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)

Regulation of steady-state free Ca2+ concentration at rest and at stimulation have been studied in isolated permeabilized pancreatic acinar cells by measuring the free Ca2+ concentration of the surrounding incubation medium with a Ca2+-specific electrode. Ca2+ transport mechanisms have been further characterized in subcellular membrane fractions by measuring 45Ca2+ uptake into membrane vesicles and protein phosphorylation using polyacrylamide gel electrophoresis. (a) In permeabilized isolated acinar cells from exocrine glands, inositol-1,4,5-trisphosphate (IP3) releases Ca2+ from endoplasmic reticulum. (b) Secretagogue-induced Ca2+ release from permeabilized cells is accompanied by increased production of IP3. At rest, steady-state free Ca2+ concentration is regulated at 4 X 10(-7) mol/L by the rough endoplasmic reticulum (RER). Ca2+ uptake into this pool is promoted by a (Ca2+ + Mg2+)-ATPase, and is dependent on cations and anions in the incubation medium in the order K+ greater than Na+ greater than Li+ greater than choline+ and Cl- greater than Br- greater than SO4(2-) = NO3- greater than I- greater than cyclamate- greater than SCN-, respectively. Similarly, Ca2+-stimulated 32P incorporation from [gamma 32P]ATP into a 130 kD protein intermediate of (Ca2+ + Mg2+)-ATPase, as well as 32P liberation, indicating (Ca2+ + Mg2+)-ATPase activity, are cation dependent. While 32P incorporation is highest in the presence of choline, 32P liberation is higher with K+, as compared with Na+ or choline, indicating that K+ ions facilitate dephosphorylation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Intracellular messengers in stimulus-secretion coupling of pancreatic acinar cells. 243 35

An endosomal fraction isolated from rabbit renal cortex by a novel, fast, and simple procedure was enriched in ATP-dependent H+ pumping that was oligomycin insensitive but was inhibited by dicyclohexylcarbodiimide (DCCD), N-ethylmaleimide (NEM), Zn2+, Hg2+, diethylstilbestrol, mersalyl, and 4-chloro-7-nitrobenzo-2-oxa-1,3-diazole. No substantial Na+-H+ exchange was detected. Electrogenicity of the pump was demonstrated using [14C]-SCN-. In addition, these membranes featured ATP-dependent Cl- flux. The ATP-driven H+ pumping had an absolute requirement for Cl-: an inside-negative membrane potential was not a substitute for Cl-. The protonophore carbonyl cyanide p-trifluoromethoxyphenylhydrazone inhibited ATP-driven Cl- uptake but no inhibition was observed with nigericin. Finally, both ATP-driven H+ pumping and ATP-dependent Cl- flux were inhibited by Cl(-)-channel inhibitors. Part, or all, of the absolute dependence on Cl- may derive from a Cl- channel, the function of which is intimately related to H+ pumping by the ATPase. Flux through this Cl- channel may be regulated by one or more factors, including ATP, membrane potential, and pH.
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PMID:Cl(-)-dependent ATP-driven H+ transport in rabbit renal cortical endosomes. 246 Oct 97

The pathway(s) of passive conductive Cl transport across isolated frog skin are analyzed by electrophysiological techniques including microelectrode impalement of principal cells. It is found that the apical membrane of granular cells is virtually impermeable for Cl. Substitution of mucosal Cl by anions except NO3 and SCN decreases Cl-related tissue conductance (gCl) with first order kinetics. NO3 and SCN block gCl with half-maximal concentration of 18 and 5 mM, respectively. Omission of serosal Cl has little effect on gCl unless the inhibiting anions NO3 or SCN are used. The putative Cl channel blocker diphenylaminocarbonic acid (DPC) and some analogs inhibit gCl, half-inhibitory concentration of the most potent dichloro-DPC is 10(-6) M. The inhibitors act only from the mucosal side. Slow dissipation of gCl after abolition of Na entry across the apical membranes which can be prevented by preceding blockage of the Na-K-ATPase with ouabain suggests that the intracellular Na activity might influence the permeability of the Cl pathway. It is supposed that this control involves microfilaments between the cytoskeleton and the tight junctions with Cl-specific permeation sites in outer regions of the junctional complex.
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PMID:Chloride conductance of frog skin: localization to the tight junctions? 247 Oct 51

