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)

Specific effects of both in vivo activation and in vitro activation by cAMP-dependent phosphorylation on bending wave parameters of demembranated, reactivated, tunicate (Ciona intestinalis) and sea urchin (Lytechinus pictus) sperm flagella can be reversed by exposure to protein phosphatase. The effects of protein phosphatase incubation can be imitated by inclusion of LiCl in the reactivation solutions. The primary effect of cAMP-dependent phosphorylation appears to be activation of a regulatory mechanism controlling flagellar oscillation, rather than activation of the active sliding mechanism. Lithium appears to act on the same regulatory mechanism.
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PMID:A lithium-sensitive regulator of sperm flagellar oscillation is activated by cAMP-dependent phosphorylation. 282 25

There is substantial evidence that cAMP-dependent phosphorylation is involved in the activation of motility of spermatozoa as they are released from storage in the male reproductive tract. This evidence includes observations that in vivo activation of motility can be inhibited by protein kinase inhibitors, can be reversed by protein phosphatase treatment of demembranated spermatozoa, and is associated with phosphorylation of sperm proteins, and observations that spermatozoa that have not been activated in vivo can be activated in vitro by cAMP-dependent phosphorylation. Activation in vivo can often be triggered by conditions that increase intracellular pH, but the relevance of this to in vivo activation under natural conditions and the steps between pH increase and cAMP increase have not been fully established. The relationships between changes in the protein substrates for cAMP-dependent phosphorylation and changes in axonemal function are still unknown. Sperm chemotaxis to egg secretions is widespread; in the sea urchin Arbacia, the egg jelly peptide resact has been identified as a chemoattractant. Response to chemoattractants involves changes in asymmetry of flagellar bending waves, and similar changes in asymmetry can be produced in vitro by increases in [Ca++]. Temporal changes in resact receptor occupancy might lead to transient changes in intracellular [Ca++] and the asymmetry of flagellar bending, but many links in this hypothetical sequence remain to be established. Both of these signalling systems offer immediate opportunities for investigations of biochemical pathways leading to easily assayable biological responses. However, complications resulting from interactions between these two systems need to be considered.
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PMID:Regulation of sperm flagellar motility by calcium and cAMP-dependent phosphorylation. 282 4

Intact washed spermatozoa from goat cauda epididymis possess an ecto-phosphoprotein phosphatase that causes dephosphorylation of phosphoserine and phosphothreonine residues of exogenous 32P-labelled histones. The cell-bound ecto-enzyme has high affinity for proteins (histones, casein, phosvitin, and protamine) rather than phosphate esters, such as p-nitrophenyl phosphate, beta-glycerophosphate, AMP, and ATP. The activity of the enzyme is inhibited by 4 mM Mg2+, Ca2+, Mn2+, or Co2+. Pi (10 mM), NaF (10 mM), and Zn2+ (1 mM) inhibit the enzyme by approximately 50, 35, and 100%, respectively. Polyamines such as spermine and spermidine at 10 mM each caused significant inhibition (60 and 30%, respectively) of the cell-bound phosphoprotein phosphatase activity, whereas cAMP, orthovanadate, and calmodulin (with or without Ca2+) had no appreciable effect. Under the standard assay conditions, spermatozoa remain intact as evidenced by assay of cytosolic enzyme markers. Both the washed and "native" intact spermatozoa showed nearly the same specific activity of the ectoenzyme. The product of the reaction (Pi) was found in the extracellular medium. Sonication doubled the enzymic activity of the intact cells. The specific activity of the enzyme was nearly fourfold higher in the intact forwardly motile cells than the "composite" spermatozoa. These data provide further support for the localization of a phosphoprotein phosphatase on the external surface of spermatozoa and that the ectoenzyme may have a role in the regulation of flagellar motility.
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PMID:Enzymic characteristics of ecto-phosphoprotein phosphatase in goat epididymal intact spermatozoa. 282 47

The regulatory subunit of type I cAMP-dependent protein kinase (RI) from rabbit skeletal muscle inhibited the activity of a low molecular weight phosphoprotein phosphatase. The inhibition was concentration and time dependent. A maximum inhibition, about 70%, was observed at 2 microM of RI with an apparent Ki of 0.8 microM. Inhibition was associated with a decrease in Vmax with no change in Km for substrate, phosphorylase a. On the other hand, cAMP-dependent protein kinase holoenzyme or its catalytic subunit was without any effect. The inhibition of phosphoprotein phosphatase by RI may be of physiological significance since the dissociation of cAMP-dependent protein kinase by cAMP would result in a simultaneous increase in the phosphorylation and decrease in the dephosphorylation rates of target proteins.
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PMID:Inhibitory effect of the regulatory subunit of type I cAMP-dependent protein kinase on phosphoprotein phosphatase. 283 51

