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)

A cytosolic insulin-sensitive serine kinase has been purified to apparent homogeneity in parallel from livers of control or acutely insulin-treated rats. The kinase is labile and requires rapid purification for stability. The kinase migrates as a band of apparent Mr = 90,000 on denaturing gels and elutes as a monomer on Superose 12 gel filtration. After sodium dodecyl sulfate-polyacrylamide gel electrophoresis and renaturation, the 90-kDa band presumed to be the kinase shows kinase activity toward myelin basic protein in situ. Substrates of the kinase include Leu-Arg-Arg-Ala-Ser-Leu-Gly (Kemptide), ribosomal protein S6, S6 peptide, a proline-rich peptide substrate, microtubule-associated protein 2, and myelin basic protein. The kinase also phosphorylates histones H1 and H2B, but does not autophosphorylate to a significant stoichiometry. The activity of the kinase is inhibited by fluoride, glycerophosphate, p-nitrophenyl phosphate, p-nitrophenol, heparin, quercetin, poly-L-lysine, and potassium phosphate, but is unaffected by calcium, cAMP, spermine, protein kinase inhibitor peptide, phorbol myristate acetate, calcium plus phosphatidylserine, or vanadate. The kinase will utilize magnesium (10 mM) as well as manganese (1 mM) as a cofactor for maximal phosphotransferase activity. The kinase is not detected by immunoblotting with antibodies directed against protein kinase C or type II S6 kinase. Taken together, these properties distinguish this kinase from other insulin-sensitive kinases that have been described previously. The purified kinase from livers of insulin-treated rats shows a 5-20-fold higher specific activity compared to enzyme prepared from control rats, suggesting a covalent modification as the mechanism of activation. Incubation of purified, insulin-stimulated kinase with purified phosphatase 2A leads to deactivation of the kinase activity, and the phosphatase inhibitor nitrophenyl phosphate blocks this deactivation. The insulin-activated kinase fails to immunoblot with anti-tyrosine phosphate antibodies. Taken together, these results indicate that insulin activates this novel cytosolic protein kinase by a mechanism that causes its phosphorylation on serine or threonine residues.
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PMID:Purification and characterization of a cytosolic insulin-stimulated serine kinase from rat liver. 153 38

Modulation of the activity of potassium and other ion channels is an essential feature of nervous system function. The open probability of a large conductance Ca(2+)-activated K+ channel from rat brain, incorporated into planar lipid bilayers, is increased by the addition of adenosine triphosphate (ATP) to the cytoplasmic side of the channel. This modulation takes place without the addition of protein kinase, requires Mg2+, and is mimicked by an ATP analog that serves as a substrate for protein kinases but not by a nonhydrolyzable ATP analog. Addition of protein phosphatase 1 reverses the modulation by MgATP. Thus, there may be an endogenous protein kinase activity firmly associated with this K+ channel. Some ion channels may exist in a complex that contains regulatory protein kinases and phosphatases.
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PMID:Protein kinase activity closely associated with a reconstituted calcium-activated potassium channel. 185 86

Requirements for the activation of Cl- conductance have been investigated in pig jejunal brush border vesicles. The stability of ATP as a substrate for protein kinase activity, the stability of the phosphoprotein product of protein kinase action, and the choice of buffer system used for vesicle preparation were studied as variables which affected the outcome of in vitro activation attempts. Arsenate was selected as the most effective agent in protecting ATP from hydrolysis by the phosphatase activity in this vesicle system. Brush border vesicle protein appeared to prevent the accumulation of phosphoprotein in a cAMP-dependent protein kinase reaction, and vesicle protein only had phosphate acceptor activity when KF was added as a presumptive inhibitor of phosphoprotein phosphatase. A Cl- conductance response to a potassium gradient and valinomycin was present in vesicles prepared in buffers containing tetramethylammonium. Cl- conductance activity was not increased in this system by the addition of ATP, dibutyryl cyclic AMP, and cyclic AMP-dependent protein kinase. There was no Cl conductance response to a potassium gradient in vesicles buffered with imidazolium-acetate. Incorporation of ATP, AsO4(3-), and F- into these nonconductive vesicles by homogenization, followed by addition of dibutyryl cAMP, produced substantial conductance activity. Maximal activation of Cl- conductance was obtained with vesicles prepared in imidazolium-acetate buffering, using precautions to stabilize ATP and phosphoprotein prior to conductance measurements.
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PMID:Activation of chloride conductance in pig jejunal brush border vesicles. 271 42

