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)

We investigated endogenous Na-K-ATPase inhibitors, i.e. ouabain-like factors(OLFs), in the urine of salt-loaded healthy subjects. During an intake of > 30g NaCl/day 24h-urines were collected, lyophilized, redissolved and acidified to pH 3.5. With gelchromatography the inhibitory activity eluted in a post-salt fraction FIV from Sephadex G-25. When this fraction was again passed through Sephadex G-10, one of three OLFs eluted in the early subfractions FIV/1-2 close to H-ouabain and cross-reacted strongly with a ouabain antibody (NEN). Two additional OLFs with Mr around 400 eluted in a late subfraction FIV/8 which resolved after reverse-phase HPLC into a more polar OLF- (water phase) and a more apolar OLF-2 (20% acetonitrile). Only the more apolar OLF-2 cross-reacted with digoxin and ouabain antibodies. OLF-1 and OLF-2 purified to single compounds by preparative thin layer chromatography inhibited Na-K-ATPase with IC50 of around 1.5 x 10(-5) M and 1.5 x 10(-4) M, respectively. Identification of OLF-2 was first attempted because most material was available for further processing. Data from mass-spectroscopy, nuclear magnetic resonance (1H-NMR) and infrared spectroscopy characterized OLF-2 as structurally unrelated to ouabain but resembling ascorbic acid derivatives, i.e. vanadium (V) diascorbates (Mr 403) with similar elution times from RP-HPLC as OLF-2. They inhibited the enzyme in its E2-configuration with IC50 of 9 x 10(-5) M and 2 x 10(-6) M for V(IV)- and V(V)-diascorbate, respectively. OLF-1, OLF-2 and V-diascorbate raise intracellular free calcium in inner medullary collecting duct and vascular smooth muscle cells which also contract in vitro. V-diascorbate was also natriuretic in a bioassay. We suggest that V-diascorbates represent one of several OLFs excreted in human urine.
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PMID:Ouabain-like factors in human urine: identification of a Na-K-ATPase inhibitor as vanadium-diascorbate adduct. 968 12

We have previously demonstrated that a 12 kD hypertension-associated protein (HAP) is elevated in essential hypertension and that this protein has the characteristics of natriuresis, inhibition of Na-K-ATPase, displaces 3H-ouabain from binding sites, and is vasoconstrictive in vitro. In the present study, plasma from 101 patients were examined [25 normals (N)<age 50, 13 N >age 50, 7 with acute congestive heart failure (CHF), 24 with chronic renal failure (CRF), on dialysis, 5 with idiopathic hyperaldosteronism (PA) and 27 with essential hypertension, untreated (EHT)]. Plasma was extracted with 32% acetonitrile, then analyzed by DELFIA for marinobufagenin and ouabain. In addition, from 32 patients (6 N <50, 6 N >50, 5 CHF, 5 CRF, 6 EHT, and 4 PA) SDS gradient gels were obtained. The 12 kD bands were extracted, analyzed for Na-K-ATPase inhibition, marinobufagenin and ouabain, and compared to 14 kD and 21 kD bands. Marinobufagenin was found to be elevated in CRF, EHT, PA and CHF. Ouabain was increased only in PA. When the relative optical densities of the 12 kD and 21 kD bands were contrasted, CRF, PA, and EHT were found to be increased and CHF to be decreased in the 12 kD band, with no discernible changes in the 21 kD bands. Following extraction of the bands, Na-K-ATPase inhibitory activity measured 38% in 18 pooled 12 kD bands, with essentially no activity found in the 14 kD or 21 kD bands. Thus only the 12 kD HAP band possessed all of the attributes of natriuretic hormone.
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PMID:Simultaneous measurement of marinobufagenin, ouabain, and hypertension-associated protein in various disease states. 968 18

