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)

We have previously reported that the uptake of colchicine and other drugs in Chinese hamster ovary (CHO) cells can be greatly enhanced by the addition of metabolic inhibitors such as cyanide (See, Y.P., Carlsen, S.A., Till, J.E. and Ling, V. (1974) Biochim. Biophys. Acta 373, 242-252). This has led us to postulate the presence of an active drug permeability barrier in these cells. In this paper we provide evidence for the dependence of this permeability barrier on intracellular ATP levels. Colchicine-resistant mutants of CHO cells exhibiting a reduced drug permeability, however, can maintain this drug permeability barrier at much lower ATP levels, suggesting that they possess an altered active drug permeability barrier. We have also observed a membrane-associated protein kinase-phosphoprotein phosphatase system in the isolated membranes of mutant and wild-type cells. Differences in the intrinsic protein phosphorylation patterns between the membranes of these cells have led us to conclude that the control of the drug permeability barrier may be mediated via the phosphorylation of at least two high molecular weight surface glycoproteins.
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PMID:Modulation of drug permeability in Chinese hamster ovary cells. Possible role for phosphorylation of surface glycoproteins. 19 5

Mitochondria play an important role in modulating intracellular levels of calcium, and therefore compromised mitochondrial function often leads to disruptions in calcium homeostasis. In this study, the effects of two uncouplers of oxidative phosphorylation, carbonyl cyanide-3-chlorophenylhydrazone (CCCP) and p-trifluoromethoxyphenylhydrazone (FCCP), on calcium-mediated modifications of the microtubule-associated protein, tau, in rat brain slices were examined. Incubation of slices with CCCP or FCCP resulted in an increase in electrophoretic mobility of several of the tau isoforms, with no apparent loss of intact tau or the appearance of degradation products. These data indicated that disrupting mitochondrial function by dissipating the transmembrane potential resulted in the dephosphorylation of tau. This finding was confirmed by using a front phosphorylation assay to demonstrate a CCCP-induced decrease in the phosphorylation state of tau. The dephosphorylation of tau induced by the proton-ionophores appeared to be calcium-dependent since the effect was blocked by EGTA. In addition, the CCCP-induced dephosphorylation of tau was blocked by cyclosporin A, a selective inhibitor of the calcium-dependent phosphatase, calcineurin. These data strongly indicate that tau is a substrate for calcineurin in vivo. Finally, the levels of ATP were depleted to a similar extent in brain slices incubated in the presence of CCCP or CCCP and EGTA. These results demonstrated depletion of ATP alone was not sufficient to stimulate the dephosphorylation of tau in this experimental paradigm.
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PMID:Compromised mitochondrial function results in dephosphorylation of tau through a calcium-dependent process in rat brain cerebral cortical slices. 782 68

Contractile dysfunction plays a key role in injury sustained by ischemic myocardium at reperfusion, whereas interventions that impede hypercontracture enhance recovery. In permeabilized adult rat cardiomyocytes, the negative inotrope 2,3-butanedione monoxime (BDM; 10-50 mM) inhibited rigor at low MgATP concentration but stimulated net ATP hydrolysis. Hydrolysis was attenuated by H-7, kaempferol, chelerythrine, and genistein. Evidently BDM opposed phosphorylation of both serine/threonine and tyrosine kinase target proteins, either directly or by enhancing protein phosphatase activity, in a futile cycle of ATP hydrolysis independent of cross-bridge cycling. Although 20 mM BDM did not affect the onset of rigor contracture in permeabilized cells at low MgATP, in intact cells exposed to the metabolic inhibitors cyanide and 2-deoxyglucose rigor onset was accelerated, indicating that BDM increases ATP depletion in quiescent cardiomyocytes. Conversely, in cells exposed to the mitochondrial uncoupler carbonyl cyanide p-trifluoromethoxyphenylhydrazone, BDM delayed the onset of contracture and hence ATP depletion, consistent with an inhibition of adenine nucleotide movement across the mitochondrial inner membrane. Such effects will limit the value of BDM as a cardioprotective agent at physiological temperature.
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PMID:BDM drives protein dephosphorylation and inhibits adenine nucleotide exchange in cardiomyocytes. 974 74

