EC:3.1.3.16 - FACTA Search

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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)

Studies of in vitro models demonstrate that a forward motility protein (FMP) is required for the initiation of forward motility in the immature epididymal spermatozoa. FMP is a heat-stable glycoprotein derived from epididymal plasma. During the epididymal maturation of spermatozoa in vivo, there is a marked increase of intrasperm pH and level of cyclic adenosine monophosphate (cAMP). Several studies suggest that exogenous FMP in concert with elevated intrasperm pH and level of cAMP initiates flagellar motility during the epididymal transit of sperm. cAMP activates sperm cytosolic cAMP-dependent protein kinases, which in turn phosphorylate multiple intrasperm phosphoproteins that may regulate flagellar motility. Exogenous calcium ion activates intact sperm motility, although it inhibits motility of demembranated cells on reactivation. Occurrence of cAMP-dependent type I and II protein kinases, a novel cAMP-independent protein kinase, and a phosphoprotein phosphatase has been demonstrated on the external surface of spermatozoa. The sperm surface has a coupled-enzyme system: ecto-cAMP-independent protein kinase and phosphoprotein phosphatase that regulate the phosphorylation and dephosphorylation of endogenous sperm ectophosphoproteins. The specific activities of these ecto-enzymes increase markedly during forward progression, suggesting that they may have a role in regulating flagellar motility.
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PMID:Biochemical parameters of initiation and regulation of sperm motility. 219 32

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

Guanylate cyclase is dephosphorylated in response to the interaction of egg peptides with a spermatozoan surface receptor (Suzuki, N., Shimomura, H., Radany, E. W., Ramarao, C. S., Ward, G. E., Bentley, J. K., and Garbers, D. L. (1984) J. Biol. Chem. 259, 14874-14879). Here, the phosphorylated form of guanylate cyclase was purified to apparent homogeneity from detergent-solubilized spermatozoan membranes by the use of GTP-agarose, DEAE-Sephacel, and concanavalin A-Sepharose chromatography. To prevent dephosphorylation of the enzyme during purification, glycerol (35%) was required in all buffers. Following purification, a single protein-staining band of Mr 160,000 was obtained on sodium dodecyl sulfate-polyacrylamide gels. The final specific activity of the purified enzyme was 83 mumol of cyclic GMP formed/min/mg of protein at 30 degrees C, an activity 5-fold higher than that observed with the purified, dephosphorylated form of guanylate cyclase. A preparation containing protein phosphatase from spermatozoa, or highly purified alkaline phosphatase (from Escherichia coli), catalyzed the dephosphorylation of the enzyme; this resulted in a subsequent decrease in guanylate cyclase activity and a shift in the Mr from 160,000 to 150,000. The phosphate content of the high Mr form of the enzyme was 14.6 mol/mol protein whereas the phosphate content of the low Mr form was 1.6 mol/mol protein. All phosphate was localized on serine residues. The Mr 160,000 form of guanylate cyclase demonstrated positive cooperative kinetics with respect to MnGTP while the Mr 150,000 form displayed linear, Michaelis-Menten type kinetics. The phosphorylation state of the membrane form of guanylate cyclase, therefore, appears to dictate not only the absolute activity of the enzyme but also the degree of cooperative interaction between catalytic or GTP-binding sites.
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PMID:Purification and properties of the phosphorylated form of guanylate cyclase. 289 12

Intact spermatozoa from goat cauda epididymis possess phosphoprotein phosphatase activity that causes dephosphorylation of externally added [32p]histones. The enzymic reaction was linear with time for at least 15 min and there was little uptake of [32p]histones by these cells. The activity of the enzyme of the whole spermatozoa was not due to contamination of the broken cells or epididymal plasma and leakage of the intracellular enzymic activity during incubation. The activity of the phosphoprotein phosphatase was strongly inhibited by the thiol reagent: p-chloromercuribenzenesulfonic acid, which is believed not to enter the cells. There was no appreciable loss of the enzymic activity from the cells when washed with EDTA (2.0 mM) or a hyperosmotic medium. These data are consistent with the view that the observed activity of the enzyme is located on the spermatozoal external surface. Studies with unlabelled p-nitrophenyl phosphate and beta-glycerophosphate indicate that the sperm ecto-enzyme is not a non-specific phosphatase.
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PMID:Occurrence of an ecto-phosphoprotein phosphatase in goat epididymal spermatozoa. 299 Apr 77

Phosphoprotein phosphatase prepared from bovine cardiac muscle was used to study the roles of axonemal phosphoproteins in the flagellar motility of sea urchin spermatozoa. When isolated axonemes were incubated with cyclic AMP-dependent protein kinase, gamma-[32P]ATP and cyclic AMP, more than 15 polypeptides were phosphorylated. Most were dephosphorylated by treatment with phosphoprotein phosphatase. When Triton models of sea urchin spermatozoa were treated with phosphoprotein phosphatase followed by an addition of ATP, the flagellar motility of the models was drastically reduced in comparison with that of the untreated models. The motility of the phosphatase-treated Triton models was partially restored by an addition of cyclic AMP and cyclic AMP-dependent protein kinase. These data give strong support to the idea that the motility of eukaryotic flagella is controlled by a protein phosphorylation-dephosphorylation system.
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PMID:Phosphoprotein phosphatase inhibits flagellar movement of Triton models of sea urchin spermatozoa. 300 37

