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:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Okadaic acid isolated from black sponge (Halichondria okadai), at the concentration of 10 mumol/l, caused contraction in saponin-treated skinned smooth muscle of guinea-pig taenia coli in the absence of Ca2+. In the presence of low concentration (0.3 mumol/l) of Ca2+, okadaic acid induced a greater contraction than in the absence of Ca2+. Okadaic acid potentiated the contractions induced by Ca2+ and pCa2+-tension curve was shifted to the left as well as upward by 1 mumol/l okadaic acid. Native actomyosin preparation (myosin B) containing calmodulinmyosin light chain kinase system and phosphatase was obtained from taenia coli. Okadaic acid (10 mumol/l) increased the actomyosin Mg2+-ATPase activity in the presence or absence of Ca2+. Okadaic acid (1-100 mumol/l) had no effect on calmodulin activity as monitored by Ca2+-calmodulin activated cyclic nucleotide phosphodiesterase activity and the (Ca2+ + Mg2+)-ATPase activity or erythrocyte membranes. These results suggest that okadaic acid directly activates contractile elements of smooth muscle.
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PMID:Direct activation by okadaic acid of the contractile elements in the smooth muscle of guinea-pig taenia coli. 303 85

This paper describes characterization of the reaction of calmodulin with a series of nitrosoureas which are capable of releasing amine-reactive isocyanates of varying hydrophobic character. The site of calcium-dependent carbamoylation on calmodulin by the antineoplastic agent 1-(2-chloroethyl)-3-(4-methylcyclohexyl)-1-nitrosourea (methyl CCNU) was determined to be Lys-75 as demonstrated using [ring-14C]methyl CCNU and sequence analysis of the sole labeled peptide obtained from tryptic digestion of reversed-phase high pressure liquid chromatography (HPLC)-purified radiolabeled calmodulin. CCNU, the 4-desmethylcyclohexyl derivative of methyl CCNU, and its reactive hydrolysis product, cyclohexyl isocyanate, were also determined to modify calmodulin in a similar manner and at the same site, as demonstrated by specific blockade of modification by the calmodulin antagonist calmidazolium. Nitrosoureas which release the less hydrophobic 4-hydroxy- and 4-carboxycyclohexyl isocyanates are unable to modify calmodulin at 25-fold higher concentrations than those required for modification with methyl CCNU, CCNU, or cyclohexyl isocyanate. With this monomodified Lys-75 derivative, purified to homogeneity by HPLC, differential effects of modification on the activation of bovine brain 3',5'-cyclic nucleotide phosphodiesterase (phosphodiesterase) and human erythrocyte Ca2+,Mg2+-ATPase were observed. Compared to the amounts of native calmodulin needed, phosphodiesterase required 7-fold higher amounts of this derivative to reach maximal activation, whereas the activation of the ATPase was unaffected. Clearly, different regions of calmodulin are responsible for the activation of phosphodiesterase and the ATPase. We conclude that Lys-75 is not essential for the function of calmodulin but is in a region of the molecule involved in interaction with phosphodiesterase as well as the binding of certain hydrophobic calmodulin antagonists.
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PMID:Modification of calmodulin on Lys-75 by carbamoylating nitrosoureas. 313 56

