EC:3.6.4.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.4.1 (myosin ATPase)
1,140 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mild pulmonic stenosis, induced in dogs by banding the pulmonary artery, elevated right ventricular peak systolic pressure to 60% above the control and elevated right ventricular K+- and Ca2+- activated myosin ATPase activities. In contrast, severe pulmonic stenosis, which elevated right ventricular peak systolic pressure to 300% above the control, did not produce an increase in myosin enzymatic ATPase Vmax values but caused a decrease in myosin activity. Mild aortic stenosis, induced by banding the ascending aorta, forcing a transaortic pressure gradient of 25 mm Hg, caused an elevation in left ventricular muosin ATPase, whereas severe aortic banding, brought about by creating a transaortic pressure gradient of 55 mm Hg, never caused an elevation in left ventricular myosin enzymatic Vmax values, but, like severe pulmonic banding, caused a decrease in K+- and Ca2+- activated myosin activities. Normal left ventricular myosin Vmax values in mumol of PO4/mg-min at 37 degrees C were: K+ = 2.84 +/- 0.22, and Ca2+ = 0.97 +/- 0.14. For right ventricular myosin they were: K+ = 2.15 +/- 0.16, and Ca2+ =0.74 +/- 0.10. Analyses of tissue gases, based on mass spectrometry data, showed that the hypertrophied ventricles had an elevated tissue pCO2 and an elevation in the cGMP/cAMP ratio.
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PMID:Differential responses of canine myosin ATPase activity and tissue gases in the pressure-overloaded ventricle dependent upon degree of obstruction: mild versus severe pulmonic and aortic stenosis. 20 99

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

Mixing feed fibroblasts with soluble collagen and serum-supplemented culture medium at 37 degrees C results in the entrapment of cells within the polymerizing collagen matrix. This cellular-collagen complex is referred to as a fibroblast-populated collagen lattice (FPCL). In time, this FPCL undergoes a reduction in size called lattice contraction. The proposed mechanism for lattice contraction is cellular force produced by cytoplasmic microfilaments which organize collagen fibrils compacting the matrix. When the regulatory subunits of myosin, myosin light chains, are phosphorylated by myosin light chain kinase (MLCK), myosin ATPase activity is increased and actin-myosin dynamic filament sliding occurs. Elevated levels of myosin ATPase are required for maximal lattice contraction. Cholera toxin inhibits lattice contraction by increasing intracellular levels of cAMP. It is proposed that increased cytoplasmic concentrations of cAMP promote phosphorylation of MLCK, the enzyme important for maximizing myosin ATPase activity. Phosphorylating MLCK in vitro inhibits activity by decreasing its sensitivity to calcium-calmodulin complex. A decrease in MLCK activity would result in lower levels of myosin ATPase activity. MLCK, purified from turkey gizzard, was subjected to limited proteolytic digestion to produce calmodulin-independent-MLCK. The partially digested kinase does not require calcium-calmodulin for activation. Independent-MLCK is not subject to inhibition by phosphorylation. The electroporetic inoculation of independent-MLCK into fibroblasts before FPCL manufacture produced enhanced lattice contraction. Lattice contraction, in the presence of cholera toxin, was restored to normal levels by the prior electroporetic introduction of independent-MLCK. These findings support the hypothesis that increases in cAMP hinder lattice contraction by a mechanism involving inhibition of MLCK and myosin ATPase.
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PMID:Demonstration of a direct role for myosin light chain kinase in fibroblast-populated collagen lattice contraction. 184 33

Gingerol, isolated as a potent cardiotonic agent from the rhizome of ginger, stimulated the Ca2+-pumping activity of fragmented sarcoplasmic reticulum (SR) prepared from rabbit skeletal and dog cardiac muscles. The extravesicular Ca2+ concentrations of the heavy fraction of the fragmented SR (HSR) were measured directly with a Ca2+ electrode to examine the effect of gingerol on the SR. Gingerol (3-30 microM) accelerated the Ca2+-pumping rate of skeletal and cardiac SR in a concentration-dependent manner. The rate of 45Ca2+ uptake of HSR was also increased markedly by 30 microM gingerol without affecting the 45Ca2+ efflux from HSR. Furthermore, gingerol activated Ca2+-ATPase activities of skeletal and cardiac SR (EC50, 4 microM). The activation of SR Ca2+-ATPase activity by gingerol (30 microM) was completely reversed by 100-fold dilution with the fresh saline solution. Kinetic analysis of activating effects of gingerol suggests that the activation of SR Ca2+-ATPase is uncompetitive and competitive with respect to Mg . ATP at concentrations of 0.2-0.5 mM and above 1 mM, respectively. Kinetic analysis also suggests that the activation by gingerol is mixed-type with respect to free Ca2+ and this enzyme is activated probably due to the acceleration of enzyme-substrate complex breakdown. Gingerol had no significant effect on sarcolemmal Ca2+-ATPase, myosin Ca2+-ATPase, actin-activated myosin ATPase and cAMP-phosphodiesterase activities, indicating that the effect of gingerol is rather specific to SR Ca2+-ATPase activity. Gingerol may provide a valuable chemical tool for studies aimed at clarifying the regulatory mechanisms of SR Ca2+-pumping systems and the causal relationship between the Ca2+-pumping activity of SR and muscle contractility.
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PMID:Gingerol, a novel cardiotonic agent, activates the Ca2+-pumping ATPase in skeletal and cardiac sarcoplasmic reticulum. 244 70

