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)

To define proton transport mechanisms involved in the regulation of intracellular pH (pHi) in cells of the inner medullary collecting duct (IMCD), pHi and cell membrane potential were estimated by using the fluorescent dyes 2,7-biscarboxyethyl-5(6)-carboxyfluorescein and 3,3'-dipropylthiadicarbocyanine iodide, respectively, in suspensions of freshly isolated rabbit IMCD cells. The resting pHi of IMCD cells in nonbicarbonate Ringer's solution (pH 7.4) was 7.21 +/- 0.03 (mean +/- SE). When cells were acidified by ammonium withdrawal, the initial pHi recovery rate was 0.33 +/- 0.02 pH unit/min; replacement of extracellular Na+ (130 mM) with N-methyl-D-glucamine+ reduced the pHi recovery rate to 0.08 +/- 0.02 pH unit/min, while addition of 0.1 mM amiloride in the presence of extracellular Na+ reduced the rate of pHi recovery to 0.02 +/- 0.02 pH unit/min. Similar results were obtained in cells acid loaded with HCl. Cells recovering from acidification exhibited 22Na+ uptake rates threefold higher than did nonacidified cells. The rate of Na(+)-dependent pHi recovery was independent of the cell membrane potential. In the absence of extracellular Na+, depolarizing cell membrane potential in a stepwise manner by increasing extracellular K+ concentrations from 1 to 130 mM resulted in graded increments in the rate of pHi recovery. In the presence of 130 mM K+, the pHi recovery rate in acidified cells was dependent on cellular ATP levels, sensitive to 1 mM N-ethylmaleimide, and insensitive to 0.01 mM oligomycin in the presence of glucose (control, 0.24 +/- 0.01; ATP-depleted, 0.13 +/- 0.02; addition of N-ethylmaleimide, 0.16 +/- 0.01; addition of oligomycin, 0.27 +/- 0.02 pH unit/min). ATP depletion markedly inhibited H+ extrusion from IMCD cells measured by using a pH stat. These results provide direct evidence in freshly isolated IMCD cells that both a Na+:H+ antiporter and a rheogenic H(+)-ATPase participate in pHi regulation.
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PMID:Intracellular pH regulation in freshly isolated suspensions of rabbit inner medullary collecting duct cells: role of Na+:H+ antiporter and H(+)-ATPase. 196 25

Although numerous studies have documented the effects of the renal nerves on kidney function, the mechanisms involved in the diuresis have yet to be elucidated. The present study was undertaken to examine the effect of acute unilateral renal denervation (DNX) on proximal tubular absorption of fluid and bicarbonate and to determine if acute DNX was associated with changes in Na-K-ATPase activity. Acute DNX caused significant increases in urine flow and absolute and fractional excretions of Na, HCO3 and K compared to the contralateral control kidney (INN) or sham denervated kidneys in normal rats as well as in rats made alkalotic by the I.V. infusion of 150 mM NaHCO3. These effects were seen without significant changes in GFR. When proximal convoluted tubules (PCT) were perfused with bicarbonate-Ringer's solution DNX resulted in a 67% decrease in fluid reabsorption (INN: 3.0 +/- 0.2 vs DNX: 1.0 +/- 0.1 nl/min/mm; p less than 0.001) and a 40% decline in bicarbonate (total CO2) reabsorption (INN: 151.3 +/- 8.8 vs DNX: 94.5 +/- 10.1 pmol/min/mm; p less than 0.01). Acute DNX caused a significant reduction in Na-K-ATPase activity measured in microsomes derived from the outer cortex of the kidney (INN: 13.2 +/- 1.3 vs DNX: 10.9 +/- 0.7 mumol PO4/mg prot/hr; p less than 0.01) while Mg-ATPase was unaffected. Sham denervation had no effect on any of the above parameters. These results indicate that the renal nerves play an important role in the regulation of bicarbonate and fluid reabsorption in the PCT. The diuresis, natriuresis, and bicarbonaturia associated with acute unilateral renal denervation may be the direct result of inhibition of Na-K-ATPase activity.
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PMID:Sodium and bicarbonate reabsorption in microperfused proximal tubules from the denervated rat kidney: relationship to cortical Na-K-ATPase activity. 217 83