Recently, an endogenous digitalis-like factor (EDLF) was shown to be stimulated in corticotropin (ACTH) hypertension in the rat. We have shown that mammalian plasma contains a vasoconstrictor Na,K-ATPase inhibitor, which cross-reacts with an antibody to amphibian EDLF, marinobufagenin. In the present experiment, the effect of 8 days of intramuscular ACTH treatment (0.5 mg/kg/day) of male Fisher 344 x NB rats on blood pressure, plasma ouabain-like and marinobufagenin-like immunoreactivity, and on the activity of Na,K-ATPase in aortic sarcolemma were studied. The ACTH treatment for 8 days resulted in increased systolic blood pressure (151 +/- 12.4 v 121 +/- 4.0 mm Hg, P < .01), inhibition of Na,K-ATPase in aortic sarcolemma (2.99 +/- 0.35 v 5.43 +/- 0.17 micromol ADP/mg(prot)/h), and increases in plasma concentration of marinobufagenin-like (0.44 +/- 0.06 v 0.21 +/- 0.05 nmol/L), but not ouabain-like (0.09 +/- 0.01 v 0.10 +/- 0.04 nmol/L) immunoreactivity. In dissociation enhanced lanthanide fluoroimmunoassay (DELFIA), serial dilutions of plasma from ACTH-treated rats extracted with 25% and 80% acetonitrile, respectively, demonstrated parallelism to the calibration curves of ouabain and marinobufagenin. These findings suggest that an endogenous bufodienolide Na,K-ATPase inhibitor, rather than an endogenous ouabain-like compound, is increased after 8 days of treatment of rats with ACTH.
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PMID:Plasma marinobufagenin-like and ouabain-like immunoreactivity in adrenocorticotropin-treated rats. 968 40

Gastric H+,K+-ATPase can be inhibited by imidazo pyridines like 2-methyl-8-[phenylmethoxy] imidazo-(1,2a) pyridine 3-acetonitrile (SCH 28080). The drug shows a high affinity for inhibition of K+-activated ATPase and for prevention of ATP phosphorylation. The inhibition by SCH 28080 can be explained by assuming that SCH 28080 binds to both the E2 and the phosphorylated intermediate (E2-P) forms of the enzyme. We observed recently that some mutants, in which glutamic acid 820 present in transmembrane domain six of the catalytic subunit had been replaced (E820Q, E820N, E820A), lost their K+-sensitivity and showed constitutive ATPase activity. This ATPase activity could be inhibited by similar SCH 28080 concentrations as the K+-activated ATPase of the wild-type enzyme. SCH 28080 also inhibited ATP phosphorylation at 21 degrees C of the mutants E820D, E820N, and E820A, although with varying efficacy and affinity. ATP-phosphorylation of mutant E820Q was not inhibited by SCH 28080; in contrast, the phosphorylation level at 21 degrees C was nearly doubled. These findings can be explained by assuming that mutation of Glu820 favors the E1 conformation in the order E820Q >E820A >E820N >wild-type = E820D. The increase in the phosphorylation level of the E820Q mutant can be explained by assuming that during the catalytic cycle the E2-P intermediate forms a complex with SCH 28080. This intermediate hydrolyzes considerably slower than E2-P and thus accumulates. The high tendency of the E820Q mutant for the E1 form is further supported by experiments showing that ATP phosphorylation of this mutant is rather insensitive towards vanadate, inorganic phosphate, and K+.
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PMID:Conformation-dependent inhibition of gastric H+,K+-ATPase by SCH 28080 demonstrated by mutagenesis of glutamic acid 820. 1005 39

The rabbit H,K-ATPase alpha- and beta-subunits were transiently expressed in HEK293 T cells. The co-expression of the H,K-ATPase alpha- and beta-subunits was essential for the functional H,K-ATPase. The K+-stimulated H,K-ATPase activity of 0.82 +/- 0.2 micromol/mg/h saturated with a K0.5 (KCl) of 0.6 +/- 0.1 mM, whereas the 2-methyl-8-(phenylmethoxy)imidazo[1,2a]pyridine-3-acetonitrile (SCH 28080)-inhibited ATPase of 0.62 +/- 0.07 micromol/mg/h saturated with a Ki (SCH 28080) of 1.0 +/- 0.3 microM. Site mutations were introduced at the N,N-dicyclohexylcarbodiimide-reactive residue, Glu-857, to evaluate the role of this residue in ATPase function. Variations in the side chain size and charge of this residue did not inhibit the specific activity of the H,K-ATPase, but reversal of the side chain charge by substitution of Lys or Arg for Glu produced a reciprocal change in the sensitivity of the H,K-ATPase to K+ and SCH 28080. The K0.5 for K+stimulated ATPase was decreased to 0.2 +/-.05 and 0.2 +/-.03 mM, respectively, in Lys-857 and Arg-857 site mutants, whereas the Ki for SCH 28080-dependent inhibition was increased to 6.5 +/- 1.4 and 5.9 +/- 1.5 microM, respectively. The H,K-ATPase kinetics were unaffected by the introduction of Ala at this site, but Leu produced a modest reciprocal effect. These data indicate that Glu-857 is not an essential residue for cation-dependent activity but that the residue influences the kinetics of both K+ and SCH 28080-mediated functions. This finding suggests a possible role of this residue in the conformational equilibrium of the H,K-ATPase.
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PMID:Glu-857 moderates K+-dependent stimulation and SCH 28080-dependent inhibition of the gastric H,K-ATPase. 1032 34