The effects of Cd2+ on Ca2+-sensitive myosin ATPase activity were examined. In the absence of Ca2+, the Ca2+-dependent myosin ATPase activity was enhanced by Cd2+ to the same extent as with Ca2+ at concentrations ranging from 10(-6) to 10(-3) M. At 10(-2) M, however, no activation was observed. Zn2+, Co2+, and Sr2+ also activated the myosin ATPase. Sr2+ and Co2+ were less effective. Hg2+, Cr3+, and Cu2+ were essentially inactive. In the presence of below 10(-3) M Ca2+, the increase in the enzyme activity observed on the addition of Cd2+ was in addition to that caused by Ca2+ alone. The ability of metal ions to activate myosin ATPase was compared with that to activate calmodulin-dependent cAMP phosphodiesterase. The activating effects of the metal ions tested were in the order of Ca2+ greater than Cd2+ greater than Zn2+ greater than Co2+ greater than Sr2+ for Ca2+-sensitive myosin ATPase and Ca2+ greater than Cd2+ greater than Sr2+ greater than Zn2+ greater than Hg2+ greater than Co2+ for cAMP phosphodiesterase. Cd2+ activated both enzyme activities most efficiently among the metal ions tested except Ca2+. These results indicate that Cd2+ is able to substitute for Ca2+ in the case of Ca2+ dependent enzymes, regardless of whether or not calmodulin participates in the activating process.
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PMID:Enhancement of Ca2+-sensitive myosin ATPase activity by cadmium. 282 3

When 1 mM ATP is added to human dermal fibroblasts (DF) in monolayer culture permeabilized by glycerol, they undergo a rapid reduction in length and their intracellular actin filaments aggregate. This process is referred to as cell contraction. Treating glycerol-permeabilized DF with alkaline phosphatase before adding 1 mM ATP should cause dephosphorylation. Dephosphorylated preparations do not undergo cell contraction initiated by ATP. When myosin light-chain kinase (MLCK) isolated from turkey gizzard is added with cofactors to cells dephosphorylated by alkaline phosphatase treatment, contraction is restored. DF incubated for 24 h with db cAMP or cholera toxin show elevated intracellular concentrations of cAMP and little cell contraction. Contraction is reestablished when MLCK with cofactors is incubated with these preparations before ATP is added. Fibroblasts from Epidermolysis Bullosa dystrophica recessive patients produce excess cAMP. Those cells show minimal contraction, however; treating them with MLCK and cofactors renews contraction brought about by ATP. When DF are incubated with trifluoperazine to block calmodulin-dependent enzyme reactions, cell contraction is inhibited. Adding cytochalasin B disrupts microfilaments and also inhibits contraction. This work supports the idea that myosin ATPase is critical to cell contraction. Myosin ATPase is dependent on the phosphorylation of the regulatory peptide, myosin light chain. Elevating intracellular concentrations of cAMP or treatment of permeabilized cell preparations with alkaline phosphatase may inhibit myosin ATPase activity. The restoration of phosphorylation by adding MLCK with cofactors served to reestablish cell contraction.
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PMID:ATP-induced cell contraction in dermal fibroblasts: effects of cAMP and myosin light-chain kinase. 301 87

Peritubular cells from 15- and 25-day-old rat testis trapped in collagen lattices caused those lattices to contract. Contraction proceeded more rapidly and to a greater extent using cells from younger rats. When 36,000 cells from 15- and 25-day-old rats were trapped in 800 mm2 lattices, the areas were reduced to 28 mm2 and 170 mm2, respectively, within 24 h. The cells from older rats were less effective at contracting the lattice than cells from younger rats. Cytochalasin B (5 micrograms ml-1) inhibited lattice contraction and caused disruption of actin filaments as seen by fluorescent staining with Rh-phalloidin. Cholera toxin (10 micrograms ml-1), and 1 mM-dibutyryl cAMP inhibited lattice contraction, as did 10 microM-trifluoperazine, commonly an inhibitor of calmodulin. The total intracellular concentration of cAMP was greater in peritubular cells from 25-day-old rats than in those from 15-day-old rats: 427 +/- 34 and 120 +/- 16 pmol mg-1 cell protein, respectively. When peritubular cells in monolayer were permeabilized with glycerol, the addition of ATP caused the cells to contract. Cell contraction was greater in cells from 15-day-old rats than 25-day-old rats. When cells were grown on silicone rubber, they caused that surface to wrinkle. Peritubular cells from 15-day-old rats caused the onset of wrinkling at 4 h. At the same time, no wrinkling was observed with cells from 25-day-old rats. Studies of lattice contraction and cell contraction were also made using cells from 20-day-old rats. In each case, contraction was intermediate between that of cells from 15-and 25-day-old rats. The possibility exists that lattice contraction, cell contraction and wrinkling of silicone film result from a mechanism of actin filament sliding, generated by myosin ATPase activity, and is inhibited by cAMP. The reduced rate of contraction in cells from 25-day-old rats may be related to their higher intracellular levels of cAMP. Evidence exists to show that cAMP blocks myosin ATPase activity by inhibiting the phosphorylation of its regulatory peptide, myosin light chain.
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PMID:Contraction of collagen lattice by peritubular cells from rat testis. 302 30

