EC:3.1.4.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Elevation of [K(+)](e) induced a contraction of rabbit aorta. If 10 mM-La(3+) was applied to rabbit aortae prior to [K(+)](e) elevation no contraction occurred. When 10 mM-La(3+) was applied simultaneously with, or at short time periods after, elevation of [K(+)](e) graded contractions were obtained whose magnitudes were higher if La(3+) was added at a later stage.2. Net cellular Ca fluxes associated with these graded contractions were measured using (45)Ca as well as atomic absorption. Correlation of the graded contractions with the net inward Ca movements yielded a Ca activation curve for intact arterial smooth muscle cells. The curve was S-shaped with half-maximal activation at a net Ca uptake of 41 mumole/kg wet wt. of aorta and full activation at 64 mumole/kg. If corrections were made for the extracellular space, full activation occurred at a net Ca uptake of 102 mumole/kg smooth muscle cells or roughly 25 mumole in excess of the value calculated to bind to the activation sites on arterial smooth muscle myosin.3. The contractile force of the smooth muscle cells not only depended on the magnitude, but also on the rate of the net Ca uptake.4. Elevation of tissue c-AMP through inhibition of phosphodiesterase greatly reduced both the rate and magnitude of contraction without affecting the size of the high K(+) stimulated Ca influx. It was concluded that high K(+)-induced depolarization activates the rabbit aorta by stimulating a net Ca uptake, and that the degree of activation is modified by c-AMP sensitive Ca accumulation by intracellular organelles.
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PMID:Calcium requirement for activation of intact aortic smooth muscle. 20 48

The Ca2+-dependent regulation of smooth muscle actomyosin involves a myosin light chain kinase (ATP: myosin light chain phosphotransferase). It has been shown (Dabrowska, R., Aromatorio, D., Sherry, J.M.F., and Hartshorne, D.J. 1977, Biochem. Biophys. Res. Commun. 78, 1263) that the kinase is composed of two proteins of approximate molecular weights 105 000 and 17 000. In this communication it is demonstrated that the 17 000 component is the modulator protein. This conclusion is based on: (1) the identical behavior of the 17 000 kinase component and modulator protein in assays of actomyosin Mg2+-ATPase activity, phosphorylation of myosin, and phosphodiesterase activity, and, (2) the similarity of the 17 000 kinase component and the modulator protein with respect to amino acid composition, absorption spectrum, and electrophoresis in urea-polyacrylamide gels. It is shown also that the modulator protein from smooth muscle and troponin C are distinct proteins.
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PMID:Modulator protein as a component of the myosin light chain kinase from chicken gizzard. 20

A Ca2+-dependent modulator protein has been isolated from BHK-21 cells. The purification requires heat treatment, ion-exchange chromatography, and gel filtration. The protein appears homogenous on sodium dodecyl sulfate--polyacrylamide and isoelectric focusing gels. The protein comigrates with purified smooth muscle and brain modulators. BHK-21 modulator is characterized by a high content of aspartic and glutamic acids and by a high phenylalanine/tyrosine ratio. It lacks both cysteine and tryptophan. The protein is effective in activating brain-modulator-deficient phosphodiesterase. It can also be used in assay systems to generate Ca2+-sensitive actin activation of both BHK-21 and smooth muscle myosins. Therefore, it is proposed that the BHK-21 modulator protein is a component of the Ca2+-dependent mechanism involved in the regulation of actin--myosin interactions in BHK-21 cells.
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PMID:Isolation and characterization of baby hamster kidney (BHK-21) cell modulator protein. 21 21

Myosin light chain kinase which phosphorylates g2 light chain of skeletal muscle myosin requires an activator for the activity (Yazawa, M., and Yagi, K (1977) J. Biochem. (Tokyo) 82, 287-289). This activator has now been identified as the modulator protein known to be a Ca2+-dependent regulator for phosphodiesterase, adenylate cyclase, and ATPases. The identification is based on the quantitative cross-reactivity of muscle activator protein and brain modulator protein in activating myosin light chain kinase and brain phosphodiesterase and identical properties of both proteins in regard to sensitivities to Ca2+, UV absorption spectra, UV absorption difference spectra with or without Ca2+, and mobilities upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In the presence of modulator protein, the activity of myosin light chain kinase was reversibly controlled by the physiological concentration of Ca2+. We suggest that two Ca2+-receptive proteins, i.e. modulator protein and troponin-C, may play roles in the contraction-relaxation cycle of skeletal muscle.
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PMID:Identification of an activator protein for myosin light chain kinase as the Ca2+-dependent modulator protein. 62 40