We have studied the effect of myosin P-light chain phosphorylation on the isometric tension generated by skinned fibers from rabbit psoas muscle at 0.6 and 10 microM Ca2+. At the lower Ca2+ concentration, which produced 10-20% of the maximal isometric tension obtained at 10 microM Ca2+, addition of purified myosin light chain resulted in a 50% increase in isometric tension which correlated with an increase in P-light chain phosphorylation from 0.10 to 0.80 mol of phosphate/mol of P-light chain. Addition of a phosphoprotein phosphatase reversed the isometric tension response and dephosphorylated P-light chain. At the higher Ca2+ concentration, P-light chain phosphorylation was found to have little effect on isometric tension. Fibers prepared and stored at -20 degrees C in a buffer containing MgATP, KF, and potassium phosphate incorporated 0.80 mol of phosphate/mol of P-light chain. Addition of phosphoprotein phosphatase to these fibers incubated at 0.6 microM Ca2+ caused a reduction in isometric tension and dephosphorylation of the P-light chain. There was no difference before and after phosphorylation of P-light chain in the normalized force-velocity relationship for fibers at the lower Ca2+ concentration, and the extrapolated maximum shortening velocity was 2.2 fiber lengths/s. Our results suggest that in vertebrate skeletal muscle, P-light chain phosphorylation increases the force level at submaximal Ca2+ concentrations, probably by affecting the interaction between the myosin cross-bridge and the thin filament.
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PMID:The effect of myosin phosphorylation on the contractile properties of skinned rabbit skeletal muscle fibers. 383 39

1. The activity of acetyl-CoA carboxylase (EC 6.4.1.2) in extracts of freeze-clamped liver samples from fed or 24 h-starved virgin, pregnant, lactating and weaned rats was measured (i) immediately after preparation of extracts (;I activity'), (ii) after incubation of extracts with partially purified preparations of either rabbit muscle protein phosphatase 1 [Antoniw, Nimmo, Yeaman & Cohen (1977) Biochem. J.162, 423-433] or rabbit liver phosphatase [Brandt, Capulong & Lee (1975) J. Biol. Chem.250, 8038-8044] (;A activity') and (iii) after incubation with 20mm-potassium citrate before or after incubation with phosphatases (;C activity'). 2. Incubation of liver extracts at 30 degrees C without any additions resulted in activation of acetyl-CoA carboxylase that was shown to be due to dephosphorylation of the enzyme by endogenous protein phosphatase activity. This latter activity was not stimulated by Ca(2+) and/or Mg(2+) but was stimulated by 1 mm-Mn(2+). Incubation of extracts with either of the partially purified phosphatases (0.2-0.5 unit) resulted in faster dephosphorylation and activation. The activity achieved after incubation with either of the exogenously added phosphatases was similar. 3. The A and C activities increased during late pregnancy, were lower than in the virgin rat liver during early lactation and increased by 2-fold in liver of mid-lactating rats. Weaning of mid-lactating rats for 24 h resulted in no change in A and C activities but after 48 h weaning they were significantly lower than those in livers from suckled mothers. 4. The I activity followed a similar pattern of changes as the A and C activities during pregnancy and lactation such that, although the I/A and I/C activity ratios tended to be lower during late pregnancy and early lactation, there were no significant changes in I/A and I/C ratios between lactating and virgin animals. However, these ratios were significantly higher in liver from fed 24 h-weaned animals. 5. Starvation (24 h) resulted in a marked decrease in I activity for all animals studied except early-lactating rats. This was due to a combination of a decrease in the concentration of acetyl-CoA carboxylase in liver of starved animals (A and C activities) and a decrease in the fraction of the enzyme in the active form (lower I/C and I/A ratios). The relative importance of the two forms of regulation in mediating the starvation-induced fall in I activity was about equal in livers of virgin, pregnant and lactating animals. However, the decrease in I/A and I/C ratios was of dominating importance in livers of weaned animals. The A/C activity ratios were the same for livers from all animals studied. 6. The maximal activity of fatty acid synthase was also measured in livers and was highly and positively correlated with the A and C activities of acetyl-CoA carboxylase, suggesting that the concentrations of the two enzymes in the liver were controlled coordinately. 7. It is suggested that the lack of correlation between plasma insulin levels and rates of lipogenesis in the transition from the virgin to the lactating state may be explained by different effects of insulin and prolactin on the concentration of acetyl-CoA carboxylase in the liver and on the fraction of the enzyme in the active form.
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PMID:Changes in the proportion of acetyl-CoA carboxylase in the active form in rat liver. Effect of starvation, lactation and weaning. 612 71

