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)

The microcystins and nodularins are tumour promoting hepatotoxins that are responsible for global adverse human health effects and wildlife fatalities in countries where drinking water supplies contain cyanobacteria. The toxins function by inhibiting broad specificity Ser/Thr protein phosphatases in the host cells, thereby disrupting signal transduction pathways. A previous crystal structure of a microcystin bound to the catalytic subunit of protein phosphatase-1 (PP-1c) showed distinct changes in the active site region when compared with protein phosphatase-1 structures bound to other toxins. We have elucidated the crystal structures of the cyanotoxins, motuporin (nodularin-V) and dihydromicrocystin-LA bound to human protein phosphatase-1c (gamma isoform). The atomic structures of these complexes reveal the structural basis for inhibition of protein phosphatases by these toxins. Comparisons of the structures of the cyanobacterial toxin:phosphatase complexes explain the biochemical mechanism by which microcystins but not nodularins permanently modify their protein phosphatase targets by covalent addition to an active site cysteine residue.
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PMID:Crystal structures of protein phosphatase-1 bound to motuporin and dihydromicrocystin-LA: elucidation of the mechanism of enzyme inhibition by cyanobacterial toxins. 1634 32

Previous studies have shown that renal injury initiated by a lethal dose of S-1,2-dichlorovinyl-l-cysteine (DCVC) progresses due to inhibition of cell division and hence renal repair, leading to acute renal failure (ARF) and death in mice. Renal injury initiated by low to moderate doses of DCVC is repaired by timely and adequate stimulation of renal cell division, tubular repair, restoration of renal structure and function leading to survival of mice. Recent studies have established that mice primed with a low dose of DCVC (15 mg/kg i.p.) 72 h before administration of a normally lethal dose (75 mg/kg i.p.) are protected from ARF and death (nephro-autoprotection). We showed that renal cell division and tissue repair stimulated by the low dose are sustained even after the lethal dose administration resulting in survival from ARF and death. If renal cell division induced by the low dose is indeed the critical mechanism of this autoprotection, then its ablation by the antimitotic agent colchicine (1.5 mg CLC/kg i.p.) should abolish autoprotection. The present interventional experiments were designed to test the hypothesis that DCVC autoprotection is due to stimulated cell division and tissue repair by the priming low dose. CLC intervention at 42 and 66 h after the priming dose resulted in marked progressive elevation of plasma blood urea nitrogen and creatinine resulting in ARF and death of mice. Light microscopic examination of hematoxylin and eosin-stained kidney sections revealed progression of renal necrosis concordant with progressively failing renal function. With CLC intervention, S-phase stimulation (as assessed by BrdU pulse labeling), G(1)-to-S phase clearance, and cell division were diminished essentially abolishing the promitogenic effect of the priming low dose of DCVC. Phospho-retinoblastoma protein (P-pRB), a crucial protein for S-phase stimulation, and other cellular signaling mechanisms regulating P-pRB were investigated. We report that decreased P-pRB via activation of protein phosphatase-1 by CLC is the critical mechanism of this inhibited S-phase stimulation and ablation of autoprotection with CLC intervention. These findings lend additional support to the notion that stimulated cell division and renal tissue repair by the priming dose of DCVC are the critical mechanisms that allow sustained compensatory tissue repair and survival of mice in nephro-autoprotection.
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PMID:Preplaced cell division: a critical mechanism of autoprotection against S-1,2-dichlorovinyl-L-cysteine-induced acute renal failure and death in mice. 1649 11

