EC:3.6.1.3 - FACTA Search

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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)

PtdIns liposomes, at a concentration of 40 microM, induced in FLF the synthesis of t-PA-Ag, and enhanced 45Ca2+ uptake. The induction of t-PA-Ag biosynthesis by PtdIns liposomes in FLF was inhibited by 5-15 microM verapamil, an inhibitor of Ca2+ uptake via the so-called "slow channels" by 0.5-10 microM TFP, an inhibitor of Ca2+ transport ATPase, and by 10-90 microM TMB-8, an inhibitor of intracellular Ca2+ mobilization. t-PA-Ag secretion was inhibited by decreasing the Ca2+ concentration less than 1.2 mM. On the other hand, addition of 0.08 microM of calcium ionophore A23187 increased t-PA-Ag biosynthesis after 72 hr of incubation by 247% (P less than 0.01). These data support previous results and indicate that the synthesis of t-PA in FLF is Ca2+ dependent. Thus, it is suggested that PtdIns liposomes increase t-PA biosynthesis by affecting calcium metabolism.
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PMID:Phosphatidylinositol liposomes increase calcium uptake and tissue plasminogen activator secretion by fetal human lung fibroblasts. 212 30

Caldesmon from chicken gizzard muscle has been examined for ability to interact with S100 protein using sedimentation, low-shear viscosity, and affinity chromatography. Ca2+/S100 protein, like Ca2+/calmodulin, inhibited the binding of caldesmon to F-actin in a concentration-dependent manner and the inhibition was not observed in the absence of Ca2+. Caldesmon was bound to S100 protein-Sepharose in the presence of Ca2+ and released with EGTA, indicating that there is a direct interaction between caldesmon and S100 protein. The binding of S100 protein to caldesmon also relieved actomyosin Mg2(+)-ATPase inhibition by caldesmon. The molar ratio of S100 protein to caldesmon required for half-maximal restoration was about 0.3, a value less than that in the case of calmodulin. S100 protein, however, was less effective in terms of the maximal extent of the restoration. With respect to Ca2(+)-sensitivity, the restoration profiles were monophasic with a midpoint at 3 x 10(-5) M for S100 protein and 8 x 10(-6) M for calmodulin. The restoration by S100 protein was almost wholly inhibited by TFP, but not by W-7. Taken together, our results suggest that a Ca2(+)-binding protein other than calmodulin may regulate caldesmon-dependent cellular functions.
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PMID:Calcium-dependent control of caldesmon-actin interaction by S100 protein. 213 56

The interaction of several phenothiazines, benzodiazepines, butyrophenones, polycyclic neuroleptics and tricyclic antidepressants with calmodulin and troponin C was investigated using the fluorescent dye 3,3'-dipropylthiocarbocyanine iodide. In the presence of Ca2+, trifluoperazine (2-trifluoromethyl-10-[3-(1-methylpiperazinyl-4)propyl]-phenothiaz ine dihydrochloride, TFP), which is commonly used as a selective calmodulin inhibitor, half maximally increased the fluorescence of the complex formed of the fluorescent dye with calmodulin at a concentration of 4 mumol/l, and with troponin C at 24 mumol/l. TFP completely inhibited the calmodulin dependent stimulation of cyclic nucleotide phosphodiesterase with a Ki of 4 mumol/l and decreased the maximum Ca2+ dependent troponin C mediated activation of actomyosin ATPase by 35% at a concentration of 100 mumol/l. Metofenazate (3,4,5-trimethoxybenzoate-2-chlor-10-(3-[(beta-oxyethyl) piperazinyl-4]-propyl)phenothiazine diethanesulfonate, methophenazine, MP) produced half maximal fluorescence enhancement of the calmodulin dye complex at a concentration of 6 mumol/l and did not influence the fluorescence of the troponin C dye complex at concentrations of up to 1000 mumol/l. MP also completely inhibited the calmodulin dependent stimulation of phosphodiesterase with a Ki of 7 mumol/l but it had not effect on maximum Ca2+ stimulation of actomyosin ATPase. MP increased the Ca2+ sensitivity of skinned cardiac muscle with an about 10fold lower potency than TFP. In view of these results, we propose MP as a useful tool for distinction between processes mediated by either calmodulin or troponin C.
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PMID:Metofenazate as a more selective calmodulin inhibitor than trifluoperazine. 244 25