Streamer F mutants have been found to be useful tools for studying the pathway of signal transduction leading to chemotactic cell movement. The primary defect in these mutants is in the structural gene for the cyclic GMP specific phosphodiesterase. This defect allows a larger and prolonged peak of cyclic GMP to be formed in response to the chemotactic stimulus, cyclic AMP. This characteristic aberrant pattern of cyclic GMP accumulation in the streamer F mutants has been correlated with similar patterns of changes in the influx of calcium from the medium, myosin II association with the cytoskeleton, myosin phosphorylation and a decrease in speed of movement of the amoebae. From these studies a sequence of events can be deduced that leads from cell surface cyclic AMP stimulation to cell polarization prior to movement of the amoebae in response to the chemotactic stimulus.
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PMID:Streamer F mutants and chemotaxis of Dictyostelium. 133

1. Experiments were carried out to examine the biochemical changes, such as contractile protein biochemistry and membrane bound enzyme alterations associated with skeletal muscles of myd/myd. 2. Our studies demonstrate that there was a progressive decline in myofibrillar ATPase activity, and this decrease is greatest in 30 weeks old animals of myd/myd as compared to controls. 3. The proteolytic activity of myofibrils isolated from myd/myd was significantly higher than controls. 4. There was no significant difference in Ca2+ ATPase activity of myosin and actin-activated myosin ATPase activity of myd/myd and their controls. 5. Mg2+ ATPase and Na(+)+K(+)-ATPase of myodystrophic SL showed significant increase compared to controls. 6. Isoproterenol stimulated adenylate cyclase activity was significantly lower in the SL of dystrophic mice compared to controls. 7. GTP+isoproterenol stimulate adenylate cyclase was significantly higher in control SL and SR when compared to SL and SR isolated from myd/myd. 8. Guanylate cyclase activity was greater in myodystrophic mice both in the absence and presence of Triton X-100. cGMP and cAMP phosphodiesterase activities were greater in dystrophic mice as compared to controls. 9. These observations suggest that there are significant changes in myofibrillar ATPase, myofibrillar protease and membrane bound enzymes of myd/myd compared to control.
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PMID:Myofibrillar and membrane-bound enzymes in skeletal muscle from myodystrophic mice. 135 51

This study analyses the effects of Amrinone (bipyridine derivative with phosphodiesterase inhibitor properties) on the myofibrillar apparatus of rat myocardium. Thin trabeculae were isolated from the right ventricle and chemically demembranated. Force development and shortening velocity were measured during maximal calcium activations (pCa = 4.45) in control conditions and in the presence of 1-3 mM Amrinone. Maximum shortening velocity was obtained both from extrapolation of the force-velocity curve and with the slack test method. Amrinone was found to significantly reduce maximum shortening velocity and force development. Myofibrils and myosin were prepared from rat ventricular myocardium and their ATPase activity was assessed in control conditions and in the presence of Amrinone (0.3-6 mM). Ca-Mg dependent myofibrillar ATPase activity which was determined at low ionic strength was depressed by Amrinone in a dose-dependent way. Ca-stimulated ATPase activity determined at high ionic strength in myofibril or myosin preparations was not affected. Furthermore, Amrinone did not influence the pCa-ATPase activity curve of the myofibrillar preparations. A comparison between the inhibitory effects of Amrinone on myofibrils prepared from euthyroid rats and myofibrils prepared from hypothyroid rats was carried out. The ATPase activity was significantly less depressed in myofibrils prepared from hypothyroid rats than in those prepared from euthyroid rats. These results provide the first evidence of an effect of Amrinone on ATP splitting and force generation in the myofilament system of cardiac muscle.
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PMID:Effects of Amrinone on shortening velocity, force development and ATPase activity of demembranated preparations of rat ventricular myocardium. 144 24