Phoslactomycins (PLMs) represent an unusual structural class of natural products secreted by various streptomycetes, containing an alpha,beta-unsaturated delta-lactone, an amino group, phosphate ester, conjugated diene and a cyclohexane ring. Phosphazomycins, phospholines and leustroducsins contain the same structural moieties, varying only in the acyl substituent at the C-18 hydroxyl position. These compounds possess either antifungal or antitumor activities or both. The antitumor activity of the PLM class of compounds has been attributed to a potent and selective inhibition of protein phosphatase 2A (PP2A). The cysteine-269 residue of PP2Ac-subunit has been shown to be the site of covalent modification by PLMs. In this article, we review previous work on the isolation, structure elucidation and biological activities of PLMs and related compounds and current status of our work on both PLM stability and genetic manipulation of the biosynthetic process. Our work has shown that PLM B is surprisingly stable in solution, with a pH optimum of 6. Preliminary biosynthetic studies utilizing isotopically labeled shikimic acid and cyclohexanecarboxylic acid (CHC) suggested PLM B to be a polyketide-type antibiotic synthesized using CHC as a starter unit. Using a gene (chcA) from a set of CHC-CoA biosynthesis genes from Streptomyces collinus as a probe, a 75 kb region of 29 ORFs encoding PLM biosynthesis was located in the genome of Streptomyces sp. strain HK803. Analysis and subsequent manipulation of plmS2 and plmR2 in the gene cluster has allowed for rational engineering of a strain that produces only one PLM analog, PLM B, at ninefold higher titers than the wild type strain. A strain producing PLM G (the penultimate intermediate in PLMs biosynthesis) has also been generated. Current work is aimed at selective in vitro acylation of PLM G with various carboxylic acids and a precursor-directed biosynthesis in a chcA deletion mutant with the aim of generating novel PLM analogs.
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PMID:Genetic manipulation of the biosynthetic process leading to phoslactomycins, potent protein phosphatase 2A inhibitors. 1660 56

Microcystins (MCYSTs) are a family of related cyclic heptapeptides produced by several genera and species of blue-green algae (cyanobacteria). MCYSTs are potent and specific inhibitors of the serine threonine family of protein phosphatases, especially PP1 and PP2A. MCYSTs inhibit a liver's protein phosphatase by forming a covalent linkage between MCYSTs' Mdha residue and the phosphatase's cysteine residue. Due to the covalent linkage, analysis of MCYSTs in animal tissues has been limited to determination of unbound MCYST concentration. The MMPB (2-methyl-3-methoxy-4-phenylbutyric acid) oxidation procedure allows for the detection of total MCYST burden by releasing the carboxylic acid MMPB from MCYST's Adda amino acid. An internal standard 4-phenylbutyric acid (4PB) accounts for losses during the method. LC/MS conditions were developed using a ThermoFinnigan LCQDuo ion trap in negative electrospray ionization (ESI). Since both compounds produce the [M-H](-) ion, analysis occurs in selected ion monitoring (SIM) mode for both MMPB (m/z 207.1) and 4PB (m/z 163.1). Complete oxidation of MCYST-LR in liver tissues occurs in 3h. A solid phase extraction (SPE) cartridge removes MMPB and 4PB from the oxidant solution. The process efficiency for the SPE procedure is only 51.3%; however, suppression experiments indicate a 41.8% loss in signal strength due to matrix interferences. Therefore, the extraction efficiency for the SDB-XC cartridge procedure is 93.1%. This research has been successful in developing an LC/MS method for the analysis of total MCYST burden in animal tissues.
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PMID:LC/ESI/MS method development for the analysis of hepatotoxic cyclic peptide microcystins in animal tissues. 1662 70

Depolarization of skeletal muscle cells by either high external K(+) or repetitive extracellular field potential pulses induces calcium release from internal stores. The two components of this release are mediated by either ryanodine receptors or inositol 1,4,5-trisphosphate (IP(3)) receptors and show differences in kinetics, amplitude, and subcellular localization. We have reported that the transcriptional regulators including ERKs, cAMP/Ca(2+)-response element binding protein, c-fos, c-jun, and egr-1 are activated by K(+)-induced depolarization and that their activation requires IP(3)-dependent calcium release. We presently describe the activation of the nuclear transcription factor NF-kappaB in response to depolarization by either high K(+) (chronic) or electrical pulses (fluctuating). Calcium transients of relative short duration activate an NF-kappaB reporter gene to an intermediate level, whereas long-lasting calcium increases obtained by prolonged electrical stimulation protocols of various frequencies induce maximal activation of NF-kappaB. This activation is independent of extracellular calcium, whereas calcium release mediated by either ryanodine or IP(3) receptors contribute in all conditions tested. NF-kappaB activation is mediated by IkappaBalpha degradation and p65 translocation to the nucleus. Partial blockade by N-acetyl-l-cysteine, a general antioxidant, suggests the participation of reactive oxygen species. Calcium-dependent signaling pathways such as those linked to calcineurin and PKC also contribute to NF-kappaB activation by depolarization, as assessed by blockade through pharmacological agents. These results suggest that NF-kappaB activation in skeletal muscle cells is linked to membrane depolarization and depends on the duration of elevated intracellular calcium. It can be regulated by sequential activation of calcium release mediated by the ryanodine and by IP(3) receptors.
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PMID:NF-kappaB activation by depolarization of skeletal muscle cells depends on ryanodine and IP3 receptor-mediated calcium signals. 1721 26