1. BW A746C is a chemical analogue of the imidazo [4,5b] pyridine, sulmazole (AR-L115 BS). Like sulmazole, BW A746C possesses positive inotropic and vasodilator activity in vivo. 2. In anaesthetized guinea-pigs, dogs and primates, a bolus i.v. injection of BW A746C, (0.001-1.0 mg kg-1) caused a significant, dose-related increase in ventricular dP/dt, and reduction in diastolic blood pressure, with small increases in heart rate. In these species, a significantly higher dose of BW A746C was required to lower blood pressure by 30% from basal, than was needed to raise ventricular dP/dt by 50% over basal. 3. In anaesthetized guinea-pigs and dogs, bolus i.v. injections of sulmazole (0.1-10.0 mg kg-1) caused similar effects to those observed with BW A746C. In these species, however, there was no significant difference between the dose of sulmazole required to lower blood pressure by 30% from basal and that required to raise ventricular dP/dt by 50%. 4. In conscious dogs, i.v. infusion of BW A746C (to a total dose of 0.3 mg kg-1) caused a significant increase in ventricular dP/dt, but no significant change in either diastolic blood pressure or heart rate. 5. In cell-free biochemical assays, there were no clear differences between the observed activities of BW A746C and sulmazole. Both compounds are cyclic nucleotide phosphodiesterase inhibitors with similar potencies and selectivities for the Type III enzyme (IC50 BW A746C = 3.0 +/- 0.5 X 10(-5) M, sulmazole 5.0 +/- 1.9 X 10(-5) M). The compounds had little or no effects on sarcolemmal Na+/K+-ATPase, Ca2+ ATPase or Na+/Ca2+ exchange, and sulmazole, but not BW A746C, had a small, stimulatory effect on myofibrillar ATPase. 6. In anaesthetized guinea-pigs and dogs, BW A746C was significantly more potent as a positive inotrope than sulmazole. In contrast with sulmazole, BW A746C produced its inotropic effects at significantly lower doses than those required to reduce diastolic blood pressure. This was also apparent from the results obtained in the anaesthetised primates and the conscious dogs. It was therefore concluded that the inotropic/vasodilator profile of BW A746C favours its positive inotrope activity. This profile cannot be explained on the basis of any biochemical differences from sulmazole.
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PMID:A comparative study of the cardiovascular and biochemical actions of the imidazo [4,5b] pyridine sulmazole and an imidazo [4,5c] pyridine analogue, BW A746C. 335 12

An inhibitor of procine brain calmodulin-dependent cyclic nucleotide phosphodiesterase was purified about 940-fold from rat testis. This inhibitor inhibited the calmodulin-induced activation of the enzyme without affecting its basal activity. The inhibitor activity was counteracted by a high concentration of calmodulin, but was not by a high concentration of Ca2+. The analysis on polyacrylamide disc gel electrophoresis demonstrated that the inhibitor and calmodulin form a complex in the presence of Ca2+ but not in the presence of excess amount of EGTA. This inhibitor also inhibited the calmodulin-induced activation of Ca2+, Mg2+ -ATPase of human erythrocytes. The inhibitor appeared to be a heat-stable protein, since the inhibitor activity was not attenuated by boiling up to 9 min but was completely abolished by tryptic or chymotryptic digestion. The molecular weights of the inhibitor determined by linear polyacrylamide gradient gel electrophoresis under nondenaturing conditions and sodium dodecyl sulfate-polyacrylamide gel electrophoresis were 40,000 and 32,000, respectively. Thus, the inhibitor is suggested to be a calmodulin-binding protein composed of a monomer which has unique properties different from those of other tissues.
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PMID:Heat-stable calmodulin-binding protein in rat testis. Inhibition of calmodulin-stimulated cyclic nucleotide phosphodiesterase activity. 608 20

