Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Filamin is a dimeric muscle phosphoprotein that cross-links actin filaments. We have found that purified chicken gizzard filamin is phosphorylated in vitro at serine residues by the Ca2+/calmodulin-dependent protein kinase II (CaM kinase II). Up to 0.9 mol of phosphate can be incorporated into 1 mol of filamin dimer. Phosphorylation by CaM kinase II increases filamin's critical actin filament gelling concentration and diminishes the amount of actin sedimented by filamin at low G-force. The modulation of filamin function by CaM kinase II requires ATP, Ca2+, and calmodulin, and it is abolished when CaM kinase II is inactivated with heat. Protein phosphatase 2A removed the phosphate added by CaM kinase II and restored filamin's actin filament cross-linking activity to the untreated basal level. In cosedimentation experiments, phosphorylation reduces the binding of filamin to actin filaments. The Kd for binding of filamin to actin filaments increases approximately 2-fold, from 3.2 to 6.9 microM, following CaM kinase II-mediated phosphorylation. Phosphorylation by CaM kinase II, therefore, regulates the binding of filamin to actin filaments.
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PMID:Actin filament cross-linking by chicken gizzard filamin is regulated by phosphorylation in vitro. 775 5

Protein phosphatase 2A (PP2A) isolated from whole rat brain homogenate supernatants has been compared with that extracted from rat synaptosomal membranes. Both purified enzymes are comprised of the three known PP2A polypeptide chains of 65 (A subunit), 55 (B/B' subunit), and 38 (C subunit) kDa and have okadaic acid inhibition curves (Ki = 0.05 nM) nearly identical to that reported for skeletal muscle PP2A. The isolated 38-kDa subunit of rat brain PP2A appears to contain phosphotyrosine based on cross-reactivity with a specific monoclonal antibody (PY-20). Amino acid compositions and sequences of peptides isolated from the 65- and 38-kDa species correspond to regions of the cDNA-deduced sequences of the regulatory and catalytic subunits of protein phosphatase 2A from several sources. Studies reported here also demonstrate that autophosphorylated protein kinases, particularly Ca2+/calmodulin-dependent protein kinase II (CaM kinase II), are excellent substrates for brain PP2A. Furthermore, Ca(2+)-dependent K(+)-depolarization of hippocampal synaptosomes was accompanied by a sequential increase, then decrease, in CaM kinase II phosphorylation level over a 45-s time course. The decrease was blocked by 1 nM okadaic acid. These data demonstrate that the type 2A protein phosphatase is present at the synapses of CNS neurons where its localization could alter the functions of phosphoproteins involved in synaptic plasticity.
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PMID:Rat brain protein phosphatase 2A: an enzyme that may regulate autophosphorylated protein kinases. 779 31

In the presence of costimulation, Ca2+ influx in T cells leads to activation (transcription of interleukin-2; ref. 2) via calcineurin. In the absence of costimulation, Ca2+ influx results in anergy (interleukin-2 transcriptional block) through an unknown mechanism. Specific attenuation of interleukin-2 transcriptional induction occurs in Jurkat T cells following pretreatment with a Ca2+ ionophore. A > 90% block of inducible interleukin-2 reporter gene activity was initiated by transfection of a constitutively active mutant of multifunctional Ca2+/calmodulin-dependent protein kinase (CaM kinase or CaM kinase II), but not by constitutive mutants of CaM kinase IV, calcineurin or protein kinase C. The block was complete six hours after kinase transfection and showed specificity for interleukin-2; there was no change in beta-actin transcription or in c-fos transcription induced by phorbol myristyl acetate, and a Rous sarcoma virus promoter was stimulated threefold. Multifunctional CaM kinase also attenuated interleukin-2 activation by calcineurin plus phorbol ester. T-cell receptor signalling activates multifunctional CaM kinase. These findings suggest that two Ca2+/calmodulin-responsive enzymes, multifunctional CaM kinase and calcineurin, could mediate the divergent effects of Ca2+ signals in T-lymphocyte regulation.
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PMID:Interleukin-2 transcriptional block by multifunctional Ca2+/calmodulin kinase. 809 Feb 6

Calponin is a basic, approximately 34,000 M(r), smooth muscle-specific protein which is developmentally expressed in up to four isoforms. Calponin binds very strongly to actin in a Ca(2+)-independent manner and is localized to the thin filaments in smooth muscle, where it is present at a stoichiometry of 1 mol calponin/7 mol actin. The interaction of calponin with actin inhibits the actomyosin MgATPase (cross-bridge cycling rate) without affecting myosin phosphorylation. The calponin-actin interaction is blocked and calponin-mediated inhibition of the actomyosin MgATPase is reversed upon phosphorylation of calponin by either PKC or CaM kinase II; these properties are restored upon dephosphorylation of calponin by a type 2A protein phosphatase. Consistent with these in vitro findings, calponin is phosphorylated in intact smooth muscle in response to contractile stimuli. The increasing body of evidence, both in vitro and in vivo, strongly supports calponin phosphorylation-dephosphorylation as a thin filament-linked regulatory system in smooth muscle.
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PMID:Calponin: thin filament-linked regulation of smooth muscle contraction. 813 72