The serine/threonine protein phosphatase (PP) 2A inhibitor, microcystin-LR, selectively induces liver damage and promotes hepatocarcinogenesis. It is thought that microcystin-LR affects hepatocellular viability mainly through inhibition of PP2A, partially through PP1, and, in addition, by generation of reactive oxygen species (ROS). However, the molecular basis of the selective liver damage and the balance between cell death and survival remained unclear. We analyzed the cytotoxicity of low doses of microcystin-LR using HEK293 cells stably expressing the human hepatocyte uptake transporters, organic anion transporting polypeptide (OATP)1B1 (HEK293-OATP1B1 cells) and OATP1B3 (HEK293-OATP1B3 cells). HEK293-OATP1B1 (IC(50) 6.6nM) and HEK293-OATP1B3 cells (IC(50) 6.5nM) were equally very sensitive to microcystin-LR. In contrast, control-vector-transfected (HEK293-CV) cells were resistant to microcystin-LR. Using HEK293-OATP1B3 cells, the cytotoxicity was attenuated by substrates and inhibitors of OATP1B3, including bromosulfophthalein, rifampicin, and cyclosporin A. Microcystin-LR was transported into HEK293-OATP1B3 cells with 1.2 microM Km value, and its uptake was inhibited by above substances. Accumulation of microcystin-LR in the HEK293-OATP1B1 and HEK293-OATP1B3 cells was increased in a dose-dependent manner but not in HEK293-CV cells. Cellular serine/threonine PP activity of HEK293-OATP1B3 cells was decreased by microcystin-LR but not in HEK293-CV cells. Apoptotic changes were observed after incubation of the HEK293-OATP1B3 cells with microcystin-LR. We found by FACS analysis that microcystin-LR induced apoptosis but not necrosis in HEK293-OATP1B3 cells. Microcystin-LR activated several mitogen-activated protein kinases (MAPKs) including ERK1/2, JNK, and p38 through inhibition of PP2A. In addition, the cytotoxicity of microcystin-LR was attenuated by the inhibitors of MAPK pathways, including U0126, SP600125, and SB203580. The ROS scavenger N-acetyl-L-cysteine partially attenuated the cytotoxicity of microcystin-LR. Thus, the present study demonstrates that microcystin-LR induces apoptosis through activation of multiple MAPK pathways subsequent to its selective uptake via OATP1B1 and OATP1B3 and followed by inhibition of PP2A, in addition to the ROS generation which might contribute to apoptosis.
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PMID:Involvement of mitogen-activated protein kinase signaling pathways in microcystin-LR-induced apoptosis after its selective uptake mediated by OATP1B1 and OATP1B3. 1736 5

Bacterial pathogens have developed sophisticated mechanisms of evading the immune system to survive in infected host cells. Central to the pathogenesis of Mycobacterium tuberculosis is the arrest of phagosome maturation, partly through interference with PtdIns signalling. The protein phosphatase MptpB is an essential secreted virulence factor in M. tuberculosis. A combination of bioinformatics analysis, enzyme kinetics and substrate-specificity characterization revealed that MptpB exhibits both dual-specificity protein phosphatase activity and, importantly, phosphoinositide phosphatase activity. Mutagenesis of conserved residues in the active site signature indicates a cysteine-based mechanism of dephosphorylation and identifies two new catalytic residues, Asp165, essential in catalysis, and Lys164, apparently involved in substrate specificity. Sequence similarities with mammalian lipid phosphatases and a preference for phosphoinositide substrates suggests a potential novel role of MptpB in PtdIns metabolism in the host and reveals new perspectives for the role of this phosphatase in mycobacteria pathogenicity.
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PMID:MptpB, a virulence factor from Mycobacterium tuberculosis, exhibits triple-specificity phosphatase activity. 1758 80

