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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)

Cilia membrane preparations from axenically grown Paramecium contain ATPase activities with distinct electrophoretic mobilities on Triton-polyacrylamide gels [M.J. Doughty and E.S. Kaneshiro (1983) J. Protozool. 30, 569-575]. Such gel analyses also show additional ATPase activity bands associated with ciliary axonemes (dyneins), cell pellicles, exocytotic trichocysts, and the external cell surface (ectoenzyme). In the present report, the in vitro properties of these activities in various cell fractions were compared. The activity in ciliary membranes was stimulated by Ca2+ greater than Mg2+, in pellicles by Ca2+ greater than Mg2+, and in trichocysts by Ca2+ = Mg2+. The ecto-ATPase was strictly Ca2+ dependent. Determination of the affinities for various phosphate-containing substrates showed that the activities in all fractions were nucleoside triphosphate phosphohydrolases. Unlike the axonemal dynein ATPases, all other fractions were vanadate- and p-chloromercuribenzoate-insensitive. Activities in all cell fractions were sensitive to ruthenium red, the ciliary membrane being the most sensitive (Ki = 4 microM). The ciliary membrane Ca2+ ATPase activity exhibited an apparent affinity for CaATP2- of 9 microM and was inhibited by other divalent cations, La3+, and phosphate, but not by ADP or AMP. The kinetic properties of the ciliary membrane Ca2+ ATPase activity in wild type and several behavioral mutants were similar except for those in the pawn mutant, d495, and the paranoiac mutant, d490, both of which had lower specific activities. These studies support the finding that the ciliary membrane ATPase activity of Paramecium is a specific Ca2+-dependent ATPase distinct from other divalent cation-dependent ATPase activities found in either the cilia or other cell surface structures.
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PMID:Divalent cation-dependent ATPase activities in ciliary membranes and other surface structures in Paramecium tetraurelia: comparative in vitro studies. 315 47

An improved method has been devised for the purification of cytoplasmic dynein from sea urchin eggs (Strongylocentrotus droebachiensis and S purpuratus). This protocol introduces three changes over a previously published procedure (Hisanaga and Sakai: J Biochem 93:87, 1983)--the substitution of diethylaminoethyl (DEAE)-cellulose for hydroxylapatite chromatography, the elimination of sucrose density gradient centrifugation, and the use of phosphocellulose chromatography. These changes reduce the time and increase the efficiency of the purification procedure. The purified egg cytoplasmic dynein has enzymatic properties in common with axonemal dynein, including ionic specificity (Ca++ATPase/Mg++ ATPase = 0.8) and inhibition by sodium vanadate and erythro-9-2,3-hydroxynonyl adenine (EHNA). As assayed by silver staining of polyacrylamide gels, the cytoplasmic dynein is composed of two high molecular weight polypeptides (greater than 300 kilodaltons) that comigrate with flagellar dynein heavy chains, and lesser amounts of three lower molecular weight bands. None of these polypeptides appears to contain bound carbohydrate. The purification procedure can be modified slightly to allow the preparation of cytoplasmic dynein in only 2 days from as little as 3-5 ml of packed eggs, a 20-fold reduction over the previous method. This more rapid and efficient method will facilitate the investigation of cytoplasmic dynein in other systems where starting material is limited, including tissue culture cells and nerve axoplasm.
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PMID:An improved purification method for cytoplasmic dynein. 621 Feb 93

