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)

Nef is a lentiviral protein involved in pathogenesis of AIDS, but its molecular mechanisms of action remain incompletely understood. Here we report a novel effect of Nef on lymphocyte signaling, which is mediated via a T cell receptor (TCR)-independent contribution of Nef to induction of nuclear factor of activated T cells (NFAT), a transcription factor that plays a central role in coordinating T cell activation. Expression of Nef did not significantly alter the basal level of NFAT activity in Jurkat cells nor the increased activity following T cell receptor stimulation by anti-CD3 or anti-CD3 + anti-CD28. We also mimicked NFAT induction by TCR triggering by simultaneous activation of the Ras and calcium signaling pathways with phorbol 12-myristate 13-acetate and ionomycin, respectively. Strikingly, whereas activation of either of these pathways individually did not induce NFAT activity in control cells, in Nef-expressing cells phorbol 12-myristate 13-acetate treatment alone resulted in a 100-fold increase in NFAT-directed gene expression. Experiments with different dominant negative mutant signaling proteins, inhibitory chemicals, and Lck-deficient Jurkat cells revealed that this effect was mediated via activation of calcineurin by Nef-induced changes in calcium metabolism, but was independent of TCR-associated signaling events. This ability of Nef to substitute for triggering of the calcium pathway in induction of NFAT could promote activation of human immunodeficiency virus (HIV)-infected T cells in response to stimuli mediated via TCR or other cell surface receptors under conditions when activation of Ras rather than calcium signaling would otherwise predominate.
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PMID:Synergistic activation of NFAT by HIV-1 nef and the Ras/MAPK pathway. 1074 82

The Vpr protein of primate lentiviruses arrests cell cycling at the G(2)/M phase through an inactivation of cyclin B-p34(cdc2) and its upstream regulator cdc25. We provide here biochemical and functional evidence demonstrating that human immunodeficiency virus type 1 (HIV-1) Vpr mediates G(2) arrest by forming a complex with protein phosphatase 2A (PP2A), an upstream regulator of cdc25. Vpr associates with PP2A through a specific interaction with the B55 regulatory subunit. This interaction is necessary but not sufficient for G(2) arrest. Interestingly, we found that Vpr association with B55-containing PP2A targets the enzymatic complex to the nucleus and, importantly, enhances the recruitment and dephosphorylation of the cdc25 substrate. Our data suggest that Vpr mediates G(2) arrest by enhancing the nuclear import of PP2A and by positively modulating its catalytic activity towards active phosphorylated nuclear cdc25.
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PMID:Human immunodeficiency virus type 1 Vpr-mediated G(2) cell cycle arrest: Vpr interferes with cell cycle signaling cascades by interacting with the B subunit of serine/threonine protein phosphatase 2A. 1211 Jun 3

Severe Combined Immunodeficiency (SCID) is a primary immunodeficiency affecting T cells, B cells, or both. Whereas the clinical symptoms are uniformly dominated by recurrent infections, the molecular causes for SCID are very heterogeneous. Mutations in cell surface receptors, signal transduction molecules and transcription factors have been described, including the common gamma chain of the IL-2 (and IL-4, IL-7, IL-9 and IL-15) receptors, the kinase JAK-3, the epsilon and gamma chains of CD3, the protein tyrosine kinase ZAP-70, as well as CIITA and RFX5 involved in MHC class II gene expression. In this work we describe two infants with SCID whose T cells display a severe defect in T cell activation and cytokine transcription due to impaired activation of the transcription factor NFAT. We show that this defect in activation is not due to mutations in the NFAT proteins expressed in T cells or the phosphatase calcineurin which regulates the activation of NFAT. However, nuclear import of NFAT in response to T cell activation was severely compromised in the patients' T cells. A modest degree of nuclear translocation of NFAT was achieved in the patients' T cells when nuclear export was inhibited using lithium chloride. This low level of nuclear NFAT in the nucleus was not sufficient to compensate for the defect in cytokine production in the patients' T cells. However, elevated levels of extracellular calcium led to an increase in cytokine gene transcription by the SCID T cells, suggesting that the underlying genetic defect in the patients involved calcium influx or the initiation of calcium signalling.
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PMID:Impaired NFAT regulation and its role in a severe combined immunodeficiency. 1099 88

The authors discuss the importance that molecular medicine has assumed in recent years. Molecular methodologies have clearly demonstrated that immunological diversity is based fundamentally on the rearrangement of the genes encoding antigen B and T cell receptors. The importance of oncogenes, and their translocation in tumoral pathologies is emphasized, a case in point being the alterations observed in chronic myeloid leukemia and acute promyelocytic leukemia and their implication for innovative therapy. The importance of prothrombin and factor V genetic-molecular alterations in thromboembolic pathology and of the activation of calcineurin phosphatase or other intracellular signal regulator molecules during cardiac insufficiency genesis is also discussed. Particular attention is paid to progress regarding the socially important Alzheimer's syndrome, and the diagnosis of endocrine tumors. Moreover, the authors believe that the identification of new endocrine nuclear receptors, "orphans" of hormonal ligands, will open up interesting prospects--even therapeutic--in endocrinology. The authors conclude by reviewing the therapeutic prospects for immunodeficiency syndromes and malignant tumors, offered by new gene therapy methodologies. They also discuss recent results of studies on the aging process which, until not many years ago, appeared adventuristic. Today they are opening prospects of great interest.
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PMID:[Molecular medicine: new tools for better understanding and treatment of diseases in humans]. 1105 61