A new derivative of bisbenzylisoquinoline (berbamine type): 0-(4-ethoxylbutyl) berbamine (EBB) was found to possess powerful and specific calmodulin (CaM) inhibitory properties. It inhibited CaM-stimulated Ca2+-Mg2+-ATPase in human erythrocyte membrane with IC50 value of 0.35 microM compared to that of 60 microM of berbamine. CaM-independent basal Ca2+-Mg2+-ATPase, Na+-K+-ATPase and Mg2+-ATPase were not effect at 1.0 microM of EBB at which CaM-dependent Ca2+-Mg2+-ATPase was already potently inhibited. The inhibition of CaM-dependent Ca2+-Mg2+-ATPase was competitive with respect to CaM. Higher amount of CaM reversed the inhibition caused by higher concentration of EBB. Using dansyl-CaM (D-CaM), it was shown that EBB binds directly to CaM and caused a conformational change of CaM polypeptide chain. From fluorescence titration curve we obtained evidence that in the presence of Ca2+, CaM has two specific binding sites for EBB and additional unspecific binding sites. The Ca2+-dependent binding sites of EBB on CaM were novel region different from the binding sites for TFP.
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PMID:A derivative of bisbenzylisoquinoline alkaloid is a new and potential calmodulin antagonist. 302 22

The effects of the calmodulin blocker, trifluoperazine (TEP), on membrane-bound Ca++-ATPase, Na+-K+-ATPase (EC 3.6.1.3.) and the ultrastructure of the enamel organ were investigated in the lower incisors of normal and TFP-injected rats. The rats, of about 100 g body weight, were given either 0.2 ml physiological saline or 100 micrograms TFP dissolved in 0.2 ml physiological saline through a jugular vein and fixed by transcardiac perfusion with a formaldehyde-glutaraldehyde mixture at 1 and 2 h after TFP administration. Non-decalcified sections of the enamel organ less than 50 micron in thickness, prepared from dissected lower incisors, were processed for the ultracytochemical demonstration of Ca++-ATPase and Na+-K+-ATPase by the one-step lead method at alkaline pH. In control saline-injected animals the most intense enzymatic reaction of Ca++-ATPase was demonstrated along the plasma membranes of the entire cell surfaces of secretory ameloblasts. Moderate enzymatic reaction was also observed in the plasma membranes of the cells of stratum intermedium and papillary layer. Reaction precipitates of Na+-K+-ATPase activity were localized clearly along the plasma membranes of only the cells of stratum intermedium and papillary layer. The most drastic effect of TFP was a marked disappearance of enzymatic reaction of Ca++-ATPase from the plasma membranes of secretory ameloblasts, except for a weak persistent reaction in the basolateral cell surfaces of the infranuclear region facing the stratum intermedium. The cells of stratum intermedium and papillary layer, however, continued to react for Ca++-ATPase even after TFP treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Calmodulin blocker inhibits Ca++-ATPase activity in secretory ameloblast of rat incisor. 303 46