Purification of cytoplasmic dynein from unfertilized sea urchin eggs was performed in the presence of protease inhibitors to avoid proteolysis throughout the purification procedure, which comprised several chromatographies, including a calmodulin-Sepharose 4B affinity column chromatography. This is the first report of the purification of cytoplasmic dynein to near homogeneity. The purified fraction was composed of a single high molecular weight polypeptide and some minor low molecular weight polypeptides. The high molecular weight polypeptide comigrated with flagellar dynein A beta chain from sperm on SDS-polyacrylamide gels. There was no polypeptide stainable with periodic acid-Schiff reagent (PAS) in the purified cytoplasmic dynein fraction. Cytoplasmic dynein showed characteristics quite similar to those of axonemal dynein, i.e. high substrate specificity for ATP and inhibition by low concentrations of vanadate, though its Ca-ATPase activity showed almost the same dependence on the concentration of either divalent cations or KC1 as the Mg-ATPase activity. The purified enzyme seemed to possess functional form as judged from its properties: 1) pH dependence of the ATPase activity, 2) dependence of the ATPase activity on MgCl2 and KCl concentration, 3) Km for Mg-ATP, and 4) binding to flagellar doublet microtubules. Cytoplasmic dynein bound to calmodulin-Sepharose 4B only in the presence of Ca2+, and was eluted with EGTA. Furthermore, the ATPase activity was enhanced 6-fold by calmodulin in a Ca2+-dependent manner. The activation by calmodulin was prevented by a stoichiometric amount of trifluoperazine.
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PMID:Cytoplasmic dynein of the sea urchin egg. II. Purification, characterization and interactions with microtubules and Ca-calmodulin. 622 Oct 14

Erythro-9-[3-(2-hydroxynonyl)]adenine (EHNA) inhibits axonemal dynein ATPase activity and hence the beating of sea urchin and mammalian flagella. We have found that EHNA has an unusual effect on the flagella of Leishmania promastigotes in that it alters both the waveform and polarity of the beat. We report here results which suggest that in Leishmania promastigotes there are either distinct EHNA-sensitive dyneins or different conformational states of a single dynein involved in the cilia-like and flagella-like waveforms and in the propagation of flagellar waves from tip-to-base and from base-to-tip.
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PMID:Differential inhibition by erythro-9-[3-(2-hydroxynonyl)]adenine of flagella-like and cilia-like movement of Leishmania promastigotes. 622 52

erythro-9-[3-(2-Hydroxynonyl)]adenine (EHNA) has been reported previously to be an agent that arrests sperm motility by inhibiting the axonemal dynein ATPase activity and has been used to probe the involvement of putative cytoplasmic dyneins in mitosis and intracellular organelle transport. We report here that EHNA profoundly and reversibly affects several actin-dependent processes, both in vivo and in vitro. It induces dramatic changes in actin organization in cultured cells, inhibits cell translocation, blocks actin-dependent cytoplasmic streaming, interferes with actin-dependent gelation of cytoplasmic extracts, and inhibits actin assembly. Just as the cytochalasins, EHNA appears to be a highly effective inhibitor of actin-based motility, whose effects in complex biological systems should be interpreted with caution.
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PMID:erythro-9-[3-(2-Hydroxynonyl)]adenine is an effective inhibitor of cell motility and actin assembly. 638 6

Photochemical cross-linking of both Tetrahymena and Aequipecten ciliary membrane proteins with the lipophilic reagent 4,4'-dithiobisphenylazide links together a high molecular weight dynein-like ATPase, membrane tubulin, and at least two other proteins. Electron microscopy of detergent-extracted cilia reveals that the cross-linked complex remains attached to the outer-doublet microtubules by a microtubule-membrane bridge. Cleavage of the reagent's disulfide bond releases the bridge-membrane complex and the dynein-like membrane-associated ATPase. Electron microscopy was used to ensure that the dynein-like protein did not result from the solubilization of the dynein arms attached to the outer-doublet microtubules. The dynein-like protein has been isolated using sucrose gradients and is similar to axonemal dynein with respect to its sedimentation characteristics nucleotide specificity, and divalent cation requirements. Photochemical cross-linking of ciliary membrane porteins in vivo results initially in the modification of ciliary beat and, eventually, in the cessation of ciliary movement. These results suggest that a dynein-like ATPase comprises the bridge which links the ciliary membrane to the outer-doublet microtubules and that this bridge is involved in the modulation of normal ciliary movement.
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PMID:Microtubule-membrane interactions in cilia. II. Photochemical cross-linking of bridge structures and the identification of a membrane-associated dynein-like ATPase. 644 10

