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)

Two type 2A protein phosphatases, phosphatases I (Mr = 180,000) and III (Mr = 177,000), were purified to near homogeneity from human erythrocyte cytosol. Phosphatase I was composed of alpha (34 kDa), beta (63 kDa), and delta (74 kDa) subunits in a ratio of 1:1:1. Phosphatase III comprised alpha, beta, and gamma (53 kDa) subunits in the same ratio. Heparin-Sepharose column chromatography converted most of phosphatase I and 20% of phosphatase III into alpha 1 beta 1 which were indistinguishable from phosphatase IV (Usui, H., Kinohara, N., Yoshikawa, K., Imazu, M., Imaoka, T., and Takeda, M. (1983) J. Biol. Chem. 258, 10455-10463). The catalytic subunit alpha and the beta subunit of phosphatases I, III, and IV displayed identical V8 and papain peptide maps, respectively, while the peptide maps of the alpha, beta, gamma, and delta subunits were clearly distinct. The molar ratio of phosphatases I, III, and IV in erythrocyte cytosol was estimated to be 6:1:14. Comparison of molecular activities of alpha, alpha 1 beta 1, alpha 1 beta 1 delta 1, and alpha 1 beta 1 gamma 1 revealed that beta suppressed phosphorylase and P-H2B histone phosphatase activities of alpha but stimulated the P-H1 histone phosphatase activity, and delta suppressed all the phosphatase activities of alpha 1 beta 1. The gamma subunit stimulated the P-histone phosphatase activity of alpha 1 beta 1 but inhibited the phosphorylase and P-spectrin phosphatase activities. The beta subunit increased the Mg2+ or Mn2+ requirement for P-H2B histone phosphatase activity of alpha, an effect which was counteracted by delta. The effects of heparin, H1 histone, protamine, and polylysine on the phosphorylase phosphatase activity of phosphatases I, III, IV, and alpha were described and discussed in connection with the functions of the subunits.
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PMID:Three distinct forms of type 2A protein phosphatase in human erythrocyte cytosol. 283 Dec 1

A polycation-stimulated (PCS) protein phosphatase was isolated in high yield (280 micrograms/100 g ovaries) from Xenopus laevis oocytes through a procedure involving a tyrosine-agarose hydrophobic chromatography. The 220-kDa enzyme contains a 35-kDa and a 62-kDa subunit. It was identified as the low-Mr polycation-stimulated (PCSL) protein phosphatase. The labile p-nitrophenyl phosphatase activity, copurifying with the phosphorylase phosphatase activity, can be increased severalfold by preincubating the purified enzyme with ATP, its analogues or PPi. This activation is time-dependent and accompanied by a parallel decrease of the phosphorylase phosphatase activity. Although the stimulation was antagonized by metal ions during the preincubation, the basal and ATP-stimulated p-nitrophenyl phosphatase requires Mg2+ or Mn2+ in the assay, with pH optima of 8.5-9 and 7.5 respectively.
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PMID:Modulation of the substrate specificity of the polycation-stimulated protein phosphatase from Xenopus laevis oocytes. 283 90

Two protein phosphatases (enzymes I and II) were extensively purified from wheat embryo by a procedure involving chromatography on DEAE-cellulose, phenyl-Sepharose CL-4B, DEAE-Sephacel and Ultrogel AcA 44. Preparations of enzyme I (Mr 197,000) are heterogeneous. Preparations of enzyme II (Mr 35,000) contain only one major polypeptide (Mr 17,500), which exactly co-purifies with protein phosphatase II on gel filtration and is not present in preparations of enzyme I. However, this major polypeptide has been identified as calmodulin. Calmodulin and protein phosphatase II can be separated by further chromatography on phenyl-Sepharose CL-4B. Protein phosphatases I and II do not require Mg2+ or Ca2+ for activity. Both enzymes catalyse the dephosphorylation of phosphohistone H1 (phosphorylated by wheat-germ Ca2+-dependent protein kinase) and of phosphocasein (phosphorylated by wheat-germ Ca2+-independent casein kinase), but neither enzyme dephosphorylates a range of non-protein phosphomonoesters tested. Both enzymes are inhibited by Zn2+, Hg2+, vanadate, molybdate, F-, pyrophosphate and ATP.
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PMID:Purification and characterization of two wheat-embryo protein phosphatases. 284 Aug 90