Studies were performed to determine if the Na+-H+ exchanger, solubilized from renal brush border membranes from the rabbit and assayed in reconstituted artificial proteoliposomes, could be regulated by cAMP-dependent protein kinase. Octyl glucoside solubilized renal apical membrane proteins from the rabbit kidney were phosphorylated by incubation with ATP and highly purified catalytic subunit of cAMP-dependent kinase. 22Na+ uptake was determined subsequently after reconstitution of the proteins into proteoliposomes. cAMP-dependent protein kinase resulted in sustained protein phosphorylation and a concentration-dependent decrease in the amiloride-sensitive component of pH gradient-stimulated sodium uptake. The inhibitory effect of cAMP-dependent protein kinase demonstrated an absolute requirement for ATP and was blocked by the specific protein inhibitor of this kinase. cAMP-dependent protein kinase also inhibited 22Na+ uptake in the absence of a pH gradient (pHin 6.0, pHout 6.0) and the inhibitory effect was blocked by the specific inhibitor of the kinase. Solubilized membrane proteins exhibited little endogenous protein kinase or protein phosphatase activity. These studies indicate that Na+-H+ exchange activity of proteoliposomes reconstituted with proteins from renal brush border membranes is inhibited by phosphorylation of selected proteins by cAMP-dependent protein kinase. These findings also indicate that the regulatory components of the Na+-H+ exchanger remain active during the process of solubilization and reconstitution of renal apical membrane proteins.
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PMID:Reconstitution of cAMP-dependent protein kinase regulated renal Na+-H+ exchanger. 283 85

Incubation of the soluble fraction derived from Mycoplasma gallisepticum cells with [gamma-32P]ATP results in the phosphorylation of several endogenous proteins. One protein with an apparent molecular mass of 55 kDa was the acceptor of more than 95% of the radioactive phosphate. This protein was also found to be radiolabeled in intact cells grown in the presence of [32P]orthophosphate. Acid hydrolysis of the phosphorylated 55-kDa protein followed by two-dimensional electrophoresis revealed that the 32P-labeled material co-migrated with phosphoserine. The in vitro phosphorylation of the 55-kDa protein has an optimum pH of 5.5-6.0 and is not affected by various metabolites of glycolysis, by cAMP or by calmodulin with or without Ca2+. The phosphorylation is dependent upon divalent cations, a dependency that is best fulfilled by the simultaneous addition of Ca2+ and Zn2+ that act in a specific and cooperative manner. Of a variety of possible exogenous protein acceptors tested, the endogenous protein kinase was capable to phosphorylate only phosvitin. The phosphorylation of the 55-kDa protein is reversible through the activity of a phosphoprotein phosphatase present in the soluble fraction of M. gallisepticum. The phosphoprotein phosphatase has an optimum pH of 7.5-8.0, is inhibited by NaF and stimulated to a large extent by inorganic phosphate and arsenate and to a lesser extent by pyrophosphate ATP and ADP. The possible association of the reversible protein phosphorylation to cell shape and gliding motility of M. gallisepticum are discussed.
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PMID:Protein phosphorylation in Mycoplasma gallisepticum. 284 67

A protein phosphatase which dephosphorylates phospholamban was purified from canine cardiac cytosol. Purification involved sequential chromatography on DEAE-Sephacel, polylysine-agarose, heparin-agarose, Mono Q HR 10/10, and Superose 6. The enzyme was composed of three subunits with Mr = 63,000, 55,000, and 38,000, and it could dephosphorylate the sites on phospholamban phosphorylated by either cAMP-dependent or calcium-calmodulin-dependent protein kinase. Phospholamban phosphatase activity was enhanced 12-, 9-, and 3-fold by the divalent cations Mg2+, Mn2+, and Ca2+, respectively. The phosphatase was inhibited by PPi, ATP, NaF, and Pi and the degree of inhibition was different with each compound. The substrate specificity of the purified phosphatase for cardiac phosphoproteins was determined using troponin I, phospholamban, and highly enriched sarcolemmal and sarcoplasmic reticulum preparations, phosphorylated by the cAMP-dependent protein kinase. The phosphatase exhibited the highest activity with phospholamban as substrate. Thus, dephosphorylation of phospholamban by this phosphatase may participate in regulation of sarcoplasmic reticulum function in cardiac muscle.
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PMID:Purification and characterization of phospholamban phosphatase from cardiac muscle. 284 19

