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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)
Tetrammine cobalt(III) phosphate [Co(
NH3
)4PO4] inactivates Na+/K(+)-
ATPase
in the E2 conformational state, dependent on time and concentration, according to Eqn (1): Co(
NH3
)4PO4 + E2 Kd in equilibrium E2.Co(
NH3
)4PO4k2----E'2.Co(
NH3
)4PO4. The inactivation rate constant k2 for the formation of a stable E'2.Co(
NH3
)4PO4 at 37 degrees C was 0.057 min-1; the dissociation constant, Kd = 300 microM. The activation energy for the inactivation process was 149 kJ/mol. ATP and the uncleavable adenosine 5'-[beta, gamma-methylene]triphosphate competed with Co(
NH3
)4PO4 for its binding site with Ks = 0.41 mM and 5 mM, respectively. MgPO4 competed with Co(
NH3
)4PO4 linearly, with Ks = 50 microM, as did phosphate (Ks = 16 mM) and Mg2+ (Ks = 160 microM). It is concluded that the MgPO4 analogue binds to the MgPO4-binding subsite of the low-affinity ATP-binding site (of the E2 conformation). Also, Na+ (Ks = 860 microM) protected the enzyme against inactivation in a competitive manner. From the intersecting (slope and intercept linear) noncompetitive effect of Na+ against the inactivation by Co(
NH3
)4PO4, apparent affinities of K+ for the free enzyme of 41 microM, and for the E.Co(
NH3
)4PO4 complex of 720 microM, were calculated. Binding of Co(
NH3
)4PO4 to the enzyme inactivated Na+/K(+)-
ATPase
and K(+)-activated phosphatase, and, moreover, prevented the occlusion of 86Rb+; however, the activity of the Na(+)-
ATPase
, the phosphorylation capacity of the high-affinity ATP-binding site and the ATP/ADP-exchange reaction remained unchanged. With Co(
NH3
)432PO4 a binding capacity of 135 pmol unit enzyme was found. Phosphorylation and complete inactivation of the enzyme with Co(
NH3
)432PO4 or the 32P-labelled tetramminecobalt ATP ([gamma-32P]Co(
NH3
)4ATP) at the low-affinity ATP-binding site, allowed (independent of the purity of the Na+/K(+)-
ATPase
preparation) a further incorporation of radioactivity from 32P-labelled tetraaquachromium(III) ATP ([gamma-32P]CrATP) to the high-affinity ATP-binding site with unchanged phosphorylation capacity. However, inactivation and phosphorylation of Na+/K(+)-
ATPase
by [gamma-32P]CrATP prevented the binding of Co(
NH3
)4 32PO4 or [gamma-32P]Co(
NH3
)4ATP to the enzyme. [gamma-32P]CO(
NH3
)4ATP and Co(
NH3
)432PO4 are mutually exclusive. The data are consistent with the assumption of a cooperation of catalytic subunits within an (alpha,beta)2-diprotomer, which change their interactions during the Na+/K(+)-pumping process. Our findings seem not to support a symmetrical Repke and Stein model of enzyme action.
...
PMID:Phosphate binding and ATP-binding sites coexist in Na+/K(+)-transporting ATPase, as demonstrated by the inactivating MgPO4 complex analogue Co(NH3)4PO4. 184 80
We have described the overall process that is responsible for the efficient transfer of ammonium from its production site in the proximal tubule cells to the final urine. The mechanism depends on direct NH4+ transport at a number of sites. There appears to be a predominance of
NH3
over NH4+ transport in net total ammonia transport only in the collecting ducts and possibly the descending limbs of Henle's loop. Several examples of physiologically important direct NH4+ transport in the kidney were described. First, coupled Na/NH4/2Cl transport across the apical membrane of the thick ascending limb of Henle's loop mediates secondary active transport of ammonium, which drives countercurrent multiplication of ammonium in the renal medulla. Second, part of the NH4+ uptake across the apical membrane of the thick ascending limb may occur as a result of penetration by NH4+ through apical K+ channels. It is unknown whether NH4+ penetrates K+ channels in other tubule segments. Third, NH4+ can be actively transported into cells by substitution of NH4+ for K+ on the Na-K-
ATPase
. This NH4+ transport process is likely to be rapid enough to be physiologically significant only in the inner medulla, where NH4+ concentrations are high enough to successfully compete with K+. Fourth, NH4+ penetrates the paracellular pathway in some nephron segments such as the proximal tubule and thick ascending limb. Simple passive diffusion of NH4+ via the paracellular pathway is thought to be physiologically important in the thick ascending limb where it contributes to net NH4+ absorption.