The Ca2+-pumping ATPase from human erythrocyte membranes, purified nearly to homogeneity (Niggli, V., Penniston, J. T., and Carafoli, E. (1979) J. Biol. Chem. 254, 9955-9958), can be reconstituted into phospholipid vesicles. The purified and the reconstituted forms of the enzyme displayed the properties expected of the intact Ca2+ pump; they had an appropriate (Ca2+-Mg2+)-ATPase activity which displayed a relatively low affinity for Ca2+. Added calmodulin increased both the maximum rate and the affinity for Ca2+ of the enzyme. Mg2+ alone caused no significant ATP hydrolysis in the purified enzyme, indicating that the Mg2+-ATPase is a separate enzyme. Vesicles of the reconstituted enzyme accumulated Ca2+ with a ratio of Ca2+ accumulated to ATP hydrolyzed of approximately 1. Ca2+ accumulation and ATPase of the reconstituted enzyme were inhibited concurrently by vanadate ion, with a K 1/2 for inhibition which was indistinguishable from that observed for the (Ca2+-Mg2+)-ATPase in whole erythrocyte ghosts. While the above properties were all consistent with those observed for the (Ca2+-Mg2+)-ATPase in whole erythrocyte ghosts, the purified enzyme displayed an unexpected response to acidic phospholipids. Enzyme reconstituted with or prepared in phosphatidylserine acted as if calmodulin were already present, and added calmodulin caused no effect beyond that due to phosphatidylserine. This mimicry of the calmodulin effect by acidic phospholipids is similar to that reported for cyclic nucleotide phosphodiesterase (Wolff, D. J., and Brostrom, C. O. (1976) Arch. Biochem. Biophys., 173, 720-723).
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PMID:Purified (Ca2+-Mg2+)-ATPase of the erythrocyte membrane. Reconstitution and effect of calmodulin and phospholipids. 610 53

Phenothiazines and related compounds bind to mitochondrial membranes in approximate proportion to their affinities for calmodulin. Penfluridol (16 microM), pimozide (20 microM), or trifluoperazine (66 microM) completely inhibit ADP-stimulated respiration in isolated rat liver mitochondria, but exert no effect on either uncoupler- or Ca2+-stimulated respiration. The inhibition of ADP-stimulated respiration results from inhibition of the oligomycin-sensitive ATPase. Inhibition of the ATPase does not involve interaction of phenothiazine with calmodulin. The addition of calmodulin with or without calcium to mitochondrial inner membrane preparations has no effect on ATPase activity. The addition of EGTA and the ionophore A23187 prior to the addition of phenothiazine does not prevent the phenothiazine-induced inhibiton of the ATPase. Measurements of inner membrane calmodulin content by gel electrophoresis or cyclic nucleotide phosphodiesterase activation are negative. Despite the absence of calmodulin in the inner membrane preparations, 12.5 nmol trifluoperazine bind per 100 microgram of membrane protein with an association constant, K, of 6.5 . 10(4) M-1. We conclude that calmodulin-binding neuroleptic agents, when added to whole cells, have the potential to disrupt mitochondrial energy production by a reaction which apparently does not involve a phenothiazine-calmodulin interaction.
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PMID:Phenothiazines and related compounds disrupt mitochondrial energy production by a calmodulin-independent reaction. 611 2

The intracellular localization of adenylate cyclase and 3',5'-cyclic nucleotide phosphodiesterase in buffalo sperm was examined. Adenylate cyclase activity is distributed in heads (8.4%), midpieces (16.6%), tails (49.5%) and 5.7% in the soluble supernatant; the total recovery being 81%. A 4-fold increase in specific activity was observed in the tail fraction relative to sonicated suspension. Further fractionation of the tail fraction into plasma membrane and microtubules by dialysis against low ionic strength buffer was followed by marker enzymes (Mg2+ -ATPase, 5'-nucleotidase and alkaline phosphatase) as well as by examination of fractions under electron microscope. The recovered adenylate cyclase (79%) was found in microtubules (45%) and plasma membrane (34%). Cyclic nucleotide phosphodiesterase in tails was distributed in tail plasma membrane (13.7%), microtubules (31.5%) and cytosol (34%) with a total recovery of 80%. Similar results were obtained when the distribution of adenylate cyclase and cyclic nucleotide phosphodiesterase was studied by treatment with Triton X-100; 40% activity of adenylate cyclase present in tails (about 20% relative to sperm sonicate) appeared in the soluble form by this method. The results are discussed in relation to control of cyclic AMP levels in buffalo sperm by adenylate cyclase and cyclic nucleotide phosphodiesterase.
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PMID:Subcellular localization of adenylate cyclase of buffalo spermatozoa. 612 19