The effects of a protein phosphatase inhibitor, okadaic acid (OA), were studied on membrane currents of isolated myocytes from guinea-pig cardiac ventricle. The whole-cell Ca2+ current (ICa) was recorded as peak inward current in response to test pulse to 0 mV. Extracellular application of OA (5-100 microM) produced an increase of ICa. The effect was markedly enhanced when the myocyte was pretreated with threshold concentrations of isoprenaline. ICa was increased from 11.3 +/- 0.8 microA cm-2 to 19.0 +/- 1.1 microA cm-2 (n = 4) by 5 microM-OA in the presence of 1 nM-isoprenaline. The delayed rectifier current was also slightly increased. Furthermore, the wash-out time of the beta-adrenergic increase of ICa was markedly prolonged by OA. The beta-adrenergic stimulation of cardiac Ca2+ current is thought to be mediated by cAMP-dependent phosphorylation. The present results strongly suggest that the effect of OA on ICa is related to inhibition of endogenous protein phosphatase activity which is responsible for the dephosphorylation process. By the isotope method, the inhibitory effect of OA on different types of phosphatase was compared. OA had a relatively high specificity to type 1-, and type 2A-phosphatases.
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PMID:Effects of a protein phosphatase inhibitor, okadaic acid, on membrane currents of isolated guinea-pig cardiac myocytes. 284 14

Adrenocorticotropin (ACTH) acts via protein kinase A and the putative phosphorylation of a regulatory protein(s). We have examined a role in this process for inhibitor-1 which, following phosphorylation by protein kinase A, inhibits a phosphoprotein phosphatase activity. In the tissues we have examined inhibitor-1 was found primarily in the cytosol (90%) with the rest in the mitochondrial pellet. The highest concentration was in the adrenal cortex. Using adrenal cortex slices, the stimulation of steroidogenesis by ACTH and dibutyryl cAMP is paralleled by a corresponding increase in the phosphorylation of inhibitor-1 and this is not affected by inhibitors of protein synthesis which inhibit the steroidogenic response. The increase in the phosphorylation of inhibitor-1 occurs in the cytosol, while that in the mitochondrial pellet is not affected. Exogenous phosphorylated inhibitor-1, however, was found to inhibit phosphoprotein phosphatase activity in the mitochondrial pellet. The results suggest that the ACTH-induced increase in phosphorylated inhibitor-1 in the cytosol can affect susceptible phosphoprotein phosphatase activity both in the cytosol and the mitochondrial pellet and, hence, the level of phosphorylation of regulatory protein(s) involved in steroidogenesis.
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PMID:The stimulation by adrenocorticotropin of the phosphorylation of adrenal inhibitor-1: a possible role in steroidogenesis. 285 Sep 49

Calcium fluxes across the sarcoplasmic reticulum membrane are regulated by phosphorylation of a 27,000-dalton membrane-bound protein termed phospholamban. Phospholamban is phosphorylated by three different protein kinases (cAMP-dependent, Ca2+.CAM-dependent and Ca2+.phospholipid dependent) at apparently distinct sites. Phosphorylation by each of the protein kinases increases the rates of active calcium transport by sarcoplasmic reticulum vesicles. The stimulatory effects of protein kinases on the calcium pump may be reversed by an endogenous protein phosphatase activity. The phosphoprotein phosphatase can dephosphorylate both the cAMP-dependent and the Ca2+.CAM-dependent sites of phospholamban. Phosphorylation of phospholamban also occurs in situ, in perfused beating hearts, during the peak of the inotropic response to beta-adrenergic stimulation. Reversal of the stimulatory effects is associated with dephosphorylation of phospholamban. Thus, in vivo and in vitro studies suggest that phospholamban is a regulator for the calcium pump in cardiac sarcoplasmic reticulum. The degree of phospholamban phosphorylation determined by the interaction of specific protein kinases and phosphatases may represent an important control for sarcoplasmic reticulum function and, thus, for the contraction-relaxation cycle in the myocardium. In this review, we summarize recent evidence on physical and structural properties of phospholamban, the proposed structural molecular models for this protein, and the significance of its regulatory role both in vitro and in situ.
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PMID:Regulation of cardiac sarcoplasmic reticulum function by phospholamban. 285 62


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