Bidirectional steady-state calcium fluxes were measured in vitro under short-circuited conditions in segments of rat duodenum and descending colon. The calcium-activated ATPase (Ca-ATPase) inhibitor trifluoperazine (TFP, 0.1 mM) reduced net calcium absorption in both tissues by decreasing the absorptive flux from mucosa to serosa (Jm leads to s) without consistently altering the secretory flux from serosa to mucosa. 1,25-Dihydroxyvitamin D3 administration (50 ng/day for 4 days) increased net calcium absorption by increasing Jm leads to s, and TFP reduced Jm leads to s to the same extent across tissues from vehicle- or 1,25-dihydroxyvitamin D3-treated animals. Na-K-ATPase inhibitors ouabain and ethacrynic acid both reduced short-circuit current without affecting calcium fluxes. These data suggest that Ca-ATPase, located in the basolateral membrane of intestinal epithelial cells, plays a role in the transepithelial transport of calcium. More general effects of TFP on intestinal epithelium may also contribute to the reduction in calcium fluxes. Duodenal and descending colon calcium transport appears independent of transcellular sodium transport mediated by Na-K-ATPase.
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PMID:Effects of trifluoperazine, ouabain, and ethacrynic acid on intestinal calcium transport. 668 17

The results obtained by biochemical measurement demonstrated for the first time that significant decrease of the plasma membrane Ca(2+)-ATPase activity occurred during capacitation and acrosome reaction of guinea pig sperm. Ethacrynic acid, one kind of Ca(2+)-ATPase antagonists, inhibited the plasma membrane Ca(2+)-ATPase activity, but calmodulin (50 micrograms/mL) and trifluoperazine (200-500 mumol/L) did not, suggesting that calmodulin is not involved in ATP-driven Ca2+ efflux from sperm. However, calmodulin is involved in the control of Ca2+ influx. TFP, one kind of calmodulin antagonists, accelerated the acrosome reaction and Ca2+ uptake into sperm cells significantly. Ca(2+)-ATPase antagonists, quercetin, sodium orthovandate, furosemide and ethacrynic acid promoted the acrosome reaction, but inhibited Ca2+ uptake, which cannot be explained by their inhibitory effects on the plasma membrane Ca(2+)-ATPase activity. It is speculated that this phenomenon might be caused by simultaneous inhibitions of the activities of Ca(2+)-ATPase present in the plasma membrane, the outer acrosome membrane and the outer mitochondrion membrane resulting in Ca2+ accumulation in the cytoplasm, which in turn blocks further Ca2+ entry through some negative feedback mechanism(s). The inhibitory effect of Ca(2+)-ATPase antagonist on glycolytic activity may also be the reason for Ca2+ accumulation in cytoplasm and inhibition of Ca2+ uptake.
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PMID:Relationship between plasma membrane Ca(2+)-ATPase activity and acrosome reaction in guinea pig sperm. 938 39

The effect of regucalcin, which is a regulatory protein of Ca(2+) signaling, on Ca(2+)-ATPase activity in isolated rat renal cortex mitochondria was investigated. The presence of regucalcin (50, 100, and 250 nM) in the enzyme reaction mixture led to a significant increase in Ca(2+)-ATPase activity. Regucalcin significantly stimulated ATP-dependent (45)Ca(2+) uptake by the mitochondria. Ruthenium red (10(-6) M) or lanthunum chloride (10(-6) M), an inhibitor of mitochondrial Ca(2+) uptake, markedly inhibited regucalcin (100 nM)-increased mitochondrial Ca(2+)-ATPase activity and (45)Ca(2+) uptake. The effect of regucalcin (100 nM) in elevating Ca(2+)-ATPase activity was completely prevented by the presence of digitonin (10(-2)%), a solubilizing reagent of membranous lipids, vanadate, an inhibitor of phosphorylation of ATPase, or dithiothreitol (50 mM), a protecting reagent of the sulfhydryl (SH) group of the enzyme. The activating effect of regucalcin (100 nM) on Ca(2+)-ATPase activity was not further enhanced by calmodulin (0.30 microM) or dibutyryl cyclic AMP (10(-4) M), which could increase Ca(2+)-ATPase activity. Trifluoperazine (TFP; 50 microM), an antagonist of calmodulin, significantly decreased Ca(2+)-ATPase activity. The activating effect of regucalcin on the enzyme was also seen in the presence of TFP, indicating that regucalcin's effect is not involved in mitochondrial calmodulin. The present study demonstrates that regucalcin can stimulate Ca(2+)-pump activity in rat renal cortex mitochondria, and that the protein may act on an active site (SH group) related to phosphorylation of mitochondrial Ca(2+)-ATPase.
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PMID:Stimulatory effect of regucalcin on mitochondrial ATP-dependent calcium uptake activity in rat kidney cortex. 1107

