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)

Calcineurin is one of the calmodulin binding proteins and a Ca2+-dependent and calmodulin-stimulated phosphoprotein phosphatase. We used antisera to the calcineurin as a cell-type-specific marker in order to identify neuronal cells in the rat brain and human neoplasms. In normal rat brain slices, basal ganglia were stained macroscopically, and other areas such as cerebral cortex, corpus callosum, cerebellar cortex, granular layer and pyramidal tract of the spinal cord were lightly identified as well. Under the light microscope, it was found that only the neuronal cells were stained, and astrocytes, oligodendrocytes, ependymal cells and vessels were not. Intracellular distribution of the staining showed various patterns and staining intensity of varying degree. Using the PAP method, localization of the calcineurin in formalin-fixed, paraffin-embedded tissues were studied in 65 human intracranial neoplasms, and in 11 human extracranial neoplasms. The neuronal elements of neuroblastoma, ganglioglioma, ganglioneuroma and retinoblastoma were clearly stained. In contrast, glioblastoma, astrocytoma, oligodendroglioma, ependymoma, meningioma, neurinoma, pituitary adenoma, craniopharyngioma, hemangioblastoma, hamartoma, lymphoma and mesenchymal tumor were all negative. Two cases out of 5 medulloblastomas were stained, but others were not. Although positive tumors disclosed various staining patterns and intensities, these results indicated that calcineurin could be a new neuronal marker in human brain tumors.
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PMID:Calcineurin as a neuronal marker of human brain tumors. 242 51

Two-dimensional gel electrophoresis of proteins labeled with 32Pi in S49 mouse lymphoma cells revealed five phosphoproteins that were rapidly and reversibly dephosphorylated in response to elevation of cyclic AMP (cAMP). Under basal conditions, labeling of at least two of these proteins was limited by slow turnover of protein-bound phosphate. The rapid cAMP-mediated dephosphorylation of these species was attributable, therefore, to stimulation of a specific phosphoprotein phosphatase.
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PMID:Cyclic AMP stimulates dephosphorylation of specific proteins in intact S49 mouse lymphoma cells. 298 19

The LSTRA murine thymoma cell line contains an elevated level of tyrosine protein kinase activity. When a microsomal preparation from these cells is incubated in vitro with ATP, the principal tyrosine protein kinase substrate is a 56,000-dalton protein, p56. We have found that an activity phosphorylating p56 on tyrosine can also be detected at low levels in microsomes from most, but not all, T lymphoma cell lines and from normal thymic tissue. Only 1 of 30 other lymphoma cell lines was found to contain an elevated level of such a tyrosine protein kinase. An activity that phosphorylated p56 in vitro was not detectable in the cells of other hematopoietic lineages. Anti-peptide antibodies reactive with the site of in vitro tyrosine phosphorylation of p56 allowed us to determine that the apparent abundance of the p56 polypeptide parallels closely the level of the tyrosine protein kinase activity in the cell lines examined. This suggests that p56 is the protein kinase responsible for the elevated tyrosine protein kinase activity in LSTRA cells and that the phosphorylation of p56 observed in vitro results from autophosphorylation. Two-dimensional tryptic peptide mapping revealed that p56 is distinct from the proteins encoded by the cellular genes which are the progenitors of retroviral tyrosine protein kinases, src, yes, fgr, abl, fes, and ros. Additionally, none of these proto-oncogenes was found to be transcribed at elevated levels in LSTRA or Thy19 cells. Like the catalytic subunit of the cyclic AMP-dependent protein kinase, the cellular and viral forms of p60src, and the protein phosphatase calcineurin B, p56 contains covalently bound fatty acid.
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PMID:Characterization of the protein apparently responsible for the elevated tyrosine protein kinase activity in LSTRA cells. 654 43

The WEHI-231 B lymphoma cell line expresses the phenotype of immature B cells. Cross-linking of surface IgM induces programmed cell death (PCD) with typical features of apoptosis demonstrated by the decrease of cell DNA content, chromatin condensation, and nuclear fragmentation. Activation of protein kinase C (PKC) by phorbol esters was reported to protect WEHI-231 cells against apoptosis induced by ligation of antigen receptors. It was therefore hypothesized that PCD could result from a defect in PKC response with an imbalance in the phosphoinositide pathway in favor of Ca2+ mobilization. In support of this hypothesis, we show here that apoptosis can be readily triggered by the calcium ionophore ionomycin. Furthermore, pretreatment of cells with cyclosporin A or FK506 which inhibit selectively the phosphoprotein calcineurin, a calcium-and calmodulin-dependent serine/threonine phosphatase, protects WEHI-231 cells against apoptosis induced by ionomycin or ligation of surface IgM. Unlike phorbol esters, cyclosporin A did not impair the rise of intracellular Ca2+ induced by cross-linking of antigen receptors. Altogether, the data indicate that the phosphorylation status of yet undefined key cellular substrates controls the cellular response to calcium-dependent apoptotic signals in this B cell lymphoma.
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PMID:Cyclosporin A and FK506 inhibit activation-induced cell death in the murine WEHI-231 B cell line. 751 1