The Ca(2+)-dependent protease, calpain II, isolated from vascular smooth muscle was found to be a substrate for Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) in vitro. Phosphorylation was dependent upon prior autolysis of the regulatory subunit of calpain II. The stoichiometry of phosphorylation of native, unautolyzed calpain II was 0.02 +/- 0.01 mol PO4/mol enzyme while for autolyzed calpain, the stoichiometry was 1.04 +/- 0.15 mol PO4/mol enzyme. All phosphate was incorporated into the 76 kDa catalytic subunit of calpain II. A single serine residue in domain III of the catalytic subunit was identified as the phosphate acceptor: RGS*TAGGCR. Phosphorylation doubled enzyme activity measured both as proteolysis of an exogenous substrate (alpha-casein) as well as by intermolecular catalytic subunit autolysis. The effects of phosphorylation could be reversed by dephosphorylation using a type IIA phosphoprotein phosphatase. These results demonstrate that calpain II possesses a latent CaM kinase II phosphorylation site that is unmasked by autolysis.
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PMID:Identification of a latent Ca2+/calmodulin dependent protein kinase II phosphorylation site in vascular calpain II. 818 34

We have characterized Ca2+/calmodulin-dependent protein kinase IV (CaM kinase IV), expressed using the baculovirus/Sf9 cell system, to assess its potential role in Ca2+-dependent transcriptional regulation. CaM kinase IV was strongly inhibited in vitro by KN-62, a specific CaM kinase inhibitor which suppresses Ca2+-dependent transcription of several genes, so we tested whether CaM kinase IV could stimulate transcription. Co-transfection of COS-1 cells by cDNA for CaM kinase IV gave 3-fold stimulation of a reporter gene expression, whereas co-transfection with CaM kinase II gave no transcriptional stimulation. Since this transcriptional response was mediated by phosphorylation of cAMP responsive element-binding protein (CREB), we determined the kinetics and site specificities of CaM kinases IV and II for phosphorylating CREB in vitro. CaM kinases IV and II and cAMP kinase (protein kinase A) all had similar Km values for CREB (1-5 microns), but the Vmax of CaM kinase IV was 40-fold lower than those of CaM kinase II and protein kinase A. Although all three kinases phosphorylated Ser133 in CREB, CaM kinase II also gave equal phosphorylation of a second site which was not Ser98. The two CREB phosphorylation sites were separately 32P-labeled, and the abilities of protein phosphatases 1, 2A, and 2B (calcineurin) to dephosphorylate them were tested. Our results show that all three phosphatases could dephosphorylate both sites, and calcineurin was a stronger catalyst for dephosphorylating site 1 (Ser133) than for site 2. These results indicate that CaM kinase IV may be important in Ca2+-dependent transcriptional regulation through phosphorylation of Ser133 in CREB. The fact that CaM kinase II phosphorylates another site in addition to Ser133 in CREB raises the possibility that this second phosphorylation site may account for the suppressed phosphorylation site may account for the suppressed ability of CaM kinase II to enhance transcription through the CRE/CREB system. In addition multiple protein phosphatases, including calcineurin, may exert a modulatory effect on transcription depending on which site they dephosphorylate.
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PMID:Characterization of Ca2+/calmodulin-dependent protein kinase IV. Role in transcriptional regulation. 819 96

The preproendothelin-1 (preproET-1) gene is induced by thrombin after phosphorylation of nonreceptor protein tyrosine kinase pathways. This study investigated the contribution of Ca2+/calmodulin-dependent intracellular signaling cascades to this pathway and measured ET-1 mRNA levels by Northern blot analysis in human endothelial cells. Increased intracellular Ca2+ levels in response to Ca2+ ionophore or Ca2+ ATPase inhibitors tert-butylhydroquinone and thapsigargin mimicked thrombin actions on ET-1 mRNA induction. Thrombin-mediated activation of ET-1 mRNA was reduced by specific calmodulin antagonists W7 or calmidazolium and after inhibition of CaM kinase II by KN-62. Inhibition of calcium/calmodulin-dependent phosphatase calcineurin by cyclosporin A, however, stimulated ET-1 mRNA in human endothelial cells. Phosphotyrosine immunoblot assays show that calcium/calmodulin-dependent signaling pathways precede thrombin-induced tyrosine phosphorylation, and that the calcium/calmodulin-dependent phosphatase calcineurin also exerts its effects via activation of protein tyrosine kinases. These observations demonstrate that thrombin stimulates the preproET-1 gene in human endothelial cells through calcium-dependent activation of CaM kinase and protein tyrosine kinases, and that calcineurin may also participate in regulation of the prepro ET-1 gene.
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PMID:Thrombin-mediated ET-1 gene regulation involves CaM kinases and calcineurin in human endothelial cells. 858 30

