped to human chromosome 16 p11.2. Overexpression of PPX, but not catalytically inactive PPX mutants, stimulated the DNA-binding activity of c-Rel and activated NF-kappaB-mediated transcription. These results suggest that PPX is a novel activator of c-Rel/NF-kappaB.
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PMID:Protein phosphatase X interacts with c-Rel and stimulates c-Rel/nuclear factor kappaB activity. 983 38

Protein phosphatases play important roles in the control of various cellular processes. Here, we report the cloning and characterization of the murine cDNA and genomic DNA encoding the serine/threonine protein phosphatase 4 (PP4), also called PPX. While the nucleotide sequences of murine and human PP4 are distinct, their amino acid sequences are identical. We have analyzed the protein, cDNA and genomic PP4 sequences to provide insight into the structure, function and potential regulation of PP4. Genomic Southern blots demonstrated the conservation of PP4 across species. Using Northern blotting and in situ hybridization, we have examined the expression of PP4 in murine embryos and adult tissues. In adult tissues, PP4 was expressed at high levels in the testis, kidney, liver, and lung, and at lower levels in virtually all tissues. PP4 was differentially expressed in murine embryos at different developmental stages, suggesting that PP4 is a developmentally regulated protein phosphatase.
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PMID:Genomic structure of the mouse PP4 gene: a developmentally regulated protein phosphatase. 1170 25

Hematopoietic progenitor kinase 1 (HPK1) is a hematopoietic specific mammalian Ste20-like protein kinase and has been implicated in many cellular signaling pathways including T cell receptor (TCR) signaling. However, little is known about the in vivo regulation of HPK1. We present evidence that HPK1 is positively regulated by protein phosphatase 4 (PP4; also called PPX and PPP4), a serine/threonine phosphatase. We found that PP4 interacted with HPK1 and that the proline-rich region of HPK1 was necessary and sufficient for this interaction. We also found that PP4 had phosphatase activity toward HPK1 in vivo and that co-transfection of PP4 with HPK1 resulted in specific kinase activation of HPK1. Moreover, we found that the PP4-induced HPK1 kinase activation was accompanied by an increase in protein expression of HPK1. Pulse-chase analysis showed that PP4 increased the half-life of HPK1. Further studies showed that HPK1 was subject to regulation by ubiquitination and ubiquitin-targeted degradation and that PP4 inhibited HPK1 ubiquitination. In addition, we found that TCR stimulation enhanced the PP4-HPK1 interaction and that wild-type PP4 enhanced, whereas a phosphatase-dead PP4 mutant inhibited, TCR-induced activation of HPK1 in Jurkat T cells. Combined with the observation that PP4 enhanced HPK1-induced JNK activation, our studies identify PP4 as a positive regulator for HPK1 and the HPK1-JNK signaling pathway.
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PMID:Protein phosphatase 4 is a positive regulator of hematopoietic progenitor kinase 1. 1536 34

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