Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.3.16 (calcineurin)
 17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

PTH receptors on osteoblasts and calcitonin receptors on osteoclasts are coupled to adenylate cyclase. Despite similar transduction mechanisms, these hormones have opposing physiological actions. We investigated the consequences of persistent protein phosphorylation on bone resorption in neonatal mouse calvariae using okadaic acid (OA) and calyculin-A, two inhibitors of protein phosphatase-1 and -2A. These two inhibitors caused different responses in bone at picomolar and low nanomolar concentrations. OA inhibited, in a dose-dependent manner, bone resorption stimulated by PTH, 1,25-Dihydroxyvitamin D3, phorbol ester, and prostaglandin E2 (PGE2). OA did not inhibit the generation of the second messengers cAMP or PGs and did not have nonspecific toxic effects, as measured by protein and RNA synthesis. Thus, OA appeared to mimic the global inhibitory action of calcitonin on bone resorption. Unlike OA, calyculin-A elicited a biphasic dose response. At concentrations of 3.3 nM and greater, calyculin-A inhibited, in a dose-dependent manner, stimulated bone resorption. However, calyculin-A alone, at 0.625 and 2.5 nM, stimulated bone resorption via a PG-independent pathway. In calvariae, OA and calyculin-A increased phosphorylation of a 58- to 60-kilodalton protein. A protein of similar molecular mass was hyperphosphorylated in OA-treated ROS 17/2.8 osteoblast-like cells. We conclude that in addition to hormonal regulation of protein kinase activity, protein dephosphorylation plays a functionally important role in the modulation of bone resorption.
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PMID:Protein phosphatase inhibitors and bone resorption: inhibition by okadaic acid and biphasic actions of calyculin-A. 137 1

Astrocytes, the most abundant glial cell type in the brain, are considered to have physiological and pathological roles in neuronal activities. We found that reperfusion of cultured astrocytes after Ca2+ depletion causes delayed cell death and that the Na(+)-Ca2+ exchanger in the reverse mode is responsible for this Ca(2+)-mediated cell injury (Ca2+ paradox injury). The Ca2+ paradox injury of cultured astrocytes is considered to be an in vitro model of ischemia/reperfusion injury, since a similar paradoxical change in extracellular Ca2+ concentration is reported in ischemic brain tissue. Furthermore, we demonstrated that heat shock proteins, glutathione and calcineurin inhibitors protected astrocytes against Ca2+ paradox-induced cell toxicity. We also observed DNA fragmentation, a typical apoptotic ladder, 2-3 days after hydrogen peroxide exposure. In addition, laser microscopic observation showed that reperfusion after the exposure to hydrogen peroxide caused nuclear condensation of astrocytes. Hydrogen peroxide-induced cell injury and DNA fragmentation were attenuated by the NF-kappa B inhibitor ammonium pyrrolidinedithiocarbamate, 1,10-phenanthroline and a caspase 3 inhibitor. These findings suggest that astrocytes are one of the targets for ROS and the oxidative stress-induced delayed death of astrocytes is at least due to apoptosis.
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PMID:[Apoptosis of astroglial cells]. 1019 Jan 27

Phosphorylation of isolated cytochrome c oxidase from bovine kidney and heart, and of the reconstituted heart enzyme, with protein kinase A, cAMP and ATP turns on the allosteric ATP-inhibition at high ATP/ADP ratios. Also incubation of isolated bovine liver mitochondria only with cAMP andATP turns on, and subsequent incubation with Ca2+ turns off the allosteric ATP-inhibition of cytochrome c oxidase. In the bovine heart enzyme occur only three consensus sequences for cAMP-dependent phosphorylation (in subunits I, III and Vb). The evolutionary conservation of RRYS441 at the cytosolic side of subunit I, together with the above results, suggest that phosphorylation of Ser441 turns on the allosteric ATP-inhibition of cytochrome c oxidase. The results support the 'molecular-physiological hypothesis' [29], which proposes a low mitochondrial membrane potential through the allosteric ATP-inhibition. A hormone- or agonist-stimulated increase of cellular [Ca2+] is suggested to activate a mitochondrial protein phosphatase which dephosphorylates cytochrome c oxidase, turns off the allosteric ATP-inhibition and results in increase of mitochondrial membrane potential and ROS formation.
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PMID:Control of mitochondrial membrane potential and ROS formation by reversible phosphorylation of cytochrome c oxidase. 1216 61