...
PMID:NH4+ transport in the kidney. 189 Aug 4
The production of 14CO2 from uniformly labeled glucose was shown to account for the entire increase in histamine-stimulated O2 consumption in rabbit gastric glands when no other substrate was added to the medium. The increased production of CO2 was correlated to the increase in O2 consumption and the accumulation of [14C]-aminopyrine (AP) after stimulation with several secretagogues. Inhibitors of H(+)-K(+)-
ATPase
reduced the secretagogue-induced increase in CO2 production by greater than 90%, showing that the activity of this enzyme was responsible for the greater part of gastric gland metabolism under stimulated conditions. In contrast to AP accumulation, inhibition of CO2 production by omeprazole, an acid-activated inhibitor of the H(+)-K(+)-
ATPase
, was not reversed by washing. The reversal of AP accumulation after omeprazole treatment and washing was most likely due to a recruitment of residual pumps bordering a nonacidic space, which had not previously been inhibited by omeprazole. These residual pumps slowly generate a pH gradient and hence AP uptake. Adding NH4+ to gastric glands resulted in a concentration-dependent increase of CO2 production up to the maximal stimulated level but without formation of the pH gradient as measured by AP uptake and loss of the omeprazole inhibition of glucose oxidation. As NH4+ can act as a K+ surrogate for H(+)-K(+)-
ATPase
, and as
NH3
is membrane permeant, full stimulation of CO2 production is evidence that the major mechanism of H(+)-K(+)-
ATPase
activation in situ is an increase in the KCl permeability of the pump membrane.
...
PMID:Coupling of H(+)-K(+)-ATPase activity and glucose oxidation in gastric glands. 215 39
The exchange-inert tetra-ammino-chromium complex of ATP [Cr(
NH3
)4ATP], unlike the analogous cobalt complex Co(
NH3
)4ATP, inactivated Na+/K(+)-
ATPase
slowly by interacting with the high-affinity ATP binding site. The inactivation proceeded at 37 degrees C with an inactivation rate constant of 1.34 x 10(-3) min-1 and with a dissociation constant of 0.62 microM. To assess the potential role of the water ligands of metal in binding and inactivation, a kinetic analysis of the inactivation of Na+/K(+)-
ATPase
by Cr(
NH3
)4ATP, and its H2O-substituted derivatives Cr(
NH3
)3(H2O)ATP, Cr(
NH3
)2(H2O)2ATP and Cr(H2O)4ATP was carried out. The substitution of the H2O ligands with
NH3
ligands increased the apparent binding affinity and decreased the inactivation rate constants of the enzyme by these complexes. Inactivation by Cr(H2O)4ATP was 29-fold faster than the inactivation by Cr(
NH3
)4ATP. These results suggested that substitution to Cr(III) occurs during the inactivation of the enzyme. Additionally hydrogen bonding between water ligands of metal and the enzyme's active-site residues does not seem to play a significant role in the inactivation of Na+/K(+)-
ATPase
by Cr(III)-ATP complexes. Inactivation of the enzyme by Rh(H2O)nATP occurred by binding of this analogue to the high-affinity ATP site with an apparent dissociation constant of 1.8 microM. The observed inactivation rate constant of 2.11 x 10(-3) min-1 became higher when Na+ or Mg2+ or both were present. The presence of K+ however, increased the dissociation constant without altering the inactivation rate constant. High concentrations of Na+ reactivated the Rh(H2O)nATP-inactivated enzyme. Co(
NH3
)4ATP inactivates Na+/K(+)-
ATPase
by binding to the low-affinity ATP binding site only at high concentrations. However, inactivation of the enzyme by Cr(III)-ATP or Rh(III)-ATP complexes was prevented when low concentrations of Co(
NH3
)4ATP were present. This indicates that, although Co(
NH3
)4ATP interacts with both ATP sites, inactivation occurs only through the low-affinity ATP site. Inactivation of Na+/K(+)-
ATPase
was faster by the delta isomer of Co(
NH3
)4ATP than by the delta isomer. Co(
NH3
)4ATP, but not Cr(H2O)4ATP or adenosine 5'-[beta,gamma-methylene]triphosphate competitively inhibited K(+)-activated p-nitrophenylphosphatase activity of Na+/K(+)-
ATPase
, which is assumed to be a partial reaction of the enzyme catalyzed by the low-affinity ATP binding site.