Two distinctly different ATPases have been reported to be endogenous to the mitotic apparatus: a Mg2+-ATPase resembling axonemal dynein, and a Ca2+-ATPase postulated to be bound in membranes. To examine the nature of the Mg2+-ATPase, we isolated membrane-free mitotic spindles from Stronglylocentrotus droebachiensis embryos by rapidly lysing these in a calcium-chelating, low-ionic-strength buffer (5 mM EGTA, 0.5 mM MgCl2, 10 mM PIPES, pH 6.8) that contained 1% Nonidet P-40. The fibrous isolated mitotic spindles closely resembled spindles in living cells, both in general morphology and in birefringence. In electron micrographs, the spindles were composed primarily of microtubules, free from membranes and highly extracted of intermicrotubular cytoplasmic ground substance. As analyzed by SDS-polyacrylamide gel electrophoresis (SDS-PAGE), the pelleted spindles contain 18% tubulin, variable amounts of actin (2-8%), and an unidentified protein of 55 kdaltons in a constant weight ratio to tubulin (1:2.5). The isolated spindles also contained two polypeptides, larger than 300 kdaltons, that comigrated with egg dynein polypeptides, and ATPase activity (0.02 mumol Pi/mg . min) that closely resembled both flagellar and egg dynein. The spindle Mg2+-ATPase showed a ratio of Ca2+-/Mg2+-ATPase = 0.85, had minimal activity in KCl and EDTA, and cleaved GTP at 35% of the rate of ATP. The Mg2+-ATPase was insensitive to ouabain or oligomycin. The spindle Mg2+-ATPase was inhibited by sodium vanadate but, like egg dynein, was less sensitive to vanadate than flagellar dynein. The spindle Mg2+-ATPase does not resemble the mitotic Ca2+-ATPase described by others. We propose that the spindle Mg2+-ATPase is egg dynein. Bound carbohydrate on the two high-molecular-weight polypeptides of both egg dynein and the spindle enzyme suggest that these proteins may normally associate with membranes in the living cell.
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PMID:Dynein-like Mg2+-ATPase in mitotic spindles isolated from sea urchin embryos (Strongylocentrotus droebachiensis). 644 5

Protein carboxylmethylase (S-adenosyl-L-methionine:protein O-methyltransferase, EC 2.1.1.24.) is believed to be involved in the regulation of sperm motility. To test this hypothesis, we investigated the effects of erythro-9-[3-(2-hydroxynonyl)]adenine (EHNA) which, in combination with adenosine and homocysteine thiolactone, inhibits protein carboxylmethylase activity in monocytes. This group of compounds inhibited sea urchin sperm motility. Unexpectedly, EHNA alone inhibited the motility., This observation was confirmed in intact spermatozoa from rats, rabbits, and humans. EHNA also inhibited the motility of demembranated, reactivated sea urchin and rat spermatozoa from which protein carboxylmethylase had been extracted. In these preparations, motility was restored by ATP. These observations suggested that EHNA arrests sperm motility by inhibiting the axonemal dynein ATPase on which motility depends. Kinetic analysis demonstrated that EHNA produced mixed inhibition of both the axonemal ATPase and the partially purified dynein 1 from sea urchin sperm tails, as well as the axonemal ATPase of rat sperm tails. These observations also provide evidence for the similarity of the active site of the dynein ATPase in sea urchin and rat spermatozoa.
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PMID:erythro-9-[3-(2-Hydroxynonyl)]adenine is an inhibitor of sperm motility that blocks dynein ATPase and protein carboxylmethylase activities. 645 42