Neutrophils are mobilized to the vascular wall during vessel inflammation. Published data are conflicting on phagocytic nicotinamide-adenine dinucleotide phosphate (NADPH) oxidase activation during the hypertensive state, and the capacity of angiotensin II (Ang II) to modulate the intracellular redox status has not been analyzed in neutrophils. We here describe that Ang II highly stimulates endogenous and extracellular O2- production in these cells, consistent with the translocation to the cell membrane of the cytosolic components of NADPH oxidase, p47phox, and p67phox. The Ang II-dependent O2- production was suppressed by specific inhibitors of AT1 receptors, of the p38MAPK and ERK1/2 pathways, and of flavin oxidases. Furthermore, Ang II induced a robust phosphorylation of p38MAPK, ERK1/2, and JNK1/2 (particularly JNK2), which was hindered by inhibitors of NADPH oxidase, tyrosine kinases, and ROS scavengers. Ang II increased cytosolic Ca2+ levels-released mainly from calcium stores-enhanced the synthesis de novo and activity of calcineurin, and stimulated the DNA-binding activity of the transcription factor NF-kappaB in cultured human neutrophils. Present data demonstrate for the first time a stimulatory role of Ang II in the activation of phagocytic cells, underscore the relevant role of ROS as mediators in this process, and uncover a variety of signaling pathways by which Ang II operates in human neutrophils.
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PMID:Oxidative stress is a critical mediator of the angiotensin II signal in human neutrophils: involvement of mitogen-activated protein kinase, calcineurin, and the transcription factor NF-kappaB. 1266 41

Cyclosporin A (CsA) suppresses immune reaction by inhibiting calcineurin activity after forming complex with cyclophilins and is currently widely used as an immunosuppressive drug. Cyclophilin A (CypA) is the most abundantly and ubiquitously expressed family member of cyclophilins. We previously showed that CsA toxicity is mediated by ROS generation as well as by inhibition of peptidyl-prolyl cis-trans isomerase (PPIase) activity of CypA in CsA-treated myoblasts [FASEB J. 16 (2002) 1633]. Since CsA-induced nephrotoxicity is the most significant adverse effect in its clinical utilization, we here investigated the role of CsA inhibition of CypA PPIase activity in its nephrotoxicity using transgenic mouse models. Transgenic mice of either wild type (CypA/wt) or R55A PPIase mutant type (CypA/R55A), a dominant negative mutant of CypA PPIase activity, showed normal growth without any apparent abnormalities. However, CsA-induced nephrotoxicity was virtually suppressed in CypA/wt mice, but exacerbated in CypA/R55A mice, compared to that of littermates. Also, life expectancy was extended in CypA/wt mice and shortened in CypA/R55A mice during CsA administration. Besides, CsA-induced nephrotoxicity was inversely related to the levels of catalase expression and activity. In conclusion, our data provide in vivo evidence that supplement of CypA PPIase activity allows animal's resistance toward CsA-induced nephrotoxicity.
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PMID:Transgenic mice overexpressing cyclophilin A are resistant to cyclosporin A-induced nephrotoxicity via peptidyl-prolyl cis-trans isomerase activity. 1504 94

Doxorubicin (DOX), a widely used antitumour drug, causes dose-dependent cardiotoxicity. Cardiac mitochondria represent a critical target organelle of toxicity during DOX chemotherapy. Proposed mechanisms include generation of ROS (reactive oxygen species) and disturbances in mitochondrial calcium homoeostasis. In the present study, we probed the mechanistic link between mitochondrial ROS and calcium in the embryonic rat heart-derived H9c2 cell line and in adult rat cardiomyocytes. The results show that DOX stimulates calcium/calcineurin-dependent activation of the transcription factor NFAT (nuclear factor of activated T-lymphocytes). Pre-treatment of cells with an intracellular calcium chelator abrogated DOX-induced nuclear NFAT translocation, Fas L (Fas ligand) expression and caspase activation, as did pre-treatment of cells with a mitochondria-targeted antioxidant, Mito-Q (a mitochondria-targeted antioxidant consisting of a mixture of mitoquinol and mitoquinone), or with adenoviral-over-expressed antioxidant enzymes. Treatment with GPx-1 (glutathione peroxidase 1), MnSOD (manganese superoxide dismutase) or a peptide inhibitor of NFAT also inhibited DOX-induced nuclear NFAT translocation. Pre-treatment of cells with a Fas L neutralizing antibody abrogated DOX-induced caspase-8- and -3-like activities during the initial stages of apoptosis. We conclude that mitochondria-derived ROS and calcium play a key role in stimulating DOX-induced 'intrinsic and extrinsic forms' of apoptosis in cardiac cells with Fas L expression via the NFAT signalling mechanism. Implications of ROS- and calcium-dependent NFAT signalling in DOX-induced apoptosis are discussed.
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PMID:Doxorubicin activates nuclear factor of activated T-lymphocytes and Fas ligand transcription: role of mitochondrial reactive oxygen species and calcium. 1579 20