...
PMID:How do MgATP analogues differentially modify high-affinity and low-affinity ATP binding sites of Na+/K(+)-ATPase? 216 62
To examine mechanisms of H+ extrusion in the inner stripe of outer medullary collecting duct (OMCDIS), cell pH (pHi) was measured microfluorometrically in in vitro perfused tubules by use of 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein. In total absence of luminal and peritubular Na+, pHi recovery from an acid load (
NH3
/NH+4 pulse) occurred at an initial rate of 0.13 +/- 0.02 pH units/min, whereas in the presence of 135 mM peritubular Na+, pHi recovered at 1.40 +/- 0.28 pH units/min. Na(+)-dependent pHi recovery was completely inhibited by 1.0 mM peritubular amiloride. Luminal Na+ (135 mM) addition had no effect on pHi recovery. Na(+)-independent pHi recovery from acid load was manifest by a triphasic response: 1) initial slow alkalinization; 2) slow cell acidification; and 3) a final phase that exhibited gradually increasing rates of alkalinization, returning pHi above the initial control level (pre-
NH3
/NH+4 pulse). Luminal N-ethylmaleimide (NEM, 500 microM), an H(+)-
ATPase
inhibitor, significantly inhibited initial rate of pHi recovery and total pHi recovery; whereas 500 microM peritubular NEM had no effect on initial rate of pHi recovery. Luminal SCH 28080 (100 microM), an H(+)-K(+)-
ATPase
inhibitor, had no effect on initial rate of pHi recovery or total pHi recovery. Thus rabbit OMCDIS possesses both an apical membrane NEM-sensitive, SCH 28080-insensitive, Na(+)-independent H+ extrusion mechanism (likely a simple H(+)-translocating
ATPase
) and a basolateral membrane amiloride-sensitive Na(+)-H+ antiporter.
...
PMID:Apical and basolateral membrane H+ extrusion mechanisms in inner stripe of rabbit outer medullary collecting duct. 217 59
We have studied the properties of membrane-bound
ATPase
of a facultatively anaerobic alkalophile. The enzyme could not be solubilized without detergent, suggesting an integral membrane protein. The activity was accelerated by NH4+ and acetate anion, and inhibited by
NH3
-. The enzyme required Mg2+ or Mn2+ as a divalent cation for the maximal activity. In addition to ATP, the enzyme utilized other triphosphates of nucleosides as a substrate, but not di- nor monophosphates. The enzyme was suggested to crossreact with an antibody against the alpha-subunit of Na+/K+-
ATPase
from dog kidney.
...
PMID:Characterization of the membrane-bound ATPase from a facultatively anaerobic alkalophile. 252 97
The UTP-dependent
ATPase
reaction and the glutamine-dependent overall reaction of Escherichia coli CTP synthetase have been studied by rapid quench and isotope partitioning kinetics. The effect of GTP, an allosteric effector, on the pre-steady-state kinetics of both reactions has also been examined. The time courses of the UTP-dependent
ATPase
reaction in the presence and absence of GTP are both characterized by a burst of acid-labile phosphate equivalent to 0.93 and 0.43 subunits, respectively. The time course of the glutamine-dependent reaction in the absence of GTP is also characterized by a burst of acid-labile phosphate corresponding to 0.8 subunit; however, in the presence of GTP, no burst was observed. These results along with positional isotope exchange experiments [von der Saal, W., Anderson, P. M., & Villafranca, J. J. (1985) J. Biol. Chem. 260, 14997] provide evidence that the mechanism of CTP formation involves phosphorylation of UTP followed by attack of
NH3
, and finally release of phosphate, producing CTP, ADP, and Pi. A kinetic model for the first stages of the enzymatic reaction was developed from the rapid quench data, and the internal equilibrium constant for the formation of the phosphorylated UTP intermediate was determined. The internal equilibrium constants for the UTP-dependent reaction in the presence and absence of GTP were found to be 1.1 and 18, respectively. By contrast, the internal equilibrium constant for the reaction in the presence of glutamine was 50. Thus, the presence of glutamine shifts the internal equilibrium constant to favor formation of the phosphorylated UTP intermediate.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Investigation of the mechanism of CTP synthetase using rapid quench and isotope partitioning methods. 253 43