Flagellar motility of Triton models of sea urchin spermatozoa was reactivated by cyclic AMP-dependent protein kinase and a protein factor, termed motility activator, both of which were prepared from the detergent-extract of sea urchin spermatozoa. It was shown that phosphorylation of the motility activator by the protein kinase is necessary for the reactivation of flagellar motility [Ishiguro et al, J. Cell Biol. 92:777-782, 1982; Murofushi et al, in "Biological Functions of Microtubules and Related Structures," Academic Press, 1982]. Reactivating factor was also detected in a KCl-extract of the axoneme fraction devoid of the detergent-extractable materials. The activity of this factor was also cyclic AMP- and protein kinase-dependent. Furthermore, when freshly prepared Triton models were treated with phosphoprotein phosphatase prepared from bovine cardiac muscle, the flagellar motility was drastically suppressed. This inhibition of the motility was partially recovered by the addition of cyclic AMP and protein kinase to the phosphatase-treated models.
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PMID:Regulation of sperm flagellar movement by protein phosphorylation and dephosphorylation. 301 Dec 85

Intact spermatozoa from goat cauda epididymides possess an ecto-(cyclic AMP-independent protein kinase) activity that causes transfer of the terminal phosphate of exogenously added [gamma-32P]ATP to the serine and threonine residues of several endogenous plasma-membrane phosphoproteins located on the external cell surface. Cyclic AMP, cyclic GMP, calmodulin and muscle cyclic AMP-dependent protein kinases I and II had no appreciable effect on the rate of phosphorylation of ecto-proteins by the intact cells. The ecto-enzyme is not derived from the catalytic subunit of a cyclic AMP-dependent kinase. Sperm ecto-kinase activity is not due to contamination of broken cells or any possible cell damage during incubation and isolation of spermatozoa. The phosphorylation reaction was linear for approx. 1 min and there was no detectable uptake of ATP by these cells. The activity of the ecto-kinase was strongly inhibited by proteinases and by the membrane-nonpenetrating surface probes. The products of the reaction were associated with the intact cells and the 32P of the labelled cells was largely lost when treated with Triton X-100 or proteinases: trypsin and pronase. These data are consistent with the view that the observed protein kinase and the phosphoproteins are located on the external surface of spermatozoa. Vigorously forward-motile whole spermatozoa showed a relatively high capacity to phosphorylate ecto-proteins that undergo rapid turnover. The results suggest the occurrence of a novel coupled-enzyme system (ecto-protein kinase and phosphoprotein phosphatase) on the sperm external surface that may modulate sperm physiology by determining the phosphorylated states of the ecto-proteins.
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PMID:Phosphorylation of external cell-surface proteins by an endogenous ecto-protein kinase of goat epididymal intact spermatozoa. 352 94

Intact fowl spermatozoa became almost immotile at 40 degrees C. In contrast, the presence of 10-1000 nmol calyculin A l-1, a specific inhibitor of protein phosphatase-1 (PP1) and -2A (PP2A), permitted activation of sperm motility in a dose-dependent manner. Calyculin A also stimulated the rate of oxygen consumption by spermatozoa, and induced a concomitant decrease in ATP concentrations, suggesting a coupling of ATP hydrolysis to the rate of oxidative phosphorylation. However, the motility and oxygen consumption of spermatozoa loaded with an intracellular Ca2+ chelator, 1,2-bis (2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid, tetraacetoxymethyl ester (BAPTA/AM), were not stimulated by calyculin A alone, but only after the subsequent addition of 2 mmol CaCl2 l-1. These results suggest that inhibition of the activities of endogenous PP1 and PP2A may stimulate the motility and metabolic activity of fowl spermatozoa at 40 degrees C via a mechanism that requires intracellular free Ca2+.
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PMID:Stimulation of motility and respiration of intact fowl spermatozoa by calyculin A, a specific inhibitor of protein phosphatase-1 and -2A, via a Ca2+-dependent mechanism. 749 Jul 1

Synchronous, demonstrative, easily reproducible fertilization with the following embryonic development makes the process in the sea urchin extremely attractive for studying many biological enigmas. In particular, germ and embryonic cells of the sea urchin present a wide opportunity for investigating different associated phenomena launched by an increase in concentration of Ca2+ in cells ([Ca2+]i). Ca2+ ions participate in the activation of diverse processes of respiration and sperm motility (Shapiro et al., 1990; Brokaw, 1991), chemotaxis of spermatozoa to components of the egg jelly (Ward et al., 1985), acrosomal reaction (Trimmer et al., 1986; Shapiro et al., 1990), cortical reaction, formation of the fertilization membrane (Sasaki, 1984; Sardet and Chang, 1987), cellular division in the embryo (Poenie et al., 1985; Silver, 1986; Whitaker and Patel, 1990), their adhesion (McClay and Matranga, 1986), differentiation and formation of spicules (Mitsunaga et al., 1988) and metamorphosis (Carpenter et al., 1984). The present review combines information on the function of calcium-binding proteins and their targets, calmodulin regulation of NAD-kinase, exocytosis of cortical granules, Ca(2+)- and calmodulin-dependent protein phosphatase, Ca(2+)-dependent protein phosphorylation, regulation of ion-exchanger in the germ and embryonic cells as well as Ca(2+)- and calmodulin control of sperm motility in sea urchins.
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PMID:Cytoplasm calcium-binding proteins of germ cells and embryos of the sea urchin. 770 28

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