Cholecystokinin (CCK) is known to rapidly and transiently increase both [Ca2+]i and autonomous CaM kinase II activity in rat pancreatic acini. Because induction of autonomous activity may involve intramolecular autophosphorylation, the effects of protein phosphatase inhibitors were examined. None of the inhibitors tested (okadaic acid, calyculin A, and cyclosporin A) affected basal activity. Okadaic acid, a potent inhibitor of PP2A and weaker inhibitor of PP1, increased the peak autonomous activity by 30% over the level normally induced by CCK alone, while calyculin A, a potent inhibitor of both PP1 and PP2A, showed an even greater increase of 97%. Both inhibitors also delayed the decline of autonomous activity and calyculin A had a more potent effect than okadaic acid. Cyclosporin A, an inhibitor of PP2B, had no effect. The data indicate that PP1 may be involved in the dephosphorylation of CaMK II and decline of autonomous activity.
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PMID:Protein phosphatase inhibitors potentiate Ca2+/calmodulin-dependent protein kinase II activity in rat pancreatic acinar cells. 875 94

In cardiac muscle, a Ca2+/calmodulin-dependent protein kinase (CaM kinase) associated with the sarcoplasmic reticulum (SR) is known to phosphorylate the membrane proteins phospholamban, Ca(2+)-ATPase, and Ca(2+)-release channel (ryanodine receptor). Phosphorylation of phospholamban and Ca(2+)-ATPase is recognized to stimulate Ca2+ sequestration by the SR but the functional consequence of Ca2+ channel phosphorylation has not been clearly established. In this study, we investigated the effects of the SR Ca(2+)-release inhibitor, ruthenium red (RR), and the SR Ca(2+)-release activator, ryanodine (at submicromolar concentrations), on CaM kinase-mediated phosphorylation of the Ca(2+)-cycling proteins in rabbit cardiac SR. Incubation of SR with RR (5-30 microM) for 3 min at 37 degrees C resulted in marked (up to 85%) inhibition of Ca2+ channel phosphorylation (50% inhibition with 15 +/- 2 microM RR) by the endogenous membrane-associated CaM kinase. Phosphorylation of the Ca2+ channel by exogenously added multifunctional alpha CaM kinase II was also inhibited similarly by RR. Phosphorylation of the Ca(2+)-ATPase by endogenous and exogenous CaM kinase was inhibited only modestly (25-30%) by RR, and phospholamban phosphorylation was unaffected by RR. The magnitude of RR-induced inhibition of Ca2+ channel phosphorylation did not differ appreciably at saturating or subsaturating concentrations of Ca2+ or calmodulin, and in the absence or presence of protein phosphatase inhibitors. In contrast to the effects of RR, low concentrations of ryanodine (0.25-1 microM) caused significant stimulation (up to approximately 50%) of Ca2+ channel phosphorylation but had no effect on Ca(2+)-ATPase and phospholamban phosphorylation. These findings suggest that interaction of RR with the ryanodine receptor induces a "nonphosphorylatable state" of the Ca(2+)-release channel, likely through a conformational change involving occlusion of the CaM kinase phosphorylation site. On the other hand, ryanodine binding to the receptor may serve to maintain an open, "phosphorylatable state" of the channel.
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PMID:Divergent effects of ruthenium red and ryanodine on Ca2+/calmodulin-dependent phosphorylation of the Ca2+ release channel (ryanodine receptor) in cardiac sarcoplasmic reticulum. 880 75

The alpha-toxin-permeabilized betaTC3 cell has been utilized as an experimental model for the identification of protein phosphatases responsible for the dephosphorylation and deactivation of Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) in situ. In this model, the elevation of Ca2+ from 0.05 to 10 microM induced the near-total conversion of CaM kinase II into a Ca2+/calmodulin-independent (autonomous) form characteristic of autophosphorylated, activated enzyme. On the removal of Ca2+, the activation state of CaM Kinase II rapidly returned to prestimulated levels. This reversal was slowed, but not prevented, by the inhibitors of protein phosphatase-1 (PP-1) and PP-2A, okadaic acid and calyculin A, and by the selective chelation of Mg2+ by the addition of EDTA. Near-complete prevention of enzyme deactivation, however, was observed in the combined presence of both okadaic acid and EDTA. Under these conditions, CaM kinase II phosphatase was more sensitive to calyculin A relative to okadaic acid, characteristic of the involvement of PP-1. CaM kinase II deactivation was not affected by FK-506, eliminating the involvement of PP-2B in this process. These data suggest that CaM kinase II dephosphorylation and deactivation in the pancreatic beta-cell is mediated by the combined action of an okadaic-acid-sensitive phosphatase and a Mg2+-dependent phosphatase, such as PP-2C.
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PMID:Dephosphorylation and deactivation of Ca2+/calmodulin-dependent protein kinase II in betaTC3-cells is mediated by Mg2+- and okadaic-acid-sensitive protein phosphatases. 942 10


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