Physarum myosin is uniquely under an inhibitory Ca(2+)-regulation in the ATP-dependent interaction with actin [Kohama (1990) Trends Pharmacol. Sci. 11, 433-435, for review]. Calcium-binding light chain (CaLc) has been suggested to be of primary importance to the control from its amino acid sequence [Kobayashi et al. (1988) J. Biol. Chem. 263, 305-313]. To provide a biochemical basis for this suggestion, the Ca-binding capacity of CaLc and its Kd for Ca2+ were measured. The Ca-binding properties of CaLc allowed those of Physarum myosin to be explained in terms of CaLc. However, the mode of Ca(2+)-regulation by CaLc differs according to the enzyme upon which Ca-sensitivity is confered by CaLc, i.e., CaLc activated bovine phosphodiesterase activity and inhibited Physarum myosin ATPase activity, with the same Kd in microM levels. Thus, CaLc appears to work as a mere Ca-receptive subunit in Physarum myosin, with the secret of the inhibition lying in other subunits. CaLc was also shown to belong to a family of alkali light chains (AlLc) by allowing it to bind skeletal myosin as a substitute for its AlLc. Therefore, present study is the first biochemical indication that the AlLc family is involved in regulating the myosin function.
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PMID:Characterization of calcium-binding light chain as a Ca(2+)-receptive subunit of Physarum myosin. 166 47

A monoclonal antibody (IM7) toward scallop testis calmodulin and another one (PBE2) toward wheat germ calmodulin were produced. Ca2+ was required for IM7 to react with scallop calmodulin. IM7 reacted with the C-terminal region (Asp78-Lys148) of the calmodulin. As observed on competitive ELISA, IM7 reacted with chicken calmodulin, but not with Euglena gracilis or wheat calmodulin, troponin C, myosin light chains, or parvalbumin. It is assumed that the cluster of Thr143, Thr146, and Ser147 in the C-terminal region acts as the antigenic site. IM7 (and Fab of IM7) inhibited the activities of myosin light chain kinase and cAMP-phosphodiesterase. PBE2 reacted with wheat germ calmodulin irrespective of the presence or absence of Ca2+, the antigenic site being in the N-terminal region (Ala1-Met37). It reacted with wheat and spinach calmodulins, but not with scallop, chicken, or Euglena calmodulin, troponin C, myosin light chains, or parvalbumin. PBE2 had no effect on the activities of myosin light chain kinase and cAMP-phosphodiesterase.
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PMID:Monoclonal antibodies toward scallop (Patinopecten yessoensis) testis and wheat germ calmodulins. 171 41

In heart failure, many alterations occur in the ventricle as a whole, as well as in the myocardial cell. In the first part of this review we report on the macroscopic structure of the left ventricle by analysing the relation between left ventricular dilatation and left ventricular hypertrophy in terms of ventricular wall stress. Peak systolic stress in dilated ventricles of patients with compensated heart failure does not differ from values obtained in normal ventricles, whereas the systolic stress-time integral is increased by more than 40%. The stress-time integral is a major determinant of myocardial oxygen consumption, and its reduction by peripheral vasodilation leads to a proportional decrease in left ventricular oxygen consumption. In contrast, the phosphodiesterase inhibitor, enoximone, decreases the stress-time integral without a proportional decrease in myocardial oxygen consumption, due to the competition between positive inotropic effect with increased oxygen consumption and a vasodilating effect with decreased oxygen consumption. Beta-1 adrenoceptor agonists increase myocardial oxygen consumption. In the second part of this review we report on the functional alterations of the following subcellular and molecular structures in the failing myocardium: (1) adrenoceptors and G-proteins; (2) sarcoplasmic reticulum with an altered force-frequency relationship; (3) the acto-myosin system with decreased velocity of shortening and increased economy of force generation. On the basis of these alterations, a disadvantageous chain of events develops in the failing myocardial cell.
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PMID:The heart in heart failure. Ventricular and myocardial alterations. 183 95

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