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)

A third form of protein phosphatase 1 has been identified in skeletal muscle which is distinct from the species composed of the catalytic subunit complexed to the glycogen-binding subunit (protein phosphatase 1G) or inhibitor-2 (protein phosphatase 1I). The third form has an apparent molecular mass of 110 kDa, is not immunoprecipitated by antibody prepared against the glycogen-binding subunit, does not interact with glycogen and is devoid of inhibitor-2. It is tightly bound to myosin and is therefore termed protein phosphatase 1M.
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PMID:Identification of a third form of protein phosphatase 1 in rabbit skeletal muscle that is associated with myosin. 283 Sep 9

The rate of phosphorylation and dephosphorylation of smooth muscle myosin by myosin light chain kinase and by two myosin light chain phosphatases (gizzard phosphatase IV and aorta phosphatase) are measured in various conditions; the relationship between the rate of phosphorylation and dephosphorylation of myosin and the myosin conformation is also studied. The rate of dephosphorylation of myosin was completely inhibited in the presence of 1 mM MgCl2 and ATP at low ionic strength where phosphorylated myosin forms a folded conformation. The inhibition was released when myosin formed either an extended monomer or filaments. The rate of phosphorylation of myosin was also affected by the conformation of myosin. The rate for a folded myosin was slower than those for an extended monomer and filamentous myosin. The phosphorylation and dephosphorylation of heavy meromyosin, subfragment-1, and the isolated 20,000-dalton light chain are not inhibited at low ionic strength, and the rate of phosphorylation and dephosphorylation was decreased with increasing ionic strength. KCl dependence of the rate of phosphorylation and dephosphorylation of myosin was normalized by using KCl dependence of subfragment-1, and it was found that the marked inhibition of the rate of phosphorylation and dephosphorylation of myosin is closely related to the change from an extended to a folded conformation of myosin.
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PMID:Correlation of conformation and phosphorylation and dephosphorylation of smooth muscle myosin. 283 1

The myosin-bound form of protein phosphatase 1 (PP-1M) and the glycogen-bound form (PP-1G) together account for virtually all the phosphatase activity in rabbit skeletal muscle extracts towards native myosin. PP-1M has a 3-fold higher activity towards native myosin than does PP-1G and accounts for at least 60% of the myosin phosphatase activity in rabbit skeletal muscle. PP-1M accounts for 90% of the myosin phosphatase activity in bovine cardiac muscle, where PP-1G is essentially absent. The high activity of PP-1M towards native myosin appears to arise from interaction of the catalytic subunit with the putative myosin-binding subunit, since chymotryptic digestion liberates a catalytic subunit having the same characteristics as that released by limited proteolysis of PP-1G. Protein phosphatase 2A in skeletal and cardiac muscles is very active towards the isolated myosin P-light chain, but ineffective in dephosphorylating native myosin. The results suggest that PP-1M is the enzyme that dephosphorylates myosin in skeletal and cardiac muscle.
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PMID:The myosin-bound form of protein phosphatase 1 (PP-1M) is the enzyme that dephosphorylates native myosin in skeletal and cardiac muscles. 284 85

The inhibitory effect of a marine-sponge toxin, okadaic acid, was examined on type 1, type 2A, type 2B and type 2C protein phosphatases as well as on a polycation-modulated (PCM) phosphatase. Of the protein phosphatases examined, the catalytic subunit of type 2A phosphatase from rabbit skeletal muscle was most potently inhibited. For the phosphorylated myosin light-chain (PMLC) phosphatase activity of the enzyme, the concentration of okadaic acid required to obtain 50% inhibition (ID50) was about 1 nM. The PMLC phosphatase activities of type 1 and PCM phosphatase were also strongly inhibited (ID50 0.1-0.5 microM). The PMCL phosphatase activity of type 2B phosphatase (calcineurin) was inhibited to a lesser extent (ID50 4-5 microM). Similar results were obtained for the phosphorylase a phosphatase activity of type 1 and PCM phosphatases and for the p-nitrophenyl phosphate phosphatase activity of calcineurin. The following phosphatases were not affected by up to 10 microM-okadaic acid: type 2C phosphatase, phosphotyrosyl phosphatase, inositol 1,4,5-trisphosphate phosphatase, acid phosphatases and alkaline phosphatases. Thus okadaic acid had a relatively high specificity for type 2A, type 1 and PCM phosphatases. Kinetic studies showed that okadaic acid acts as a non-competitive or mixed inhibitor on the okadaic acid-sensitive enzymes.
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PMID:Inhibitory effect of a marine-sponge toxin, okadaic acid, on protein phosphatases. Specificity and kinetics. 285 82