We previously demonstrated that bis-cyclopentadienyl (Cp) complexes of vanadium(IV) (vanadocenes) are potent spermicidal and apoptosis-inducing agents. To gain further insight into the structure-function relationships controlling these two properties of vanadocenes, we have synthesized analogues in which the bis-Cp rings were substituted with one or five electron-donating methyl groups. The three complexes included vanadocene dichloride (VDC), bis(methylcyclopentadienyl) vanadium dichloride (VMDC), and bis(pentamethylcyclopentadienyl) vanadium dichloride (VPMDC). The concentration-dependent effect of these vanadocenes on sperm-immobilizing activity (SIA), mitochondrial membrane potential (DeltaPsim), axonemal dynein ATPase activity, and tyrosine phosphorylation of global and axoneme-specific sperm proteins was assessed by computer-assisted sperm analysis, flow cytometry, colorimetry, and immunoblotting, respectively. Apoptosis-inducing ability was quantitated by the two-color flow cytometric terminal dideoxynucleotidyl transferase-based assay that labels 3'-hydroxyl ends of fragmented DNA. All three vanadocenes induced rapid sperm immobilization (T(1/2) < 15 sec). Substitution of the bis-Cp rings by five methyl groups augmented the SIA of VDC by 10-fold. The EC(50) values (50% inhibitory concentration) for VDC, VMDC, and VPMDC were 7.5 microM, 4.3 microM, and 0.7 microM, respectively. Whereas SIA of vanadocenes was apparent at low micromolar concentrations, the apoptosis-inducing property was evident only at higher micromolar concentrations. The concentrations of VDC, VMDC, and VPMDC required for 50% apoptosis were 49 microM, 67 microM, and 153 microM, and for 50% reduction in sperm DeltaPsim were 435 microM, 173 microM, and 124 microM, respectively. Spermicidal activity of vanadocenes was not dependent on the inhibition of ATPase or tyrosine phosphorylation of global and sperm axonemal proteins. Due to the ability of these vanadocene complexes to rapidly generate hydroxyl radicals in the presence of oxidant, our findings provide unprecedented evidence for a novel mechanism of action for spermicidal vanadocenes. The differential concentration-dependent spermicidal and apoptosis-inducing properties of vanadocenes gives them particular utility as a new class of vaginal contraceptives.
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PMID:Studies in humans on the mechanism of potent spermicidal and apoptosis-inducing activities of vanadocene complexes. 1072 63

bis-cyclopentadienyl [Cp] complexes of vanadium(IV) or vanadocenes are rapid and potent inhibitors of human sperm motility with potential as a new class of contraceptive agents. We investigated the utility of boar sperm as a model system to study the mechanisms of drug action because boar sperm lacks phosphocreatine and creatine kinase activity, the essential components of the "phosphagen shuttle" system for human sperm motility. Two representative vanadocenes, vanadocene dichloride [VDC] and bis[pentamethylcyclopentadienyl] vanadium dichloride [VPMDC], in which the bis-Cp rings were substituted with five electron-donating methyl groups were evaluated. The concentration-dependent effects of VDC and VPMDC on spermicidal activity, axonemal dynein adenosine triphosphatase (ATPase) activity, and tyrosine phosphorylation of global sperm proteins were assessed by computer-assisted sperm analysis, spectrophotometry, and immunoblotting, respectively. Both the unsubstituted and the pentamethyl-substituted vanadocene induced rapid sperm immobilization (T(1/2) < 15 s). Substitution of the bis-Cp rings by five methyl groups augmented the SIA of VDC threefold. The EC(50) values for VDC and VPMDC were 2.1 and 0.76 microM, respectively. Spermicidal activity of vanadocenes was not associated with the inhibition of dynein ATPase(s) or increase in tyrosine phosphorylation of sperm proteins. These results suggest that the potent spermicidal activity of vanadocenes against boar sperm is mediated by a unique mechanism that is independent of dynein ATPase activity, phosphatase activity, and phosphocreatine/creatine kinase system. Therefore, boar sperm is a suitable model for further investigating the molecular mechanism of spermicidal action of vanadocenes.
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PMID:Evaluation of boar sperm as a model system to study the mechanism of spermicidal activity of vanadocenes. 1077 10


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