Studies were initiated to determine whether African trypanosomes utilize Ca2+ fluxes to coordinate complex morphological and biochemical life cycle changes. We have identified the ubiquitous intracellular Ca2+ receptor, calmodulin, in two developmental stages of Trypanosoma brucei rhodesiense. The transition from rapidly dividing, slender bloodstream trypomastigotes to slow growing procyclics in axenic culture was accompanied by changes in specific calmodulin content (3 micrograms/mg cell protein to 1 microgram/mg cell protein, respectively) and a shift in intracellular calmodulin distribution, Trypanosome calmodulin is physically and functionally distinct from that of host tissues, including bovine brain and rat erythrocytes. It is similar to but distinct from Tetrahymena calmodulin. Comparisons among these proteins isolated from the four sources were made using the following criteria: (1) mobility on sodium dodecyl sulfate discontinuous polyacrylamide gels; (2) Ca2+-induced conformational changes; (3) CNBr-cleavage fragments; (4) activation of bovine brain cyclic nucleotide phosphodiesterase in both a Ca2+-dependent and calmodulin-dependent manner; (5) activation of human erythrocyte (Ca2+ + Mg2+)-ATPase; and (6) inhibition of calmodulin activity by trifluoperazine and penfluridol. Trifluoperazine but not trifluoperazine sulfoxide was cytotoxic to trypanosomes in vitro. Half maximal effect occurred at 15 microM. We conclude that calmodulin is a functional component of Africal trypanosomes and suggest that it plays an important role in mediating the host-parasite relationship.
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PMID:African trypanosomes contain calmodulin which is distinct from host calmodulin. 613 50

Highly purified tryptic peptides of calmodulin have been obtained by high-performance liquid chromatography. Tryptic cleavage of calmodulin in the presence of Ca2+ results in two main fragments which have been identified by analysis of the amino acid composition as 1-77 and 78-148. In the absence of Ca2+, trypsin cleavage yields fragments 1-106, 1-90, and 107-148. Only fragments 78-148 and 1-106 are still able to stimulate the purified Ca2+-ATPase of erythrocytes, albeit much less efficiently on a molar basis, than intact calmodulin. On the other hand, the same fragments were unable to stimulate the calmodulin-dependent cyclic nucleotide phosphodiesterase, even at 1000-fold molar excess (shown also by Newton, D.L., Oldewurtel, M.D., Krinks, M.H., Shiloach, J., and Klee, C.B. (1984) J. Biol. Chem. 259, 4419-4426). This points to the importance of the carboxyl-terminal half of calmodulin and especially of Ca2+-binding region III in the interaction of calmodulin with the Ca2+-ATPase and provides clear evidence that calmodulin interacts differently with different targets. Oxidation of methionine(s) of fragment 78-148 with N-chlorosuccinimide removes the ability of this fragment to stimulate the ATPase.
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PMID:Stimulation of the purified erythrocyte Ca2+-ATPase by tryptic fragments of calmodulin. 623 67

Calcium-dependent regulation of cellular processes is mediated by specific intracellular proteins. A newly described set of proteins isolated from chicken gizzard with Mr of 67 X 10(3), 35 X 10(3), 33 X 10(3) and 30 X 10(3) also express a hydrophobic site in the presence of calcium. These proteins are isolated from several other cellular tissues and are termed calcimedins. These proteins differ from calmodulin in isoelectric point, DEAE-cellulose binding characteristics and heat stability. The calcimedins do not activate calmodulin-dependent cyclic nucleotide phosphodiesterase but do activate a hepatic microsomal Ca2+ -ATPase system. Hence, the possibility is opened that calcium regulation of cellular processes is mediated by calcium-binding proteins in addition to calmodulin.
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PMID:Unique calcium-dependent hydrophobic binding proteins: possible independent mediators of intracellular calcium distinct from calmodulin. 624 32


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