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

Previous studies have established that casein kinase-2 (CK-2) is stimulated by polyamines. In this study it is shown that glycogen synthase (casein) kinase-1 (CK-1) can be activated similarly. Using casein as the substrate, bovine kidney CK-1 was stimulated 7-, 2-, and 0.5-fold by spermine, spermidine, and putrescine, respectively. Half-maximal activation of CK-1 by these polyamines was observed at 0.25, 0.70, and 0.50 mM, respectively. CK-1 was optimally activated by spermine at low ionic strength and low Mg2+ concentrations (1-3 mM). Using phosvitin as the substrate, CK-1 was stimulated at low concentrations (0-0.8 mM) and inhibited at higher concentrations of spermine. By contrast CK-2 was inhibited at all concentrations of spermine when phosvitin was used as substrate. Using calcineurin (not a substrate for CK-2) as a substrate, CK-1 from bovine kidney or from three rat tissues (liver, kidney, and testis) was stimulated greater than 2-fold by spermine. It is further shown that heparin inhibits CK-1 and this inhibition can be reversed by spermine. The Vmax of CK-1 for both casein and ATP is increased by spermine while the Km remains unchanged by the polyamine. These studies indicate that CK-1, like CK-2, is a heparin-inhibited and polyamine-activated protein kinase. The results also suggest that CK-1 may be activated by spermine in vivo.
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PMID:Polyamines stimulate the activity of glycogen synthase (casein) kinase-1 from bovine kidney and different rat tissues. 284 47

Coated vesicles are involved in the intracellular transport of membrane proteins between a variety of membrane compartments in which they must be able to undergo repeated membrane fusion and fission. We previously described the presence of cyclic nucleotide- and Ca2+-independent protein kinase activity in bovine brain coated vesicles which specifically phosphorylated a unique Mr = 50,000 coated vesicle integral protein (pp50) on a threonine residue. We describe now the presence in bovine brain coated vesicles of the antagonistic enzymatic activity which dephosphorylates pp50. This phosphoprotein phosphatase occurs under two interconvertible active and inactive forms. The activation process needs the simultaneous presence of Mg2+ and ATP or ADP. Unchelated ATP, but not unchelated ADP, inactivates the pp50 phosphatase. The latter is associated with the vesicular core. MgADP activation of the pp50 phosphatase implicates a different mechanism which does not need a phosphorylated intermediate. Thus, the pp50 phosphatase might belong to a new phosphatase type distinct from the four other classes of well known protein phosphatases.
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PMID:Presence of a MgATP/ADP-dependent pp50 phosphatase in bovine brain coated vesicles. 287 74

Activation of acetyl-CoA carboxylase during incubation of crude extracts of lactating rat mammary gland with Mg2+ and citrate can be blocked by NaF, suggesting that it represents a dephosphorylation of the enzyme. The greater extent of activation in extracts from 24 h-starved rats (200%) compared with fed controls (70%) implies that the decrease in acetyl-CoA carboxylase activity in response to 24 h starvation may involve increased phosphorylation of the enzyme. Acetyl-CoA carboxylase was purified from the mammary glands of lactating rats in the presence of protein phosphatase inhibitors by avidin-Sepharose chromatography. Starvation of the rats for 24 h increased the concentration of citrate giving half-maximal activation by 75%, and decreased the Vmax. of the purified enzyme by 73%. This was associated with an increase in the alkali-labile phosphate content from 3.3 +/- 0.2 to 4.5 +/- 0.4 mol/mol of enzyme subunit. Starvation of lactating rats for 6 h, or short-term insulin deficiency induced by streptozotocin injection, did not effect the kinetic parameters or the phosphate content of acetyl-CoA carboxylase purified from mammary glands. The effects of 24 h starvation on the kinetic parameters and phosphate content of the purified enzyme were completely reversed by re-feeding for only 2.5 h. This effect was blocked if the animals were injected with streptozotocin before re-feeding, suggesting that the increase in plasma insulin that occurs on re-feeding was responsible for the activation of the enzyme. The effects of re-feeding 24 h-starved rats on the kinetic parameters and phosphate content of acetyl-CoA carboxylase could be mimicked by treating enzyme purified from 24 h-starved rats with protein phosphatase-2A in vitro. Our results suggest that, in mammary glands of 24 h-starved lactating rats, insulin brings about a dephosphorylation of acetyl-CoA carboxylase in vivo, which may be at least partly responsible for the reactivation of mammary lipogenesis in response to re-feeding.
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PMID:The role of acetyl-CoA carboxylase phosphorylation in the control of mammary gland fatty acid synthesis during the starvation and re-feeding of lactating rats. 287 30