Modulation of many signaling pathways in antigen-stimulated T and B cells results in global changes in gene expression. Here we investigate the contribution of calcium signaling to gene expression in T cells using cell lines from two severe-combined immunodeficiency patients with several cytokine deficiencies and diminished activation of the transcription factor NFAT nuclear factor of activated T cells. These T cells show a strong defect in transmembrane calcium influx that is also apparent in their B cells and fibroblasts. DNA microarray analysis of calcium entry-deficient and control T cells shows that Ca2+ signals both activate and repress gene expression and are largely transduced through the phosphatase calcineurin. We demonstrate an elaborate network of signaling pathways downstream of the T cell receptor, explaining the complexity of changes in gene expression during T cell activation.
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PMID:Gene regulation mediated by calcium signals in T lymphocytes. 1127 2

Viral protein R (Vpr) of human immunodeficiency virus type 1 induces G2 arrest in cells from distantly related eukaryotes including human and fission yeast through inhibitory phosphorylation of tyrosine 15 (Tyr15) on Cdc2. Since the DNA damage and DNA replication checkpoints also induce G2 arrest through phosphorylation of Tyr15, it seemed possible that Vpr induces G2 arrest through the checkpoint pathways. However, Vpr does not use either the early or the late checkpoint genes that are required for G2 arrest in response to DNA damage or inhibition of DNA synthesis indicating that Vpr induces G2 arrest by an alternative pathway. It was found that protein phosphatase 2A (PP2A) plays an important role in the induction of G2 arrest by Vpr since mutations in genes coding for a regulatory or catalytic subunit of PP2A reduce Vpr-induced G2 arrest. Vpr was also found to upregulate PP2A, supporting a model in which Vpr activates the PP2A holoenzyme to induce G2 arrest. PP2A is known to interact genetically in fission yeast with the Wee1 kinase and Cdc25 phosphatase that act on Tyr15 of Cdc2. Both Wee1 and Cdc25 play a role in Vpr-induced G2 arrest since a wee1 deletion reduces Vpr-induced G2 arrest and a direct in vivo assay shows that Vpr inhibits Cdc25. Additional support for both Wee1 and Cdc25 playing a role in Vpr-induced G2 arrest comes from a genetic screen, which identified genes whose overexpression affects Vpr-induced G2 arrest. For this genetic screen, a strain was constructed in which cell killing by Vpr was nearly eliminated while the effect of Vpr on the cell cycle was clearly indicated by an increase in cell length. Overexpression of the wos2 gene, an inhibitor of Wee1, suppresses Vpr-induced G2 arrest while overexpression of rad25, an inhibitor of Cdc25, enhances Vpr-induced G2 arrest. These two genes may be part of the uncharacterized pathway for Vpr-induced G2 arrest in which Vpr upregulates PP2A to activate Wee1 and inhibit Cdc25.
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PMID:HIV-1 Vpr induces cell cycle G2 arrest in fission yeast (Schizosaccharomyces pombe) through a pathway involving regulatory and catalytic subunits of PP2A and acting on both Wee1 and Cdc25. 1153 13

In CD4+ UE160 cells with inducible expression of gp160, mechanisms of apoptosis induced by human immunodeficiency virus (HIV) Env protein were analyzed. Induction of gp160 caused intracellular calcium increase followed by the release of cytochrome c from mitochondria, which was inhibited by calcineurin inhibitors. Association of BAD with Bcl-xL was observed, and a portion of BAD was dephosphorylated after induction of gp160. These data suggested that calcineurin plays a role in the HIV Env-induced apoptosis in a mitochondrion-dependent way.
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PMID:Calcineurin-dependent mitochondrial disturbances in calcium-induced apoptosis of human immunodeficiency virus gp160-expressing CD4+ cells. 1173 7