Measurements have been made of the ATP-dependent membrane potential (delta psi) and pH gradient (delta pH) across the membranes of the synaptic vesicles purified from bovine cerebral cortex, using the voltage-sensitive dye bis[3-propyl-5-oxoisoxazol-4-yl]pentamethine oxanol and the delta pH-sensitive fluorescent dye 9-aminoacridine respectively. A pre-existing small delta pH (inside acidic) was detected in the synaptic vesicles, but no additional significant contribution by MgATP to delta pH was observed. In contrast, delta psi (inside positive) increased substantially upon addition of MgATP. This ATP-dependent delta psi was reduced by thiocyanate anion (SCN-), a delta psi dissipator, or carbonyl cyanide p-(trifluoromethoxy)phenylhydrazone (FCCP), a protonmotive-force dissipator. Correspondingly, a substantially larger glutamate uptake occurred in the presence of MgATP, which was inhibited by SCN- and FCCP. A nonhydrolysable analogue of ATP, adenosine 5'-[beta gamma-methylene]triphosphate, did not substitute for ATP in either delta psi generation or glutamate uptake. The results support the hypothesis that a H+-pumping ATPase generates a protonmotive force in the synaptic vesicles at the expense of ATP hydrolysis, and the protonmotive force thus formed provides a driving force for the vesicular glutamate uptake. The delta psi generation by ATP hydrolysis was not affected by orthovanadate, ouabain or oligomycin, but was inhibited by N-ethylmaleimide, quercetin, trimethyltin, 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole and 4-acetamido-4'-isothiocyanostilbene-2,2'-disulphonic acid. These results indicate that the H+-pumping ATPase in the synaptic vesicle is similar to that in the chromaffin granule, platelet granule and lysosome.
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PMID:Glutamate uptake into synaptic vesicles of bovine cerebral cortex and electrochemical potential difference of proton across the membrane. 256 9

This study concerns the properties of rapid K+ and Cl transport pathways that are present in the (H+ + K+)-ATPase membrane from stimulated, and secreting, gastric oxyntic cells. Ion permeabilities in the isolated stimulation-associated vesicles were monitored via the rates of H+ efflux under conditions of exclusive H+/K+ counterflux or H+ - Cl co-efflux, as well as by comparison of equilibration rates for 86Rb and 36Cl under conditions of equilibrium exchange and unidirectional salt flux. These latter studies suggest that Rb+ and Cl pathways are conductive and independent. In spite of the functional independence of the ion pathways, several divalent cations inhibit Rb+ and Cl isotopic exchange as well as the H+ efflux that is dependent on either K+ or anion (Cl, SCN, NO2) fluxes. Zn2+ is the more potent inhibitor, reducing by 50% the sensitive component of K+, Cl, and NO2 fluxes at about 20 microM; Mn2+ has a similar effect at 200 microM. Ni2+ and Co2+ were roughly equipotent to Mn2+ while Mg2+ and Ca2+ had no inhibitory effect. These results suggest that the stimulation-induced permeabilities, while functioning independently, may be physically linked, i.e., residing within a single entity. In similar studies carried out in (H+ + K+)-ATPase vesicles obtained from nonstimulated cells, no vestiges of sensitivity to the inhibitory divalent cations could be detected. The implications of these findings for the physiology of the oxyntic cell in the context of a model for membrane fusion are discussed.
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PMID:K+ and Cl- conductances in the apical membrane from secreting oxyntic cells are concurrently inhibited by divalent cations. 258 27

Thiamine triphosphatase (TTPase) from membranes isolated from the main electric organ of E. electricus is activated about 8 fold by NO3-, I- and SCN- while SO42- is inhibitory. Activating anions shift the pH optimum of the enzyme from 5.0 to 8.0. The enzyme is irreversibly inactivated by low concentrations of 4,4'-diisothiocyano-2,2' disulfonic acid (DIDS), an inhibitor of anion transport. Anions protect from DIDS inactivation. These and other results suggest that the membrane-bound TTPase activity is tightly controlled, possibly through mechanisms involving anion transport.
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PMID:Thiamine triphosphatase from Electrophorus electric organ is anion-dependent and irreversibly inhibited by 4,4'-diisothiocyanostilbene-2,2'disulfonic acid. 284 36

The interaction between SCH28080 and omeprazole, two specific inhibitors of gastric H+/K+-ATPase, was investigated using gastric glands and isolated gastric membranes. For gastric glands, inhibition of acid formation by SCH28080 was not reversed by washing whereas inhibition by omeprazole was partially reversed after washing. These features are opposite to what is found with isolated membranes. However, if gastric glands were permeabilized with digitonin after exposure to the inhibitors and recovery measured as ATP-dependent acid formation or H+/K+-ATPase activity, inhibition by SCH28080 was completely reversed while inhibition by omeprazole was non-reversible. Using a procedure of pretreatment with inhibitors followed by permeabilization and assay of recovered activity, it was found that a combined treatment with SCH28080 plus omeprazole prevented the irreversible inhibition by omeprazole, i.e. acid forming capability and ATPase activity were fully recovered. In order to test the possibility that SCH28080 prevented activation of omeprazole by dissipating an acid environment, control experiments were performed with SCN, which gave equivalent dissipation of the acid gradient but did not prevent the irreversible inhibition by omeprazole. These results were confirmed in isolated gastric membranes where residual p-nitrophenylphosphatase activity was assayed following exposure of acid transporting vesicles to omeprazole. Compared to control conditions, omeprazole inhibited 48% of the phosphatase activity whereas simultaneous addition of SCH28080 reduced the inhibition to 14%. The results therefore suggest that SCH28080 selectively blocks irreversible inhibition by omeprazole and thus that these two agents interact at a common region of the luminal aspect of the gastric H+/K+-ATPase.
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PMID:SCH28080 prevents omeprazole inhibition of the gastric H+/K+-ATPase. 284 79