The opportunistic pathogen Pseudomonas aeruginosa expresses polar type IV pili (TFP), which are responsible for adhesion to various materials and twitching motility on surfaces. Twitching occurs by alternate extension and retraction of TFP, which arise from assembly and disassembly of pilin subunits at the base of the pilus. The ATPase PilB promotes pilin assembly, while the ATPase PilT or PilU or both promote pilin dissociation. Fluorescent fusions to two of the three ATPases (PilT and PilU) were functional, as shown by complementation of the corresponding mutants. PilB and PilT fusions localized to both poles, while PilU fusions localized only to the piliated pole. To identify the portion of the ATPases required for localization, sequential C-terminal deletions of PilT and PilU were generated. The conserved His and Walker B boxes were dispensable for polar localization but were required for twitching motility, showing that localization and function could be uncoupled. Truncated fusions that retained polar localization maintained their distinctive distribution patterns. To dissect the cellular factors involved in establishing polarity, fusion protein localization was monitored with a panel of TFP mutants. The localization of yellow fluorescent protein (YFP)-PilT and YFP-PilU was independent of the subunit PilA, other TFP ATPases, and TFP-associated proteins previously shown to be associated with the membrane or exhibiting polar localization. In contrast, YFP-PilB exhibited diffuse cytoplasmic localization in a pilC mutant, suggesting that PilC is required for polar localization of PilB. Finally, localization studies performed with fluorescent ATPase chimeras of PilT and PilU demonstrated that information responsible for the characteristic localization patterns of the ATPases likely resides in their N termini.
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PMID:Disparate subcellular localization patterns of Pseudomonas aeruginosa Type IV pilus ATPases involved in twitching motility. 1565 60

Type IV pili (TFP) play central roles in the expression of many phenotypes including motility, multicellular behavior, sensitivity to bacteriophages, natural genetic transformation, and adherence. In Neisseria gonorrhoeae, these properties require ancillary proteins that act in conjunction with TFP expression and influence organelle dynamics. Here, the intrinsic contributions of the pilin protein itself to TFP dynamics and associated phenotypes were examined by expressing the Pseudomonas aeruginosa PilA(PAK) pilin subunit in N. gonorrhoeae. We show here that, although PilA(PAK) pilin can be readily assembled into TFP in this background, steady-state levels of purifiable fibers are dramatically reduced relative those of endogenous pili. This defect is due to aberrant TFP dynamics as it is suppressed in the absence of the PilT pilus retraction ATPase. Functionally, PilA(PAK) pilin complements gonococcal adherence for human epithelial cells but only in a pilT background, and this property remains dependent on the coexpression of both the PilC adhesin and the PilV pilin-like protein. Since P. aeruginosa pilin only moderately supports neisserial sequence-specific transformation despite its assembly proficiency, these results together suggest that PilA(PAK) pilin functions suboptimally in this environment. This appears to be due to diminished compatibility with resident proteins essential for TFP function and dynamics. Despite this, PilA(PAK) pili support retractile force generation in this background equivalent to that reported for endogenous pili. Furthermore, PilA(PAK) pili are both necessary and sufficient for bacteriophage PO4 binding, although the strain remains phage resistant. Together, these findings have significant implications for TFP biology in both N. gonorrhoeae and P. aeruginosa.
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PMID:Pseudomonas aeruginosa Type IV pilus expression in Neisseria gonorrhoeae: effects of pilin subunit composition on function and organelle dynamics. 1757 79

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