We have investigated the mechanism of mitochondrial-nuclear crosstalk during cellular stress in mouse C2C12 myocytes. For this purpose, we used cells with reduced mitochondrial DNA (mtDNA) contents by ethidium bromide treatment or myocytes treated with known mitochondrial metabolic inhibitors, including carbonyl cyanide m-chlorophenylhydrazone (CCCP), antimycin, valinomycin and azide. Both genetic and metabolic stresses similarly affected mitochondrial membrane potential (Deltapsim) and electron transport-coupled ATP synthesis, which was also accompanied by an elevated steady-state cytosolic Ca2+ level ([Ca2+]i). The mitochondrial stress resulted in: (i) an enhanced expression of the sarcoplasmic reticular ryanodine receptor-1 (RyR-1), hence potentiating the Ca2+ release in response to its modulator, caffeine; (ii) enhanced levels of Ca2+-responsive factors calineurin, calcineurin-dependent NFATc (cytosolic counterpart of activated T-cell-specific nuclear factor) and c-Jun N-terminal kinase (JNK)-dependent ATF2 (activated transcription factor 2); (iii) reduced levels of transcription factor, NF-kappaB; and (iv) enhanced transcription of cytochrome oxidase Vb (COX Vb) subunit gene. These cellular changes, including the steady-state [Ca2+]i were normalized in genetically reverted cells which contain near-normal mtDNA levels. We propose that the mitochondria-to-nucleus stress signaling occurs through cytosolic [Ca2+]i changes, which are likely to be due to reduced ATP and Ca2+ efflux. Our results indicate that the mitochondrial stress signal affects a variety of cellular processes, in addition to mitochondrial membrane biogenesis.
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PMID:Retrograde Ca2+ signaling in C2C12 skeletal myocytes in response to mitochondrial genetic and metabolic stress: a novel mode of inter-organelle crosstalk. 992 12

Locus coeruleus (LC) is the significant nucleus for consciousness and it is sensitive to metabolic inhibition. We investigated the effects of a metabolic inhibitor sodium cyanide (NaCN) on the rat dissociated LC neurons using nystatin-perforated patch recordings. Under voltage-clamp (VH=-40 mV), application of NaCN evoked outward currents composed of ATP-sensitive and Ca2+-dependent K+ channel currents (IKATP and IKCa2+). Onset of IKATP was faster than that of IKCa2+. Prolonged application of NaCN brought IKATP rundown but not IKCa2+ rundown. Okadaic acid prevented IKATP rundown, indicating that KATP channels are deactivated by dephosphorylation with protein phosphatase.
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PMID:ATP-sensitive and Ca2+-activated K+ channel activities in the rat locus coeruleus neurons during metabolic inhibition. 1032 Jul 42

Previously, we have shown that the soluble form of brain glutamic acid decarboxylase (GAD) is inhibited by ATP through protein phosphorylation and is activated by calcineurin-mediated protein dephosphorylation (Bao, J., Cheung, W. Y., and Wu, J. Y. (1995) J. Biol. Chem. 270, 6464-6467). Here we report that the membrane-associated form of GAD (MGAD) is greatly activated by ATP, whereas adenosine 5'-[beta,gamma-imido]triphosphate (AMP-PNP), a non-hydrolyzable ATP analog, has no effect on MGAD activity. ATP activation of MGAD is abolished by conditions that disrupt the proton gradient of synaptic vesicles, e.g. the presence of vesicular proton pump inhibitor, bafilomycin A1, the protonophore carbonyl cyanide m-chorophenylhydrazone or the ionophore gramicidin, indicating that the synaptic vesicle proton gradient is essential in ATP activation of MGAD. Furthermore, direct incorporation of (32)P from [gamma-(32)P]ATP into MGAD has been demonstrated. In addition, MGAD (presumably GAD65, since it is recognized by specific monoclonal antibody, GAD6, as well as specific anti-GAD65) has been reported to be associated with synaptic vesicles. Based on these results, a model linking gamma-aminobutyric acid (GABA) synthesis by MGAD to GABA packaging into synaptic vesicles by proton gradient-mediated GABA transport is presented. Activation of MGAD by phosphorylation appears to be mediated by a vesicular protein kinase that is controlled by the vesicular proton gradient.
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PMID:Role of synaptic vesicle proton gradient and protein phosphorylation on ATP-mediated activation of membrane-associated brain glutamate decarboxylase. 1044 15