The immunosuppressive macrolide, rapamycin, impedes the G1 to S cell cycle progression in cytokine-stimulated normal lymphocytes and in certain autonomously proliferating cell lines. Here, we found that the rapamycin-induced growth arrest augments homotypic aggregation in the YAC-1 T cell lymphoma. The growth arrest and increased aggregation were both blocked by the rapamycin antagonist, L-685,818, which interacts with the intracellular binding proteins mediating rapamycin's biochemical action. Moreover, rapamycin-induced aggregation was not seen in YAC-1 cells mutants selected for resistance to the drug's antiproliferative effect. Although the inhibition of G1/S progression induced by serum deprivation also resulted in increased cellular aggregation, cell cycle blockade in late G1 by mimosine, early S phase by hydroxyurea, or G2/M by nocodazole all failed to do so. Furthermore, the aggregation induced by rapamycin was blocked by antibodies to the alpha (CD11a) or beta (CD18) subunits of the integrin, LFA-1, or to its ligands, ICAM-1 and ICAM-2, and did not occur in LFA-1-deficient YAC mutants. However, the surface expression of LFA-1, ICAM-1, or ICAM-2 was not augmented in cells aggregated by rapamycin. Finally, the serine/threonine protein phosphatase inhibitor, okadaic acid, was found to abrogate rapamycin-induced aggregation. Therefore, rapamycin's impairment of YAC-1 cell growth in G1 is accompanied by enhanced LFA-1-mediated homotypic cell adhesion that may reflect an increase of the integrin's avidity for its ligands and may involve protein phosphorylation/dephosphorylation events. This suggests the existence of a link between cell cycle progression and "inside-out" LFA-1 signaling, possibly regulated by rapamycin's biochemical targets.
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PMID:Increased LFA-1-mediated homotypic cell adhesion is associated with the G1 growth arrest induced by rapamycin in a T cell lymphoma. 754 51

Group I and Epstein-Barr virus-negative Burkitt's lymphoma cell lines and the B104 lymphoma cell line which expresses a phenotype of immature B cells undergo apoptosis after cross-linking of their surface Ig receptors or after exposure to a calcium ionophore. We show here that tumor necrosis factor (TNF)-alpha protects these B cell lines against Ca(2+)-dependent apoptosis. Protection was associated with up-regulation of bcl-2 mRNA and protein expression. The increase of Bcl-2 expression induced by TNF-alpha was inhibited by chelerythrine, a specific inhibitor of protein kinase C (PKC), suggesting that Bcl-2 expression was dependent on PKC activation. Furthermore, we show that phorbol esters and cyclosporin A (CsA), which prevent Ca(2+)-dependent apoptosis, up-regulated Bcl-2 expression. The effect of CsA on Bcl-2 expression is controlled by calcineurin since we have shown that FK506 but not rapamycin had the same effect on Bcl-2 expression, whereas okadaic acid, an inhibitor of phosphatases 1, 2A and 2C, was ineffective. These data provide direct evidence that TNF-alpha prevents Ca(2+)-dependent apoptosis by a Bcl-2-dependent mechanism mediated by PKC.
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PMID:Tumor necrosis factor-alpha up-regulates Bcl-2 expression and decreases calcium-dependent apoptosis in human B cell lines. 754 79

The calmodulin-stimulated phosphatase calcineurin plays a critical role in calcium-dependent T-lymphocyte activation pathways. Here, we report the identification of a missense mutation in the calcineurin A alpha gene expressed by EL4 T-lymphoma cells. This mutation changes an evolutionarily conserved aspartic acid to asparagine within the autoinhibitory domain of the calcineurin A alpha protein. A comparison of wild-type and mutant autoinhibitory peptides indicates that this amino acid substitution greatly reduces inhibition of calcineurin phosphatase activity. Additional peptide inhibition studies support a pseudosubstrate model of autoinhibitory function, in which the conserved aspartic acid residue may serve as a molecular mimic of either phosphoserine or phosphothreonine. Expression of the mutant calcineurin appears to affect cellular signal transduction pathways, as EL4 cells can be activated by suboptimal concentrations of calcium ionophore in the presence of phorbol esters. Moreover, this phenotype can be transferred to Jurkat T cells by transfection of the mutated calcineurin gene. These findings implicate a conserved aspartic acid in the mechanism of calcineurin autoinhibition and suggest that mutation of this residue is associated with aberrant calcium-dependent signaling in vivo.
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PMID:Characterization of a mutant calcineurin A alpha gene expressed by EL4 lymphoma cells. 779 92