Acid-acetone extracts of brain (from beef and guinea pig) and chlormadinone acetate (CMA) were compared with ouabain for their ability to inhibit the electrogenic Na+,K+-pump and the Na+,K+-ATPase of neuronal tissues. The membrane potential of neurones in the paravertebral sympathetic ganglion of the bullfrog was recorded in K+-free Ringer's solution by means of the sucrose gap technique. The potassium activated hyperpolarization (K+H), induced by the re-introduction of potassium, was used as an index of electrogenic Na+, K+-pumping. The K+H was blocked by 1 microM ouabain. Na+,K+-ATPase activity was measured in microsomal membrane preparations of frog and beef brain using a continuous spectrophotometric assay. Although ouabain consistently inhibited beef brain Na+,K+-ATPase (IC50 = 2.2 microM), acid-acetone extracts prepared from guinea pig and beef brain produced only partial inhibition. Neither of the extracts significantly reduced the K+H of the frog ganglion. CMA inhibited Na+,K+-ATPase prepared from bullfrog brain and spinal cord with slightly greater potency (IC50 = 4.5 microM) than did ouabain (IC50 = 10 microM). In contrast, electrogenic Na+,K+-pumping (i.e. the K+H) in the frog ganglion was not affected by this steroid. It is concluded that although both the extracts and CMA inhibited Na+,K+-ATPase, neither can be considered ouabain-like due to their failure to affect the electrogenic Na+,K+-pump in situ.
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PMID:Effects of mammalian brain extracts and chlormadinone acetate on neuronal Na+,K+-ATPase and electrogenic Na+,K+-pump activity in vitro. 241 48

The initial mechanisms of injury to the proximal tubule following exposure to nephrotoxic heavy metals are not well established. We studied the immediate effects of silver (Ag+) on K+ transport and respiration with extracellular K+ and O2 electrodes in suspensions of renal cortical tubules. Addition of silver nitrate (AgNO3) to tubules suspended in bicarbonate Ringer's solution caused a rapid, dose-dependent net K+ efflux (Km = 10(-4) M, Vmax = 379 nmol K+/min/mg protein) which was not inhibited by furosemide, barium chloride, quinine, tetraethylammonium, or tolbutamide. An increase in the ouabain-sensitive oxygen consumption rate (QO2) (13.9 +/- 1.1 to 25.7 +/- 4.4 nmol O2/min/mg, P less than 0.001), was observed 19 sec after the K+ efflux induced by AgNO3 (10(-4) M), suggesting a delayed increase in Na+ entry into the cell. Ouabain-insensitive QO2, nystatin-stimulated QO2, and CCCP-uncoupled QO2 were not significantly affected, indicating preserved function of the Na+,K+-ATPase and mitochondria. External addition of the thiol reagents dithiothreitol (1 mM) and reduced glutathione (1 mM) prevented and/or immediately reversed the effects on K+ transport and QO2. We conclude that Ag+ causes early changes in the permeability of the cell membrane to K+ and then to Na+ at concentrations that do not limit Na+,K+-ATPase activity or mitochondrial function. These alterations are likely the result of a reversible interaction of Ag+ with sulfhydryl groups of cell membrane proteins and may represent initial cytotoxic effects common to other sulfhydryl-reactive heavy metals on the proximal tubule.
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PMID:Silver ion (Ag+)-induced increases in cell membrane K+ and Na+ permeability in the renal proximal tubule: reversal by thiol reagents. 245 93