Although substantial evidence supports the conclusion that 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase [mevalonate:NADP+ oxidoreductase (CoA-acylating), EC 1.1.1.34] is the major regulatory enzyme in cholesterol biosynthesis, the molecular events involved in the in vivo regulation of this enzyme have remained obscure. To study this problem, rats were given a single 100-mg dose of mevalonolactone by intragastric tube. The rats were sacrificed 20 or 60 min later, and liver microsomes were prepared by ultracentrifugation. Two phases of inhibition of microsomal HMG-CoA reductase were observed. The first phase of inhibition, observed 20 min after mevalonolactone administration, was completely reversed by preincubation of the microsomes with purified phosphoprotein phosphatase. The second phase of inhibition, observed 60 min after mevalonolactone administration, was not reversed by phosphoprotein phosphatase. The reactivation of liver microsomal HMG-CoA reductase by phosphoprotein phosphatase was blocked by potassium fluoride or by phosphoprotein phosphatase inhibitor. Results obtained by immunotitration also showed that microsomal HMG-CoA reductase obtained from animals killed 20 min after mevalonolactone administration was significantly activated by phosphoprotein phosphatase treatment of the microsomes. These findings demonstrate that phosphorylation of rat liver HMG-CoA reductase is an early in vivo regulatory response after intragastric administration of mevalonolactone.
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PMID:In vivo regulation of rat liver 3-hydroxy-3-methylglutaryl-coenzyme A reductase: enzyme phosphorylation as an early regulatory response after intragastric administration of mevalonolactone. 625 37