The H,K-ATPase responsible for gastric acidification is a heterodimeric (alpha and beta subunit) P-type ATPase, an integral protein of parietal cell apical membranes, which promotes the electroneutral exchange of K+ for protons, is stimulated by K+ and is inhibited by 2-methyl-8-(phenylmethoxy)imidazo[1, 2-alpha]pyridine-3-acetonitrile (SCH 28080). Hydropathy analysis of the catalytic alpha subunit has been interpreted in terms of four N-terminal transmembrane domains, a cytoplasmically oriented segment containing ATP binding and phosphorylation sites, and a C-terminal region with four or six putative transmembrane domains. Several lines of evidence implicate the C-terminal region of P-type ATPases in cation-binding and occlusion, conformational changes, and interactions with the beta subunit (HKbeta), making the definition of topology a prerequisite for understanding the structural basis of these functions. Influenza haemagglutinin epitopes (YPYDVPDYA; flu tag) were inserted in predicted hydrophilic segments of the alpha subunit (HKalpha) to establish the membrane orientation of two amino acids with different predicted topologies in the C-terminal four- and six-transmembrane models. Wild-type and mutated HKalpha and HKbeta cDNA species were expressed in insect cells (Sf9) via recombinant baculovirus infection, and expression of H,K-ATPase was verified by immunoblotting with HKalpha- and HKbeta-specific and flu-tag-specific antibodies. Functional assays showed K+-stimulated, SCH 28080-sensitive ATPase activity, confirming neo-native topology in H,K-ATPase heterodimers expressed in Sf9 cells. The topology of flu tags was determined by microsomal protease protection assays in Sf9 cells and immunolabelling of HKalpha and HKbeta in intact and permeabilized Sf9 cells. In addition, MS of native H,K-ATPase tryptic peptides identified cytoplasmically oriented HKalpha residues. The results indicated cytoplasmic exposure of Leu844 and Phe996, and luminal exposure of Pro898, leading to a revised secondary structure model of the C-terminal third of HKalpha.
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PMID:H,K-ATPase alpha subunit C-terminal membrane topology: epitope tags in the insect cell expression system. 1035 43

Recently, a gastric Mg(2+)-ATP-dependent phospholipid flippase was found. Here, the effects of ionophores and monovalent cations on the gastric flippase were examined. We found that translocation of the fluorescent analogue of phosphatidylcholine was inhibited by valinomycin in the presence of K(+). The inhibition depended on both the concentrations of valinomycin and K(+). Valinomycin did not inhibit translocation in the absence of K(+). Protonophores, carbonylcyanide-m-chlorophenylhydrazone (CCCP) and carbonylcyanide-p-(trifluoromethoxy)phenylhydrazone (FCCP), accelerated translocation by 190-270%. These increases were completely abolished by 2-methyl-8-(phenylmethoxy)imidazo-[1, 2-a]pyridine-3-acetonitrile (SCH 28080), a gastric flippase inhibitor. Since these protonophores did not affect the Mg(2+)-dependent ATPase activity that is responsible for phospholipid translocation by the flippase, the coupling ratio of the amount of transported phospholipids/the amount of hydrolyzed ATP was variable and seemed to depend on the state of the membrane bilayer, for example fluidity. Inhibition by the valinomycin-K(+) complex was abolished in the presence of CCCP or FCCP, indicating the valinomycin-K(+)-CCCP(FCCF) ternary complex did not inhibit the flippase.
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PMID:Effects of ionophores on the phospholipid flippase activity of gastric vesicles. 1060 27