Purified bovine brain myosin contained approximately 1 and 3 mol of protein-bound phosphate/mol myosin in the light chains and heavy chains, respectively. Large portions of this light chain- and heavy chain-bound phosphate (about 0.8 and 2.4 mol, respectively) were removed by incubation with a brain phosphoprotein phosphatase and potato acid phosphatase, respectively. Upon phosphorylation of the dephosphorylated brain myosin with myosin light chain kinase and casein kinase II, about 1.6 and 3.0 mol of phosphate was incorporated into the light chains and heavy chains, respectively, while much lower levels of phosphate were incorporated into the non-dephosphorylated brain myosin under the same conditions. The actin-activated Mg2+-ATPase activity of brain myosin rephosphorylated with myosin light chain kinase was about twice as high as that of dephosphorylated brain myosin (about 30 and 15 nmol phosphate/mg/min, respectively). On the other hand, whereas the rephosphorylated brain myosin superprecipitated rapidly with F-actin, the rate of superprecipitation of the dephosphorylated brain myosin was extremely low. Under appropriate conditions, a loose network of tiny superprecipitates, which formed initially throughout the solution, contracted to form eventually a large and dense particle. These results indicate that phosphorylation of the light chains of brain myosin is a prerequisite for the contraction of brain actomyosin. The role of phosphorylation of the heavy chains by casein kinase II remains to be elucidated.
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PMID:The effects of phosphorylation and dephosphorylation of brain myosin on its actin-activated Mg2+-ATPase and contractile activities. 296 85

The effect of atrial natriuretic peptide (ANP) on angiotensin II- and histamine-induced contraction and muscle light chain phosphorylation was examined in strips of rabbit aorta smooth muscle. Preincubation of strips with 10(-7) M ANP prior to addition of either agonist inhibits both the increase in extent of myosin light chain phosphorylation and the contractile response to either 5 x 10(-8) M angiotensin II or 10(-5) M histamine without inhibiting the agonist-induced increase in the intracellular free Ca2+ concentration. Furthermore, in muscle strips precontracted with either angiotensin II or histamine, addition of ANP leads to a prompt relaxation and a prompt decrease in the extent of myosin light chain phosphorylation. These data argue that ANP uncouples the initial agonist-induced Ca2+ transient from the increase in extent of myosin light chain phosphorylation either by inhibiting the Ca2+-dependent activation of myosin light chain kinase or stimulating the activity of a phosphoprotein phosphatase capable of bringing about the rapid dephosphorylation of phosphorylated myosin light chains.
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PMID:Atrial natriuretic peptide inhibits the agonist-induced increase in extent of myosin light chain phosphorylation in aortic smooth muscle. 297 Oct 37

It is now well-established that phosphorylation of the 20,000-dalton light chain of smooth muscle myosin (LC20) is a prerequisite for muscle contraction. However, the relationship between myosin dephosphorylation and muscle relaxation remains controversial. In the present study, we utilized a highly purified catalytic subunit of a type-2, skeletal muscle phosphoprotein phosphatase (protein phosphatase 2A) and a glycerinated smooth muscle preparation to determine if myosin dephosphorylation, in the presence of saturating calcium and calmodulin, would cause relaxation of contracted uterine smooth muscle. Addition of the phosphatase catalytic subunit (0.28 microM) to the muscle bath produced complete relaxation of the muscle. The phosphatase-induced relaxation could be reversed by adding to the muscle bath either purified, thiophosphorylated, chicken gizzard 20,000-dalton myosin light chains or purified, chicken gizzard myosin light chain kinase. Incubation of skinned muscles with adenosine 5'-O-(thiotriphosphate) prior to the addition of phosphatase resulted in the incorporation of 0.93 mol of PO4/mol of LC20 and prevented phosphatase-induced relaxation. Under all of the above conditions, changes in steady-state isometric force were associated with parallel changes in myosin light chain phosphorylation over a range of phosphorylation extending from 0.01 to 0.97 mol of PO4/mol of LC20. We found no evidence that dephosphorylation of contracted uterine smooth muscles, in the presence of calcium and calmodulin, could produce a latch-state where isometric force was maintained in the absence of myosin light chain phosphorylation. These results show that phosphorylation or dephosphorylation of the 20,000-dalton myosin light chain is adequate for the regulation of contraction or relaxation, respectively, in glycerinated uterine smooth muscle.
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PMID:Dephosphorylation of myosin by the catalytic subunit of a type-2 phosphatase produces relaxation of chemically skinned uterine smooth muscle. 299 Dec 87