Transferred nuclear Overhauser effect measurements (in the two-dimensional mode) have been used to determine the three-dimensional conformation of an ATP analogue, Co(
NH3
)4ATP, at the active site of sheep kidney Na,K-
ATPase
. Previous studies have shown that Co(
NH3
)4ATP is a competitive inhibitor with respect to MnATP for the Na,K-
ATPase
[Klevickis, C., & Grisham, C.M. (1982) Biochemistry 21, 6979. Gantzer, M.L., et al. (1982) Biochemistry 21, 4083]. Nine unique proton-proton distances on
ATPase
-bound Co(
NH3
)4ATP were determined from the initial build-up rates of the cross-peaks of the 2D-TRNOE data sets. These distances, taken together with previous 31P and 1H relaxation measurements with paramagnetic probes, are consistent with a single nucleotide conformation at the active site. The bound Co(
NH3
)4ATP) adopts an anti conformation, with a glycosidic torsion angle of 35 degrees, and the conformation of the ribose ring is slightly N-type (C2'-exo, C3'-endo). The delta and gamma torsional angles in this conformation are 100 degrees and 178 degrees, respectively. The nucleotide adopts a bent configuration, in which the triphosphate chain lies nearly parallel to the adenine moiety. Mn2+ bound to a single, high-affinity site on the
ATPase
lies above and in the plane of the adenine ring. The distances from enzyme-bound Mn2+ to N6 and N7 are too large for first coordination sphere complexes, but are appropriate for second-sphere complexes involving, for example, intervening hydrogen-bonded water molecules. The NMR data also indicate that the structure of the bound ATP analogue is independent of the conformational state of the enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Nuclear Overhauser effect studies of the conformation of Co(NH3)4ATP bound to kidney Na,K-ATPase. 254 90
Purified membrane-bound Na,K-
ATPase
incubated with cobalt-tetrammine-ATP [Co(
NH3
)4ATP], which is a stable MgATP complex analog, shows two new types of membrane crystals, a new p21 form and a p4 form. The building blocks of the crystalline arrays correspond to (alpha beta)2 dimers of the enzyme protein suggesting that alpha-alpha interaction may be important in the pumping process.
...
PMID:Two-dimensional crystalline arrays of Na,K-ATPase with new subunit interactions induced by cobalt-tetrammine-ATP. 256 64
A plasma membrane proton-translocating
adenosinetriphosphatase
(
ATPase
) has been identified in rat alveolar pneumocytes in primary culture using the pH-sensitive fluorescent probe 2',7'-biscarboxyethyl-5,6-carboxyfluorescein. Intracellular pH (pHi) was acutely lowered by
NH3
prepulse in HCO3(-)-free medium buffered with 6 mM N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid, and its recovery was measured thereafter under control conditions, in the presence of amiloride to inhibit Na(+)-H+ antiport, and in the presence of N-ethylmaleimide (NEM), a plasma membrane H(+)-
ATPase
inhibitor. Initial rate of pHi recovery was reduced by 67% in the presence of amiloride, 52% in the presence of NEM, and 96% in the presence of both. Recovery was decreased but not abolished in Na(+)-free buffer, was essentially abolished when NEM was present in the absence of Na+, and was also abolished by addition of the metabolic inhibitor KCN in glucose- and Na(+)-free medium. These data suggest that alveolar epithelial cells possess a plasma membrane H(+)-
ATPase
. In Na(+)-containing buffer at pH 7.4, steady-state pHi was 7.50. This value was unaffected by amiloride but decreased to 7.01 in the presence of NEM, suggesting active H(+)-
ATPase
and inactive Na(+)-H+ antiport at steady-state pHi. We conclude that this plasma membrane proton-translocating ATPase in alveolar pneumocytes may be an important mechanism contributing to regulation of steady-state pHi, recovery from acute intracellular acidification, and modulation of extracellular alveolar fluid pH.
...
PMID:Evidence for active H+ secretion by rat alveolar epithelial cells. 261 Feb 71
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