Lysosomal H+-translocating ATPase (H+-ATPase) was solubilized with lysophosphatidylcholine and reconstituted into liposomes (Moriyama, Y., Takano, T. and Ohkuma, S. (1984) J. Biochem. (Tokyo) 96, 927-930). In this study, the sensitivities of membrane-bound, solubilized and liposome-incorporated ATPase to various anions and drugs were measured in comparison with those of similar forms of mitochondrial H+-ATPase (mitochondrial F0F1-ATPase) with the following results. (1) Bicarbonate and sulfite activated solubilized lysosomal H+-ATPase, but not the membrane-bound ATPase or ATPase incorporated into liposomes. All three forms of mitochondrial F0F1-ATPase were activated by these anions. (2) All three forms of both lysosomal H+-ATPase and mitochondrial F0F1-ATPase were strongly inhibited by SCN-, NO3- and F-, but scarcely affected by Cl-, Br- and SO2-4. (3) The solubilized lysosomal H+-ATPase was strongly inhibited by azide, quercetin, 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (NBD-Cl), 4-acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic acid (SITS), 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid (DIDS) and oligomycin. Its sensitivity was almost the same as that of mitochondrial F0F1-ATPase. Neither membrane-bound ATPase nor ATPase incorporated into liposomes was affected appreciably by these drugs. These results indicate that the sensitivity to anions and drugs of lysosomal H+-ATPase depends on the form of the enzyme and that the sensitivity of the solubilized lysosomal H+-ATPase is very similar to that of mitochondrial F0F1-ATPase. On the other hand, the two ATPases differ in their sensitivity to N-ethylmaleimide and pyridoxal phosphate: only the mitochondrial ATPase is inhibited by pyridoxal phosphate whereas only the lysosomal ATPase is inhibited by N-ethylmaleimide.
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PMID:Similarity of lysosomal H+-ATPase to mitochondrial F0F1-ATPase in sensitivity to anions and drugs as revealed by solubilization and reconstitution. 286 82

The renal medullary collecting duct (MCD) secretes protons into its lumen and HCO3 into its basolateral space. Basolateral HCO3 transport is thought to occur via Cl/HCO3 exchange. To further characterize this Cl/HCO3 exchange process, intracellular pH (pHi) regulation was monitored in freshly prepared rabbit outer MCD cells. Cells were separated by protease digestion and purified by Ficoll gradient centrifugation. pHi was estimated fluorometrically using the entrapped intracytoplasmic pH indicator, 6-carboxyfluorescein. Cells were preincubated in bicarbonate-containing solutions and then abruptly diluted into bicarbonate-free media. The MCD cell pHi response to abrupt removal of CO2/HCO3 included an initial alkalinization due to rapid CO2 efflux, followed by an acidification due to HCO3 efflux and a gradual recovery to the resting pHi of 7.24 +/- 0.06 partly due to the action of a plasma membrane H+-ATPase. The initial alkalinization required a CO2/HCO3 gradient and did not occur in the presence of acetazolamide. The acidification phase required intracellular HCO3 and extracellular Cl, which was consistent with a Cl/HCO3 exchange. MCD HCO3 efflux exhibited saturable kinetics for extracellular Cl, with a Michaelis constant (Km) of 29.9 +/- 7.7 mM. HCO3 efflux also exhibited preference for halides over NO3, SCN, and gluconate, and striking sensitivity to disulfonic stilbene and acetazolamide inhibition, with an apparent K1 of 5 X 10(-7) M for DIDS. The final pHi recovery required intracellular ATP, which indicated that Cl/HCO3 and H+-ATPase activities are present in the same cells in these suspensions. The results provide direct evidence for MCD Cl/HCO3 exchange and describe some of the properties of this transport process.
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PMID:Intracellular pH regulation in rabbit renal medullary collecting duct cells. Role of chloride-bicarbonate exchange. 287 Oct 45

1. ATPase natural inhibitor interacted in a mixed non-competitive manner with compounds affecting hydrolytic activity. 2. Ka's for DNP, HCO3- and free ATP, and Ki's for SCN- and ADP became smaller as inhibitor peptide concentration increased, reflecting an increase in affinity of F1-ATPase for these compounds induced by the peptide. 3. Activators increased the peptide inhibitory effect, whereas inhibitors decreased it. 4. A two-step model for the peptide-enzyme interaction is suggested in which ATP hydrolysis is a key factor.
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PMID:Interaction of F1-ATPase and its inhibitor peptide. Effect of dinitrophenol, nucleotides and anions. 290 84

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