A phosphoprotein phosphatase that dephosphorylates smooth muscle myosin has been purified to apparent homogeneity from turkey gizzards. Smooth muscle phosphatase (SMP) IV has a molecular weight of 150,000 as determined by gel filtration on a Sephadex G-200 column and is composed of two subunits (Mr = 58,000 and 40,000). Although it is active toward a number of proteins, its activities toward the contractile proteins, intact myosin, heavy meromyosin, and isolated myosin light chains are higher than its activities toward phosphorylase alpha, histone IIA, and phosphorylase kinase. SMP-IV preferentially dephosphorylates the beta-subunit of phosphorylase kinase. The properties of the enzyme have been studied using heavy meromyosin, a soluble chymotryptic fragment of myosin, and isolated myosin light chains as substrates. SMP-IV has high affinity for both substrates and is optimally active at neutral pH. Divalent cations, Ca2+ and Mg2+, activate the dephosphorylation of heavy meromyosin but inhibit the activity toward myosin light chains. Low concentrations of ATP (1-5 mM) activate SMP-IV but concentrations higher than 5 mM are inhibitory. Inhibition of 50% of the activity of the enzyme by NaF and PPi requires concentrations higher than 10 mM. Rabbit skeletal muscle heat stable inhibitor-2 has no effect on the activity of SMP-IV toward heavy meromyosin, myosin light chains, and phosphorylase alpha.
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PMID:Purification and characterization of a smooth muscle myosin phosphatase from turkey gizzards. 299 73

A high molecular weight phosphoprotein phosphatase was purified from rabbit liver using high speed centrifugation, acid precipitation, ammonium sulfate fractionation, chromatography on DEAE-cellulose, Sepharose-histone, and Bio-Gel A-0.5m. The purified enzyme showed a single band on a nondenaturing polyacrylamide anionic disc gel which was associated with the enzyme activity. The enzyme was made up of equimolar concentrations of two subunits whose molecular weights were 58,000 (range 58,000-62,000) and 35,000 (range 35,000-38,000). Two other polypeptides (Mr 76,000 and 27,000) were also closely associated with our enzyme preparation, but their roles, if any, in phosphatase activity are not known. The optimum pH for the reaction was 7.5-8.0. Km value of phosphoprotein phosphatase for phosphorylase a was 0.10-0.12 mg/ml. Freezing and thawing of the enzyme in the presence of 0.2 M beta-mercaptoethanol caused an activation (100-140%) of phosphatase activity with a concomitant partial dissociation of the enzyme into a Mr 35,000 catalytic subunit. Divalent cations (Mg2+, Mn2+, and Co2+) and EDTA were inhibitory at concentrations higher than 1 mM. Spermine and spermidine were also found to be inhibitory at 1 mM concentrations. The enzyme was inhibited by nucleotides (ATP, ADP, AMP), PPi, Pi, and NaF; the degree of inhibition was different with each compound and was dependent on their concentrations employed in the assay. Among various types of histones examined, maximum activation of phosphoprotein phosphatase activity was observed with type III and type V histone (Sigma). Further studies with type III histone indicated that it increased both the Km for phosphorylase a and the Vmax of the dephosphorylation reaction. Purified liver phosphatase, in addition to the dephosphorylation of phosphorylase a, also catalyzed the dephosphorylation of 32P-labeled phosphorylase kinase, myosin light chain, myosin, histone III-S, and myelin basic protein. The effects of Mn2+, KCl, and histone III-S on phosphatase activity were variable depending on the substrate used.
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PMID:Purification and characterization of a high molecular weight phosphoprotein phosphatase from rabbit liver. 299 4

An aortic phosphatase which dephosphorylates several proteins including phosphorylase a and the 20-kDa myosin light chains is subject to modulation in vitro by polycationic effectors such as lysine-rich histone-H1 and polylysine. This study was based on the hypothesis that polycationic modulation of expressed enzymic activity involves interactions between the effectors and a regulatory site associated with the polycation-modulated (PCM)-phosphatase. Basal PCM-phosphatase activity expressed against myocardial myosin light chains (MLC, 1258 nmole/min/mg) was about eightfold greater than activity expressed against phosphorylase a (149 nmole/min/mg). However, dephosphorylation of phosphorylase a was stimulated four- to sevenfold by low concentrations of polylysine (Mr = 13,000; 0.01-0.1 microM), whereas MLC phosphatase activity was virtually abolished. Higher concentrations of polylysine inhibited dephosphorylation of either substrate. Interestingly, a heat-stable fraction prepared from the PCM-phosphatase reversed the stimulatory effect of polylysine on phosphorylase phosphatase activity and the inhibitory effect on dephosphorylation of MLC. No reversal of the modulatory effects of polylysine occurred when protein phosphatase inhibitor 1 or inhibitor 2 was substituted for the heat-stable factor derived from the PCM-phosphatase. Sucrose density centrifugation of the enzyme yielded a single peak (Mr = 63,000) exhibiting polycation-modulated activity against phosphorylase a and MLC. Moreover, heating each of the gradient fractions showed the presence of a heat-stable factor which reversed the modulatory effects of polylysine on dephosphorylation of either phosphorylase a or MLC. These results show that a specific heat-stable factor, which differs from both inhibitor 1 and 2, is associated with the PCM-phosphatase. The results suggest that polycationic modulation of expressed PCM-phosphatase activity may involve interactions between the polycationic effector and the enzyme-associated regulatory factor.
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PMID:A new heat-stable regulatory factor is associated with aortic polycation-modulated (PCM)-phosphatase. 300 44


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