In this review we present recent studies on the effects of the protein phosphatase inhibitor microcystin on mammalian cells. Whereas high concentrations of microcystin promote liver cell death induced by ROS signalling without the involvement of typical apoptotic proteins, intermediate doses activate classic apoptotic pathways. Low concentrations however, increase liver cell survival and proliferation, and can cause primary liver cancer.
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PMID:Microcystin produces disparate effects on liver cells in a dose dependent manner. 1651 66

Angiotensin II (Ang II) highly stimulates superoxide anion production by neutrophils. The G-protein Rac2 modulates the activity of NADPH oxidase in response to various stimuli. Here, we describe that Ang II induced both Rac2 translocation from the cytosol to the plasma membrane and Rac2 GTP-binding activity. Furthermore, Clostridium difficile toxin A, an inhibitor of the Rho-GTPases family Rho, Rac and Cdc42, prevented Ang II-elicited O2-/ROS production, phosphorylation of the mitogen-activated protein kinases (MAPKs) p38, extracellular signal-regulated kinase 1/2 (ERK1/2) and c-Jun N-terminal kinase 1/2, and Rac2 activation. Rac2 GTPase inhibition by C. difficile toxin A was accompanied by a robust reduction of the cytosolic Ca(2)(+) elevation induced by Ang II in human neutrophils. Furthermore, SB203580 and PD098059 act as inhibitors of p38MAPK and ERK1/2 respectively, wortmannin, an inhibitor of phosphatidylinositol-3-kinase, and cyclosporin A, a calcineurin inhibitor, hindered both translocation of Rac2 from the cytosol to the plasma membrane and enhancement of Rac2 GTP-binding elicited by Ang II. These results provide evidence that the activation of Rac2 by Ang II is exerted through multiple signalling pathways, involving Ca(2)(+)/calcineurin and protein kinases, the elucidation of which should be insightful in the design of new therapies aimed at reversing the inflammation of vessel walls found in a number of cardiovascular diseases.
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PMID:Rac2 GTPase activation by angiotensin II is modulated by Ca2+/calcineurin and mitogen-activated protein kinases in human neutrophils. 1797 62

Vanadate is beneficial to plant growth at low concentration. However, plant exposure to high concentrations of vanadate has been shown to arrest cell growth and lead to cell death. We are interested in understanding the signalling pathways of rice roots in response to vanadate stress. In this study, we demonstrated that vanadate induced rice root cell death and suppressed root growth. In addition, we found that vanadate induced ROS accumulation, increased lipid peroxidation and elicited a remarkable increase of MAPKs and CDPKs activities in rice roots. In contrast, pre-treatment of rice roots with ROS scavenger (sodium benzoate), serine/threonine protein phosphatase inhibitor (endothall), and CDPK antagonist (W7), reduced the vanadate-induced MAPKs activation. Furthermore, the expression of a MAPK gene (OsMPK3) and four tyrosine phosphatase genes (OsDSP3, OsDSP5, OsDSP6, and OsDSP10) were regulated by vanadate in rice roots. Collectively, these results strongly suggest that ROS, protein phosphatase, and CDPK may function in the vanadate-triggered MAPK signalling pathway cause cell death and retarded growth in rice roots.
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PMID:Early signalling pathways in rice roots under vanadate stress. 1925 Aug 36

Prevailing evidence suggests that amyloid beta peptide (Abeta), a key mediator in age-dependent neuronal and cerebrovascular degeneration, activates death signaling processes leading to neuronal as well as non-neuronal cell death in the central nervous system. A major cellular event in Abeta-induced death of non-neuronal cells, including cerebral endothelial cells, astrocytes and oligodendrocytes, is mitochondrial dysfunction. The death signaling cascade upstream of mitochondria entails Abeta activation of neutral sphingomyelinase, resulting in the release of ceramide from membrane sphingomyelin. Ceramide then activates protein phosphatase 2A (PP2A), a member in the ceramide-activated protein phosphatase (CAPP) family. PP2A dephosphorylation of Akt and FKHRL1 plays a pivotal role in Abeta-induced Bad translocation to mitochondria and transactivation of Bim. Bad and Bim are pro-apoptotic proteins that cause mitochondrial dysfunction characterized by excessive ROS formation, mitochnondrial DNA (mtDNA) damage, and release of mitochondrial apoptotic proteins including cytochrome c, apoptosis inducing factor (AIF), endonuclease G and Smac. The cellular events activated by Abeta to induce death of non-neuronal cells are complex. Understanding these death signaling processes will aid in the development of more effective strategies to slow down age-dependent cerebrovascular degeneration caused by progressive cerebrovascular Abeta deposition.
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PMID:Mitochondrial mechanisms in amyloid beta peptide-induced cerebrovascular degeneration. 1969 62


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