The total ATPase activity of myosin and the values for the isozyme V1 have been measured in hearts from rats of different ages and with different levels of thyroid function. The contribution of V3 was calculated from the difference between total and V1 ATPase, neglecting the small contribution of V2. Hearts were quickly frozen after rapid removal from the animals in order to preserve the state of ATPase activity that existed in the intact animal, and ATPase activity was measured in thin sections of tissue by a microphotometric technique. In euthyroid hearts, although cAMP increases total myosin ATPase activity and the activity of V1, the cyclic nucleotide inhibits the ATPase activity of V3. In hearts from rats with developing hypothyroidism following thyroidectomy, the same occurs. After a sufficient period has elapsed after thyroidectomy for V1 to have practically disappeared, cAMP has no effect on ATPase activity, but the injection of thyroid hormone restores the effect. Total myosin ATPase activity is maintained relatively constant as the animal ages from 80 to 165 days and during the first 10-11 days following thyroidectomy even though the concentration of V1 is dropping. The explanation proposed for these observations is that myosin can exist in two different forms, only one of which can participate in the active generation of force. The transition between the two forms is regulated by a soluble factor that is itself controlled by the adrenergic system. The factor(s) involved in this regulatory mechanism is soluble and can be transferred between different thin sections cut from a frozen heart.
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PMID:Isozyme specific modification of myosin ATPase by cAMP in rat heart. 303 49

A new potent vasodilator, nicardipine hydrochloride inhibited oxytocin-induced contraction of rat uterus dose-dependently with an increase in the intracellular cyclic AMP level at the onset of relaxation. Dibutyryl cyclic AMP and papaverine, an inhibitor of cyclic AMP phosphodiesterase (PDEase), also inhibited the contraction. Nicardipine inhibited competitively PDEase in homogenates of rat uterus which exhibited apparently two Km values for cyclic AMP (3.6 micro M and 67.3 micro M) with the Ki of 5.3 micro M and 13.2 micro M, respectively, but had no effect on adenylate cyclase. Nicardipine enhanced calcium uptake by rat uterine microsomes, at concentrations which inhibited oxytocin-induced contraction in the same manner as cyclic AMP. The maximal stimulation by nicardipine of the microsomal calcium uptake was identical substantially to that by cyclic AMP, and both were not additive. Cyclic AMP was also accumulated during the uptake reaction in the presence of nicardipine. On the contrary, neither myosin ATPase nor microsomal Ca2+-dependent ATPase was inhibited directly by nicardipine. These results suggest that the inhibition of oxytocin-induced contraction of rat uterus by nicardipine may be due to an enhancement of microsomal calcium uptake, mediated by cyclic AMP accumulated through the inhibition of PDEase.
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PMID:A possible mechanism for relaxation of rat uterine smooth muscle by nicardipine hydrochloride (YC-93), a new potent vasodilator. 627 30

Force developed by isolated papillary muscle decreases as the cross-sectional area increases. The basis for this decline in force is not clear in as much as theoretical considerations and experimental data have indicated that the rate of diffusion of oxygen into thin bundles should not be limiting. Decline of maximum Ca-activated force with increasing cross-sectional area of detergent skinned papillary muscle can be attributed to the accumulation of inorganic phosphate in the center of the bundle. In both cases, the bundle of intact cells with a possible limitation of diffusion of oxygen into the bundle and of skinned cells with a limitation of diffusion of P(i) outward, the lowest level of activity should be in the center of the bundle. We have used quantitative histochemistry for measuring Ca- and actin-activated myosin ATPase activity in cryostatic sections of rapidly frozen isolated trabeculae. The technique is very sensitive and has sufficient spatial resolution to resolve individual myofibrils. At different times after dissection, ventricular trabeculae were quickly frozen, transversely sectioned and Ca- and actin-activated myosin ATPase, measured in serial sections both without and with 1 microM cAMP in the assay solution. In none of over 40 trabeculae studied was there an inward gradient of actin-activated ATPase activity of myosin. The most superficial cells had very low enzymatic activity. Cyclic AMP decreased the gradient by raising the enzymatic activity of the less active cells more that the more active cells. Ca-activated myosin ATPase was always uniform across the transverse section.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence for the existence of endothelial factors regulating contractility in rat heart. 810 29

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