Phosphoprotein phosphatases (phosphoprotein phosphohydrolase, EC 3.1.3.16) were partially purified from bovine thyroid with phosphorylated mixed histones, H1 histone and casein as substrates. Utilizing DEAE-cellulose chromatography, (NH4)2SO4 precipitation, gel filtration before and after freeze-thawing in 0.2 M 2-mercaptoethanol and histone-Sepharose chromatography, four fractions of enzyme activity were obtained and were designated as phosphatases I, IIA, IIB, and III. Phosphatases I had an apparent molecular weight of 155,000 and was dependent on Mn2+ for maximal activity. The enzyme had the greatest activity with histone H1 and was greatly stimulated by NaCl with phosphohistones as substrate. Phosphatases IIA and IIB had a molecular weight of about 70,000, were stimulated over 5-fold by Mn2+ and had much higher activities with phosphohistones than with casein in the presence of the cation. Phosphatase III, a possible catalytic subunit of larger molecular weight forms, had an apparent molecular weight of 30,000, was generally independent of Mn2+ and had high activities using all three substrates. Phosphatases I, IIA, and III were inhibited in a dose-dependent manner by sodium pyrophosphate (PPi), ATP, potassium phosphate (Pi) and sodium fluoride (NaF) when they were added directly to the reaction mixture with phosphorylated mixed histones as substrate. PPi was the most potent inhibitor and phosphatase III was the most sensitive to inhibition. PPi, ATP and NaF probably inactivated phosphatase III activity by removing an essential metal ion. After extensive dialysis to remove these inhibitors, the inactivated enzyme could be fully activated by Mn2+, but not by Mg2+, Ba2+, Cu2+, Cd2+, Ca2+, Zn2+ and Fe2+. Whereas the enzyme pretreated with Pi retained about 80% activity after dialysis, its activity was not further stimulated by Mn2+. The inactivated (demetallized) enzyme was less reactivated by Mn2+ in the presence of mM concentration of Pi. Moreover, the Mn2+-reactivated enzyme was again inactivated by Pi, NaF and ATP. Among them Pi was the most potent inactivator. These results suggest that Pi may have another inhibitory effect on metal ion binding besides on substrate binding and also that phosphatase III might be a metalloenzyme. In bovine thyroid, there are at least two major phosphoprotein phosphatases which may have different properties. Metal ion stimulation of phosphatase I and IIA activities may be through an interaction with the substrate or with a metal ion binding site on the regulatory subunit. The lowest molecular weight enzyme (phosphatase III) probably does not exist naturally in the cell.
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PMID:Discrimination of multiple forms of phosphoprotein phosphatase in bovine thyroid. 629 68

Purified rat adipocyte plasma membranes incubated with insulin produce a soluble chemical mediator that stimulates pyruvate dehydrogenase when added to isolated mitochondria, or glycogen synthase when added to cell homogenates. The mediator appears to be a peptide and has been characterized by conventional chromatographic methods including gel filtration, ion exchange, and hydroxylapatite chromatography. These studies reveal that an insulin-dependent bioactive component, which is small and negatively charged at pH 7.4, can be eluted from Dowex 1 x 4 by 0.3-0.4 N NaCl or from hydroxylapatite by 0.05-0.15 M potassium phosphate. The mediator has also been partially purified by high-pressure liquid chromatography. A molecular sieving matrix produces a peak of insulin-dependent bioactivity that corresponds to a peak of absorbance at 210 nm (apparent Mr of 2000) and is increased by insulin. Reversed-phase high-pressure liquid chromatography indicates that the insulin-dependent bioactivity is of a hydrophilic nature. Previous studies showed that release of mediator from plasma membranes in response to insulin was blocked by inhibitors of serine proteases and esters of arginine. In addition, bioactivity of the insulin-treated plasma membrane supernatant could be destroyed by protease treatment. In the present experiments, pretreatment of intact adipocytes with serine protease inhibitors blocked the action of subsequently added insulin on several intracellular enzyme systems. These observations have been summarized in the following working model of one mode of insulin action. The binding of insulin to its receptor activates a membrane protease or alters an endogenous membrane substrate, resulting in the increased release into the cell of a small peptide fragment by proteolytic cleavage. The released peptide is proposed to modulate several cellular enzymes such as pyruvate dehydrogenase and glycogen synthase by interacting with phosphoprotein phosphatase or protein kinase activities, or both.
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PMID:Production by plasma membranes of a chemical mediator of insulin action. 681 28