Mouse malignant T-lymphoma CS-21 cells grow in vitro in the presence of CA-12 stromal cells, but they undergo apoptotic cell death with DNA fragmentation when cultured alone. Because apoptosis of CS-21 cells was not inhibited by soluble factors secreted from CA-12 stromal cells, cell-cell interactions between the two seemed to be important to inhibit apoptosis. We found that CS-21 cell adhesion was mediated by M(r) 168,000 and M(r) 23,000 proteins and that apoptosis-inhibitory signals were transmitted through these proteins. In this study, we identified the M(r) 23,000 cell adhesion molecule as a glycosylphosphatidylinositol-anchored Thy-1 (CD90) glycoprotein. Cross-linking of M(r) 23,000 protein with anti-M(r) 23,000 mAb and a second antibody transiently raised the [Ca2+]i and activated calcineurin in CS-21 cells, as has been observed in normal T lymphocytes stimulated by cross-linking anti-Thy-1 mAbs. However, differing from normal T lymphocytes, CS-21 cells could grow either by the transient increase in [Ca2+]i or by the activation of protein kinase C. Furthermore, M(r) 23,000 protein-mediated cell survival of CS-21 cells was not accompanied by expression of the apoptosis-inhibiting protein bcl-2, although protein kinase C-activated cell survival was attended by bcl-2 expression. These results indicate that the M(r) 23,000 protein (Thy-1) of CS-21 lymphoma cells functions as a cell adhesion molecule capable of transducing signals of cell survival and growth that are not followed by bcl-2 expression.
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PMID:Apoptosis inhibition by anti-M(r) 23,000 (Thy-1) monoclonal antibodies without inducing bcl-2 expression. 779 3

In a previous report we showed that glucocorticoid inhibition of cytosolic PLC activity correlated with a reduction in cytosolic Gi alpha levels, suggesting that there may be a functional relationship between cytosolic PLC and cytosolic Gi alpha. In order to establish the nature of the coupling between cytosolic Gi alpha and cytosolic PLC we examined the effects of G-protein activators, and inhibitors on cytosolic PLC activity from rat splenocytes and the rat lymphoma cell line Nb 2, with [3H] PI and [3H]PIP2 as substrates. 1) Neither GTP nor its nonhydrolyzable analogue, GTP gamma S, at 100 microM had any effect on the calcium stimulated as well as the basal PLC activity. 2) However, affinity purified antibodies to Gi alpha 1 and Gi alpha 2 inhibited soluble PLC activity, by 85% and 55%, respectively, with PI as substrate; with PIP2 as substrate, soluble PLC activity was inhibited 50-70% by antibodies to Gi1, whereas antibodies to Gi2 had little effect. 3) Administration of Gi alpha 1 antisense oligonucleotides to splenocytes for 48 h produced 25-40% decrease in cytosolic Gi alpha 1 levels compared to control. The soluble PLC activity with both PI and PIP2 as substrates was also reduced by 25-50% compared to control conditions. This suggest that cytosolic Gi alpha is associated with the activation of splenocyte soluble PLC. 4) Pertussis toxin administered in vivo significantly reduced cytosolic Gi alpha immunoreactivity and soluble PLC activity when PI was used as substrate, providing additional evidence that cytosolic Gi alpha is associated with the activation of soluble PLC. 5) Another agent that has been used extensively to define G-protein coupled processes is NaF/AlCl3. NaF (5 mM; with or without AlCl3) inhibited soluble PLC activity with PIP2 as substrate, in contrast to the stimulatory effect that has been reported in the activation of membrane PLC. 6) Because NaF can act as a protein phosphatase inhibitor, we also tested the effects of trifluoperizine (50 microM, TFP), an inhibitor of protein phosphatase 2B; TFP (50 microM) significantly inhibited soluble PLC activity when PI was used as substrate. These results suggest a direct involvement of cytosolic Gi alpha in the activation of soluble PLC from splenocytes. Other questions pertaining to the functional significance, the nature, and possible substrate preference of the splenocyte Gi alpha coupled PLC is addressed in the second paper.
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PMID:Cytosolic phospholipase C activity: I. Evidence for coupling with cytosolic guanine nucleotide-binding protein, Gi alpha. 787 33

Group I Burkitt's lymphoma cell lines and the B104 lymphoma cell line which expresses a phenotype of immature B cells undergo apoptosis after cross-linking of their surface immunoglobulin (Ig) receptors or after exposure to a calcium ionophore, while protein kinase C (PKC)-activating phorbol esters prevent such apoptosis. We show here that blockade of the phosphoprotein phosphatase calcineurin or phosphatase 2B by cyclosporin A (CsA) also protects these B cell lines against Ca(2+)-dependent apoptosis but not against apoptosis triggered by the PKC inhibitor chelerythrine or by serum deprivation. Okadaic acid, an inhibitor of phosphatases 1, 2A and 2C was ineffective. Among a series of human cytokines tested, only interferon-alpha and tumor necrosis factor-alpha were shown to protect against Ca(2+)-dependent apoptosis when used alone or in combination with CsA. In contrast to phorbol esters which block the progression into the S/G2 phases of the cell cycle, CsA partially restored the proliferation of cells exposed to the calcium ionophore. Altogether these data provide indirect evidence for the control of B cell apoptosis by the serine/threonine phosphorylation status of yet undefined key cellular substrates.
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PMID:The phosphoprotein phosphatase calcineurin controls calcium-dependent apoptosis in B cell lines. 829 81


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