A better understanding of dysregulated signaling pathways in cancer cells may suggest novel strategies to prevent tumor development and/or progression. Here we show that Jurkat and CCRF-CEM human T-leukemia cell lines were more sensitive than normal human T cells to the cytotoxic effect of inhibiting protein phosphatase 2A (PP2A). Inhibition of PP2A by okadaic acid (OA) caused T-leukemia cells to die by apoptosis, as indicated by DNA fragmentation, caspase-3 activation, loss of mitochondrial membrane potential (DeltaPsi(m)), and changes in nuclear morphology that were consistent with apoptosis. PP2A might therefore be a useful intracellular target for the treatment of T cell-derived leukemias. We also observed that reactive oxygen species (ROS) were generated in response to PP2A inhibition in T-leukemia cells. However, loss of DeltaPsi(m) that resulted from PP2A inhibition was not prevented by exogenous antioxidants (glutathione and N-acetyl-cysteine), indicating that OA-induced changes in mitochondrial membrane permeability were not a consequence of ROS production. Moreover, exogenous antioxidants protected CCRF-CEM T-leukemia cells from apoptosis caused by PP2A inhibition but failed to prevent OA-induced apoptosis in Jurkat T-leukemia cells, indicating a differential role for ROS in apoptosis caused by PP2A inhibition in two different human T-leukemia cell lines.
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PMID:Differential involvement of reactive oxygen species in apoptosis caused by the inhibition of protein phosphatase 2A in Jurkat and CCRF-CEM human T-leukemia cells. 1793 51

Nitric oxide (NO) causes S-glutathiolation of the reactive cysteine-674 in the sarcoplasmic/endoplasmic reticulum Ca(2+) ATPase (SERCA), thus increasing SERCA activity, and inhibiting Ca(2+) influx and migration of vascular smooth muscle cells (VSMC). Because increased VSMC migration contributes to accelerated neointimal growth and atherosclerosis in diabetes, the effect of culture of VSMC in high glucose (HG) was determined. Rat aortic VSMC were exposed to normal (5.5 mmol/L) or high (25 mmol/L) glucose for 3 days, and serum-induced cell migration during 6 h into a wounded cell monolayer was measured 5 min after adding the NO donor S-nitroso-N-acetylpenicillamine (SNAP) or 24 h after interleukin-1beta (IL-1beta) to express inducible nitric oxide synthase (iNOS). In normal glucose, SNAP or IL-1beta significantly inhibited migration in cells infected with adenovirus to express GFP or SERCA wild type (WT), but not with a C674S SERCA mutant. After HG, NO failed to inhibit migration, nor did it decrease calcium-dependent association of calmodulin with calcineurin, indicating that NO failed to decrease intracellular calcium levels via SERCA. In contrast, overexpression of SERCA WT, but not the SERCA C674S mutant, preserved the ability for NO to inhibit migration despite exposing the cells to HG. The antioxidant, Tempol, or overexpression of superoxide dismutase also prevented the effects of HG. Further studies showed that both biotinylated-iodoacetamide and NO-induced biotinylated glutathione labeling of SERCA C674 were decreased by HG, and a sequence-specific sulfonic acid antibody detected oxidation of the C674 SERCA thiol. These results indicate that failure of NO to inhibit migration in VSMC exposed to HG is due to oxidation of the SERCA reactive cysteine-674.
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PMID:High glucose oxidizes SERCA cysteine-674 and prevents inhibition by nitric oxide of smooth muscle cell migration. 1816 28

The cysteine-based protein phosphatase H1L was the first reported dual-specificity protein phosphatase. H1L is encapsidated within the vaccinia virus and is required for successful host infection and for the production of viable vaccinia progeny. H1L has therefore been proposed as a target candidate for antiviral compounds. Recombinant H1L has been expressed in a catalytically inactive form using an Escherichia coli host, leading to purification and crystallization by the microbatch method. The crystals diffract to 2.1 A resolution using synchrotron radiation. These crystals belong to space group P422, with unit-cell parameters a = b = 98.31, c = 169.15 A, and are likely to contain four molecules in the asymmetric unit. A sulfur SAD data set was collected to 2.8 A resolution on beamline BM14 at the ESRF to facilitate structure determination. Attempts to derivatize these crystals with xenon gas changed the space group to I422, with unit-cell parameters a = b = 63.28, c = 169.68 A and a single molecule in the asymmetric unit. The relationship between these two crystal forms is discussed.
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PMID:Crystallization and preliminary X-ray diffraction analysis of vaccinia virus H1L phosphatase. 1832 5


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