A novel rice acidic pathogenesis-related (PR) class 1 cDNA (OsPR1a) was isolated from jasmonic acid (JA)-treated rice seedling leaf. The OsPR1a cDNA is 830 bp long and contains an open reading frame of 507 nucleotides encoding 168 amino acid residues with a predicted molecular mass of 17,560 and pI of 4.4. The deduced amino acid sequence of OsPR1a has a high level of identity with acidic and basic PR1 proteins from plants. Southern analysis revealed that OsPR1a is a member of a multigene family. The OsPR1a gene was found to be cut-inducible, whereas the phytohormones JA, salicylic acid (SA), 3-indoleacetic acid, gibberellin, and ethylene (using ethylene generator ethephon, ET) enhanced accumulation of OsPR1a transcript, as well as the protein phosphatase inhibitors cantharidin (CN) and endothall (EN). Induced expression of OsPR1a gene by JA, CN or EN, and ET was light/dark- and dose-dependent and was almost completely inhibited by cycloheximide. Dark downregulated CN-, EN-, and ET-induced OsPR1a gene expression, whereas it was further enhanced with JA. SA and abscisic acid blocked JA-induced OsPR1a transcript. Simultaneous application of staurosporine (ST) enhances CH- or EN-induced OsPR1a transcript, but not with JA. This is the first report on cloning of a rice acidic PR1 gene (OsPR1a), which is regulated by phytohormones, phosphorylation/dephosphorylation event(s), and light.
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PMID:A novel rice (Oryza sativa L.) acidic PR1 gene highly responsive to cut, phytohormones, and protein phosphatase inhibitors. 1090 12

Strategies evolved by plants to counteract a variety of biotic/abiotic stresses include induction of genes encoding pathogenesis-related (PR) protein, in particular the PR class 1 (PR1) gene family, widely used in stress response studies. In spite of its immense importance as a PR family member, and an accepted gene marker in plant disease/defense in dicots, little is known about rice PR1 genes. Recently, we cloned and characterized the first OsPR1a (rice acidic PR1) gene (Agrawal et al. (2000) Biochem. Biophys. Res. Commun. 274, 157-165). Here, we report characterization of a rice basic PR1 (OsPR1b) gene, identified from screening a cDNA library prepared from jasmonic acid (JA)-treated rice seedling leaf, providing detailed and valuable insights into rice PR1 gene expression. The deduced amino acid sequence of OsPR1b reveals only 63.1% homology with the OsPR1a protein, whereas Southern blot analyses indicate that OsPR1b is a multigene family. The JA-inducible OsPR1b gene was also up-regulated by salicylic acid (SA), abscisic acid (ABA), and kinetin (KN). Furthermore, protein phosphatase inhibitors, cantharidin (CN) and endothall (EN) strongly induced the OsPR1b transcript. However, OsPR1b was not cut-responsive, diagrammatically opposite to cut inducibility of OsPR1a. This induction was light-, time-, and dose-dependent, as demonstrated by using, JA, CN, and EN, and completely inhibited by cycloheximide, but not by tetracycline. The simultaneous application of SA, and ABA, with JA, respectively, showed almost complete inhibition of the JA-induced OsPR1b transcript by 200 microM SA or ABA, but not by 100 microM concentrated solutions, suggesting a potential interaction among JA, SA, and ABA, whereas KN dramatically enhanced JA-induced OsPR1b transcript upon simultaneous application. Moreover, a simultaneous application of staurosporine enhances JA-, CN-, and EN-induced OsPR1b transcript, in particular with CN. Finally, a comparative analysis with the OsPR1a gene gives us insight into the differential regulation of the PR1 gene family, while proposing OsPR1 genes as important gene markers in rice, with potential use(s) in analyzing plant defense responses.
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PMID:Rice (Oryza sativa L.) OsPR1b gene is phytohormonally regulated in close interaction with light signals. 1109 33