Stimulation of transcriptional elongation by the human immunodeficiency virus type 1 Tat protein is mediated by CDK9, a kinase that phosphorylates the RNA polymerase II carboxyl-terminal domain (CTD). In order to obtain direct evidence that this phosphorylation event can alter RNA polymerase processivity, we prepared transcription elongation complexes that were arrested by the lac repressor. The CTD was then dephosphorylated by treatment with protein phosphatase 1. The dephosphorylated transcription complexes were able to resume the transcription elongation when IPTG (isopropyl-beta-D-thiogalactopyranoside) and nucleotides were added to the reaction. Under these chase conditions, efficient rephosphorylation of the CTD was observed in complexes containing the Tat protein but not in transcription complexes prepared in the absence of Tat protein. Immunoblots and kinase assays with synthetic peptides showed that Tat activated CDK9 directly since the enzyme and its cyclin partner, cyclin T1, were present at equivalent levels in transcription complexes prepared in the presence or absence of Tat. Chase experiments with the dephosphorylated elongation transcription complexes were performed in the presence of the CDK9 kinase inhibitor DRB (5,6-dichloro-1-beta-D-ribofuranosyl-benzimidazole). Under these conditions there was no rephosphorylation of the CTD during elongation, and transcription through either a stem-loop terminator or bent DNA arrest sequence was strongly inhibited. In experiments in which the CTD was phosphorylated prior to elongation, the amount of readthrough of the terminator sequences was proportional to the extent of the CTD modification. The change in processivity is due to CTD phosphorylation alone, since even after the removal of Spt5, the second substrate for CDK9, RNA polymerase elongation is enhanced by Tat-activated CDK9 activity. We conclude that phosphorylation of the RNA polymerase II CTD by CDK9 enhances transcription elongation directly.
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PMID:Phosphorylation of the RNA polymerase II carboxyl-terminal domain by CDK9 is directly responsible for human immunodeficiency virus type 1 Tat-activated transcriptional elongation. 1205 71

Transcription by RNA polymerase-II (RNAPII) is controlled by multisite phosphorylation of the heptapeptide repeats in the C-terminal domain (CTD) of the largest subunit. Phosphorylation of CTD is mediated by the cyclin-dependent protein kinases Cdk7 and Cdk9, whereas protein serine/threonine phosphatase FCP1 dephosphorylates CTD. We have recently reported that human immunodeficiency virus-1 (HIV-1) transcription is positively regulated by protein phosphatase-1 (PP1) and that PP1 dephosphorylates recombinant CTD. Here, we provide further evidence that PP1 can dephosphorylate RNAPII CTD. In vitro, PP1 dephosphorylated recombinant CTD as well as purified RNAPII CTD. HeLa nuclear extracts were found to contain a species of PP1 that dephosphorylates both serine 2 and serine 5 of the heptapeptide repeats. In nuclear extracts, PP1 and FCP1 contributed roughly equally to the dephosphorylation of serine 2. PP1 co-purified with RNAPII by gel filtration and associated with RNAPII on immunoaffinity columns prepared with anti-CTD antibodies. In cultured cells treated with CTD kinase inhibitors, the dephosphorylation of RNAPII on serine 2 was inhibited by 45% by preincubation with okadaic acid, which inhibits phosphatases of PPP family, including PP1 but not FCP1. Our data demonstrate that RNAPII CTD is dephosphorylated by PP1 in vitro and by PPP-type phosphatase, distinct from FCP1, in vivo.
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PMID:Protein phosphatase-1 dephosphorylates the C-terminal domain of RNA polymerase-II. 1218 79

This study explores the role of the calmodulin- and Ca(2+)-sensitive phosphatase calcineurin A in the control of bone resorption by mature osteoclasts. We first cloned full-length calcineurin Aalpha and Abeta cDNA from a rabbit osteoclast library. Sequence analysis revealed an approximately 95 and 86% homology between the amino acid and the nucleotide sequences, respectively, of the two isoforms. The two rabbit isoforms also showed significant homology with the mouse, rat, and human homologs. In situ RT-PCR showed evidence of high levels of expression of calcineurin Aalpha mRNA in freshly isolated rat osteoclasts. Semiquantitative analysis of staining intensity revealed no significant difference in calcineurin Aalpha expression in cells treated with vehicle vs. those treated with the calcineurin (activity) inhibitors cyclosporin A (8 x 10(-7) M) and FK506 (5 x 10(-9) and 5 x 10(-7) M). We then constructed a fusion protein comprising calcineurin Aalpha and TAT, a 12-amino acid-long arginine-rich sequence of the human immunodeficiency virus protein. Others have previously shown that the fusion of proteins to this sequence results in their receptor-less transduction into cells, including osteoclasts. Similarly, unfolding of the TAT-calcineurin Aalpha fusion protein by shocking with 8 M urea resulted in its rapid influx, within minutes, into as many as 90% of all freshly isolated rat osteoclasts, as was evident on double immunostaining with anti-calcineurin Aalpha and anti-TAT antibodies. Pit assays performed with TAT-calcineurin Aalpha-positive osteoclasts revealed a concentration-dependent (10-200 nM) attenuation of bone resorption in the absence of cell cytotoxicity or changes in cell number. TAT-hemaglutinin did not produce significant effects on bone resorption or cell number. The study suggests the following: 1) the 61-kDa protein phosphatase calcineurin Aalpha can be effectively tranduced into osteoclasts by using the TAT-based approach, and 2) the transduced protein retains its capacity to inhibit osteoclastic bone resorption.
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PMID:Molecular cloning, expression, and function of osteoclastic calcineurin Aalpha. 1241 72

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