The activating kinase of protein phosphatase 1I is distributed in approximately equal amounts between the cytosolic and particulate fractions of bovine brain homogenates. Both species of this protein kinase have been purified to near homogeneity. The cytosolic form, purified about 7,000-fold, has an apparent Mr = approximately 75,000, as estimated by gel filtration chromatography on Sephacryl S-300. The enzyme contains two subunits, with apparent Mr = 52,000 and 46,000, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Both subunits undergo phosphorylation when the enzyme is incubated with Mg2+ and [gamma-32P]ATP. Peptide maps of the two subunits are different, and rabbit antibodies to the 52-kDa subunit show only very minor cross-reactivity to the 46-kDa subunit. These observations indicate that the two subunits are different. The species of protein phosphatase 1I activating kinase that is associated with the membrane fraction has an apparent Mr = approximately 105,000 as estimated by gel filtration. This species also contains two subunits, with apparent Mr = 52,000 and 46,000, the properties of which are very similar, if not identical, to those of the two subunits comprising the cytosolic form of the protein kinase.
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PMID:Purification and characterization of protein phosphatase 1I activating kinase from bovine brain cytosolic and particulate fractions. 291 40

The smooth endoplasmic reticulum (ER) and cytosol fractions of liver homogenates exhibit phosphoprotein phosphatase activity towards glycogen synthase D and phosphorylase a. The following observations suggest that liver contains multiple forms of these phosphatases. Synthase phosphatase activity in either fraction was more readily inactivated by heating than phosphorylase phosphatase activity. Both synthase phosphatase and phosphorylase phosphatase activities in smooth ER were non-competitively inhibited by Mg2+, but were activated by this ion in the cytosol. Synthase phosphatase activities in cytosol and smooth ER were stimulated by a number of sugar phosphates, particularly glucose-1-phosphate, galactose-6-phosphate and fructose-6-phosphate. Erythrose-4-phosphate stimulated synthase phosphatase activity in the cytosol, but inhibited the microsomal enzyme. Phosphorylase phosphatase activities in either fraction were inhibited by most sugar phosphates. Adenosine mono-, di- and tri-phosphates inhibited phosphatase activities in both fractions. Low concentrations of AMP and ADP inhibited phosphorylase phosphatase activities to a greater extent than synthase phosphatase activities. Chromatography of the smooth ER fraction on DEAE-cellulose resulted in the separation of synthase phosphatase from phosphorylase phosphatase, as soluble proteins. The elution profile for the microsomal phosphatase was different from that for the cytosol enzymes. It is concluded that: both synthase phosphatase and phosphorylase phosphatase in liver have at least two isoenzyme forms; synthase phosphatase and phosphorylase phosphatase are separate enzymes; the different behaviour of microsomal and cytosol phosphatases towards divalent cations and sugar phosphates provides a potential mechanism for the differential regulation of these activities in liver.
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PMID:Multiple forms of synthase D phosphatase and phosphorylase a phosphatase in liver and regulatory effects of metabolites on their activities. 298 42

Adenosine 5'-(gamma-thio)triphosphate (ATP gamma S) can substitute for ATP in the activation of the ATP X Mg2+-dependent form of bovine heart type I protein phosphatase (Mr = 75,000) catalyzed by phosphatase-1 kinase (FA). ATP gamma S activates the enzyme to a lower level than ATP, but it phosphorylates the regulatory (R)-subunit to a much higher extent. An [35S]phosphatase-1 [( 35S]E-P) has been isolated, identified, and shown to be a key intermediate in the activation reaction. Treatment of [35S]E-P with dimethyl suberimidate results in cross-linking of the Mr = 34,000 [35S]R-subunit with the Mr = 40,000 catalytic (C)-subunit to form a Mr = 75,000 species, indicating that phosphorylation is not accompanied by dissociation of the holoenzyme. The catalytically active form (Ea) is not the phosphorylated enzyme intermediate. Instead, Ea is directly produced from the intermediate by a Mg2+-dependent, intramolecular autodephosphorylation reaction. The isolated Ea derived from [35S]E-P or from ATP-activated phosphatase-1 has the same half-life (23 min at 30 degrees C). It spontaneously deactivates, via an intramolecular process, to a resting state (Er) which can be fully reactivated by FA X ATP X Mg2+. The deactivation of Ea can be accelerated by chelators, PPi greater than ATP X Mg2+ blocks the PPi effect. Limited trypsinization selectively digests the R-subunit and the resulting C-subunit is Mg2+-dependent. Based on the present data, a novel intracyclic activation-deactivation mechanism via transient phosphorylation of the R-subunit is proposed for regulation of phosphatase-1. (formula; see text).
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PMID:On the mechanism of regulation of type I phosphoprotein phosphatase from bovine heart. Regulation by a novel intracyclic activation-deactivation mechanism via transient phosphorylation of the regulatory subunit by phosphatase-1 kinase (FA). 298 22


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