There is very little on the affinity of the human immunoreactive ouabainlike substance (OLS) to individual alpha-isoforms of Na+,K+-ATPase. The present study addresses this issue by comparing ouabain and OLS binding to dog kidney alpha1, rabbit kidney alpha1 and porcine cerebral cortex alpha3 Na+,K+-ATPase. OLS was initially isolated by solid phase extraction from human serum using C18 columns. The extract was further purified by reverse phase HPLC in an acetonitrile/water (containing 0.1% TFA) step-up gradient (16-80%). In this system, two distinct ouabain immunoreactive peaks were resolved. Peak I demonstrated a polarity identical with that of authentic ouabain. In contrast, peak II was relatively non-polar and eluted later in the run. The final step in the purification of OLS involved immuno-affinity chromatography of peak I using a specific sepharose immobilized mouse monoclonal anti-ouabain antiserum. Dose response curves (range 0-100 nmol/l) for ouabain with canine alpha1 and porcine alpha3 Na+,K+-ATPase showed similar inhibitory profiles (IC50=15 nmol/l), whilst rabbit alpha1 Na+,K+-ATPase was relatively insensitive to ouabain and purified peak I OLS. Two fold serial dilution of Peak I OLS, with subsequent analysis by canine and porcine Na+,K+-ATPase inhibition assays and RIA, demonstrated strong positive correlations between OLS determined by RIA and both canine (y=0.945x-2.532, r2=0.977) and porcine (y=0.428x-1.685; r2=0.993) Na+,K+-ATPase assays. The difference in the respective slopes suggests, however, that peak I OLS has a greater affinity for the canine derived enzyme compared to the porcine. In conclusion, these data suggest that like authentic ouabain, peak I OLS is a-isoform and species selective.
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PMID:Binding of ouabain and human ouabainlike substance to different Na+, K+-ATPase isoforms. 1101 19

Stable cell lines expressing the gastric proton pump alpha- and/or beta-subunits were constructed. The cell line co-expressing the alpha- and beta-subunits showed inward Rb(+) transport, which was activated by Rb(+) in a concentration-dependent manner. In the alpha+beta-expressing cell line, rapid recovery of intracellular pH was also observed after acid load, indicating that this cell line transported protons outward. These ion transport activities were inhibited by a proton pump inhibitor, 2-methyl-8-(phenylmethoxy)imidazo[1,2-a]pyridine-3-acetonitrile (SCH 28080). In a membrane fraction of the alpha+beta-expressing cell line, K(+)-stimulated ATPase (K(+)-ATPase) activity and the acylphosphorylation of the alpha-subunit were observed, both of which were also inhibited by SCH 28080. The specific activity and properties of the K(+)-ATPase were comparable to those found in the native gastric proton pump. In the stable cell lines, the alpha-subunit was retained in the intracellular compartment and was unstable in the absence of the beta-subunit, but it was stabilized and reached the cell surface in the presence of the beta-subunit. On the other hand, the beta-subunit was stable and able to travel to the cell surface in the absence of the alpha-subunit. These cell lines are ideal for the structure-function study of ion transport by the gastric proton pump as well as for characterization of the cellular regulation of surface expression of the functional proton pump.
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PMID:Stable expression of gastric proton pump activity at the cell surface. 1203 90

2-Methyl-8-(phenylmethoxy)imidazo[1,2-a]pyridine-3-acetonitrile (SCH 28080) is a reversible inhibitor specific for the gastric proton pump. The inhibition pattern is competitive with K(+). Here we studied the binding sites of this inhibitor on the putative three-dimensional structure of the gastric proton pump alpha-subunit that was constructed by homology modeling based on the structure of sarcoplasmic reticulum Ca(2+) pump. Alanine and serine mutants of Tyr(801) located in the fifth transmembrane segment of the gastric proton pump alpha-subunit retained the (86)Rb transport and K(+)-dependent ATPase (K(+)-ATPase) activities. These mutants showed 60-80-times lower sensitivity to SCH 28080 than the wild type in the (86)Rb transport activity. The K(+)-ATPase activities of these mutants were not completely inhibited by SCH 28080. The sensitivity to SCH 28080 was dependent on the bulkiness of the side chain at this position. Therefore, the side chain of Tyr(801) is important for the interaction with this inhibitor. In the three-dimensional structure of the E(2) form (conformation with high affinity for K(+)) of the gastric proton pump, Tyr(801) faces a cavity surrounded by the first, fourth, fifth, sixth, and eighth transmembrane segments and fifth/sixth, seventh/eighth, and ninth/tenth loops. SCH 28080 can dock in this cavity. However, SCH 28080 cannot dock in the same location in the E(1) form (conformation with high affinity for proton) of the gastric proton pump due to the drastic rearrangement of the transmembrane helices between the E(1) and E(2) forms. These results support the idea that this cavity is the binding pocket of SCH 28080.
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PMID:The cavity structure for docking the K(+)-competitive inhibitors in the gastric proton pump. 1469 49


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