1. Whole-cell patch-clamp technique was used to study the beta-adrenergic and cholinergic regulation of the inwardly rectifying K+ conductance (gK1) in isolated guinea-pig ventricular myocytes. 2. In Cl(-)-free solutions or in the presence of 9-anthracenecarboxylic acid or Co2+, bath-applied isoprenaline (Iso) partially inhibited the steady-state whole-cell conductance (gss) calculated from the steady-state current (Iss)-voltage (Iss-V) curve at membrane voltages (Vm) negative to the equilibrium potential for potassium (EK). Iss was also inhibited at Vm positive to EK when the extracellular [K+] was 20 mM. The Iso-sensitive component of gss exhibited the characteristics of the inwardly rectifying K+ conductance (gK1). 3. The Iso-induced inhibition of gK1 was reversible, concentration dependent, blocked by propranolol, mimicked by both forskolin and dibutyryl cAMP, and prevented by including a cAMP-dependent protein kinase (PKA) inhibitor in the pipette solution. These findings suggest that PKA mediates the Iso-induced inhibition of gK1. 4. The apparent dissociation constant (KD) for the concentration dependence of Iso-induced inhibition was 0.035 microM and the Hill coefficient was approximately 1.0. A maximal Iso concentration (1 microM) inhibited gK1 by 40 +/- 4.1% (mean +/- S.E.M.; n = 13). 5. Bath application of acetylcholine (ACh, 0.1 microM or more) antagonized the Iso-induced (1 microM) inhibition of gK1; [ACh] > 1.0 microM antagonized 88 +/- 2.1% (n = 10) of the inhibition. ACh increased the KD for Iso to inhibit Iso-sensitive gK1 and also reduced the maximal Iso-induced inhibition. 6. ACh-induced antagonism could be abolished by pre-incubating myocytes with pertussis toxin (PTX), suggesting that a muscarinic receptor-coupled, PTX-sensitive G protein, Gi, is involved. 7. ACh (10 microM) also antagonized approximately 70% of the dibutyryl cyclic AMP (1 mM)-induced inhibition of gK1 (n = 3), suggesting that the ACh-induced antagonism involves more than simply inhibiting the Iso-mediated activation of adenylyl cyclase via the activated Gi. 8. Intracellularly applied okadaic acid (OkA, 1 microM) did not alter gK1 (control = 134 +/- 5.1 nS vs. OkA = 136 +/- 6.1 nS), but the Iso-induced decrease in gK1 was less (P < 0.001) with OkA present (42.1 +/- 2.4 nS, n = 5) than when absent (54.0 +/- 2.2 nS, n = 10). However, ACh (10 microM) failed to antagonize Iso-induced inhibition with OkA present, suggesting involvement of a protein phosphatase.
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PMID:beta-adrenergic and cholinergic modulation of the inwardly rectifying K+ current in guinea-pig ventricular myocytes. 747 26

Calcineurin activity and alpha-subunit expression were studied in microdissected proximal tubules (S2), medullary thick ascending limbs (MTAL), cortical collecting ducts (CCD), connecting tubules (CNT), and outer medullary collecting ducts (OMCD). We have shown that cyclosporin A (CsA) and FK-506 inhibit sodium-potassium-adenosinetriphosphatase (Na-K-ATPase) activity in CCD, OMCD, and MTAL but did not uncover the mechanism for resistance of proximal tubule segments to these drugs. Because cells expressing high calcineurin activity are relatively resistant to the biological effects of CsA and FK-506, we hypothesized that the resistance of proximal tubules may be linked to increased calcineurin expression. Consequently, we measured calcineurin activity in microdissected tubules using a calcineurin-specific substrate. Calcineurin activity in S2 proximal tubule segments was 10-fold higher than in CCD, CNT, OMCD, or MTAL. FK-506 (6.0 ng/ml) inhibited calcineurin activity in CCD, CNT, and MTAL but not S2; 250 ng/ml FK-506 inhibited S2 calcineurin activity by 50%. Likewise, high concentrations of CsA (25 micrograms/ml) and FK-506 (250 ng/ml) inhibited S2 Na-K-ATPase activity by 77 and 73%, respectively. To investigate whether the resistance of S2 segments might be due to differential expression of calcineurin alpha-subunit isoforms, we determined the isoform expression by Western blot analysis using isoform-specific antibodies against the alpha 1-, alpha 2-, and alpha 3-isoforms. We found that alpha 1 expression in S2 was significantly greater than in the CCD and MTAL, whereas alpha 2 expression in the S2 was significantly less than in CCD and MTAL. No alpha 3 was detected in any nephron segment tested.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of calcineurin activity and alpha-subunit isoforms in specific segments of the rat nephron. 748 42

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