The Bowman-Birk (BB) family of proteinase inhibitors (PI), initially reported from legume seeds, and thereafter also from wounded alfalfa and maize leaves appear to be regulated in similar ways as the extensively characterized PI I and PI II family from dicots. Here, we report a first characterization of the expression profiles of a rice (Oryza sativa L. cv. Nipponbare) BBPI gene, OsBBPI, which is part of a multigene family as demonstrated by genomic Southern hybridization. OsBBPI was found to be rapidly induced in rice seedling leaf in response to cut, exogenous jasmonic acid (JA), and two potent protein phosphatase 2A (PP2A) inhibitors, cantharidin (CN) and endothall (EN), in a light/dark-, time- and dose-dependent manner; this induction was completely inhibited by cycloheximide (CHX), indicating a requirement for de novo protein synthesis in its induction. Surprisingly, dark strongly up regulated cut-, JA-, CN-, and EN-induced OsBBPI expression, with the strongest enhancement observed with JA. A simultaneous application of a serine/threonine protein kinase inhibitor staurosporine (ST) did not affect significantly the JA-, CN-, and EN-induced OsBBPI transcript. Besides JA, it was found that the ethylene generator ethephon (ET) also had an enhancing effect on OsBBPI transcript, suggesting a direct effect of ethylene on OsBBPI expression. However, a simultaneous application of salicylic acid (SA) and abscisic acid (ABA), with JA, respectively, completely blocked OsBBPI gene expression, whereas kinetin (KN) was only partially effective. To the best of our knowledge, complete inhibition of JA-induced OsBBPI expression by SA is the first report in monocots, and with ABA in plants. Taken together, these results suggest that among the phytohormones tested here, JA and ethylene play important role(s) in regulating OsBBPI expression, with an intimate interaction with light signals. Finally, that the induced OsBBPI expression follows a kinase-signaling cascade is implied by the use of PP2A inhibitors.
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PMID:Characterization of a rice (Oryza sativa L.) Bowman-Birk proteinase inhibitor: tightly light regulated induction in response to cut, jasmonic acid, ethylene and protein phosphatase 2A inhibitors. 1122 57

Silica gel supported pyrolysis of an azido-homo-oxa steroid led to rearrangement, presumably by a mechanism similar to that of solution phase Schmidt fragmentation, to produce a group of novel inhibitors for the oncogenic cell cycle regulator Cdc25A phosphatase. Cyano-containing acid 17, one of the best inhibitors in this group, inhibited the activity of Cdc25A protein phosphatase reversibly and noncompetitively with an IC(50) value of 2.2 microM. Structure-activity relationships revealed that a phosphate surrogate such as a carboxyl or a xanthate group is required for inhibitory activity, and a hydrophobic alkyl chain, such as the cholesteryl side chain, contributes greatly to the potency. Without the cyano group, acid 26 and xanthate 27 were found to be more selective over Cdc25A (IC(50) = 5.1 microM and 1.1 microM, respectively) than toward CD45 (IC(50) > 100 microM, in each case), a receptor protein tyrosine phosphatase. Several of these inhibitors showed antiproliferative activities in the NCI 60-human tumor cell line screen. These steroidal derived Cdc25 inhibitors provide unique leads for the development of dual-specificity protein phosphatase inhibitors.
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PMID:Syntheses and biological activities of a novel group of steroidal derived inhibitors for human Cdc25A protein phosphatase. 1126 93


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