Electrogenic Na absorption, independent of either nutrients or other ions, occurs in the rabbit ileum. However, unlike electrogenic Na absorption in the distal colon and other tight epithelia, this ileal transport system is not inhibited by amiloride. Because of this amiloride insensitivity, ileal electrogenic Na absorption has been poorly characterized. To more clearly delineate the underlying mechanisms of this pathway, we examined the effects of phenamil, an amiloride analogue, on ion fluxes and electrical parameters in rabbit ileum in vitro under short-circuit conditions. Phenamil has been shown to have a high affinity for Na channels, but minimal effect on Na-H exchange. Amiloride (10(-8) through 10(-4) M) had a minimal effect on short-circuit current. In contrast, phenamil induced a significant decrease in short-circuit current; the maximal effect was seen at 10(-4) M phenamil. There was an associated decrease in conductance at 10(-4) M phenamil. Ion flux studies were performed in normal, chloride-free and bicarbonate-free Ringer's solution; under each condition, 10(-4) M phenamil inhibited mucosal-to-serosal Na flux, net Na flux, and short-circuit current without significantly altering other fluxes. Phenamil did not inhibit the electrical response to either 10 mM glucose or 1 mM theophylline, indicating that the drug did not block either nutrient-coupled electrogenic Na absorption or electrogenic Cl secretion, and did not inhibit sodium-potassium-stimulated adenosine triphosphatase. These results demonstrate that electrogenic Na absorption in rabbit ileum may be blocked by the amiloride analogue phenamil, suggesting that, in this epithelium, Na absorption may occur via Na channels in which the amiloride-binding site has been significantly altered.
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PMID:Phenamil inhibits electrogenic sodium absorption in rabbit ileum. 253 78

To evaluate possible roles of endogenous Na+-K+-ATPase inhibitors in vasoconstricted blood pressure elevation produced by acute volume expansion, we administered ouabain (Na+-K+-ATPase inhibitor) intravenously (30 micrograms/kg) for 10 min to dogs, 3 h after volume expansion with dextran in lactated Ringer's solution (20 ml/kg, for 1 h). Acute volume expansion resulted in the elevation of blood pressure associated with an increase in cardiac output. In some dogs the blood pressure remained elevated with gradual increase in total peripheral resistance (Group I) or with sustained high cardiac output (Group II), and in other dogs (Group III) it returned to the control level. Ouabain administration elevated the blood pressure and total peripheral resistance in these groups and sham dogs which did not have volume expansion. And these effects of ouabain were not correlated with the degree of blood pressure or vasoconstriction produced by volume expansion. Thus, it is not likely that endogenous Na+-K+-ATPase inhibitors increased to produce vasoconstricted hypertension after acute volume expansion.
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PMID:Effect of ouabain on hemodynamics in acute volume expanded hypertensive dogs. 254 71

Isolated hepatocytes from the elasmobranch Raja erinacea were examined for their regulatory responses to a solute load following electrogenic uptake of L-alanine. The transmembrane potential (Vm) was measured with glass microelectrodes filled with 0.5 M KCl (75 to 208 M omega in elasmobranch Ringer's solution) and averaged -61 +/- 16 mV (S.D.; n = 68). L-Alanine decreased (depolarized) Vm by 7 +/- 3 and 18 +/- 2 mV at concentrations of 1 and 10 mM, respectively. Vm did not repolarize to control values during the 5-10 min impalements, unless the amino acid was washed away from the hepatocytes. The depolarizing effect of L-alanine was dependent on external Na+, and was specific for the L-isomer of alanine, as D- and beta-alanine had no effect. Hepatocyte Vm also depolarized on addition of KCN or ouabain, or when external K+ was increased. Rates of 86Rb+ uptake and efflux were measured to assess the effects of L-alanine on Na+/K+-ATPase activity and K+ permeability, respectively. Greater than 80% of the 86Rb+ uptake was inhibited by 2 mM ouabain, or by substitution of choline+ for Na+ in the incubation media. L-Alanine (10 mM) increased 86Rb+ uptake by 18-49%, consistent with an increase in Na+/K+ pump activity, but had no effect on rubidium efflux. L-Alanine, at concentrations up to 20 mM, also had no measurable effect on cell volume as determined by 3H2O and [14C]inulin distribution. These results indicate that Na+-coupled uptake of L-alanine by skate hepatocytes is rheogenic, as previously observed in other cell systems. However, in contrast to mammalian hepatocytes, Vm does not repolarize for at least 10 min after the administration of L-alanine, and changes in cell volume and potassium permeability are also not observed.
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PMID:Effects of L-alanine on membrane potential, potassium (86Rb) permeability and cell volume in hepatocytes from Raja erinacea. 320 43

Isolated acini from lactating mouse mammary glands were prepared by collagenase and hyaluronidase digestion of tissue. Mammary tissue or acini incubated in vitro in tissue culture medium or a similar Ringer's solution lost K and gained Na. Intracellular concentrations approached, but did not equal, the concentrations in the external solution. This ion shift was largely prevented by incubating in a solution with ionic composition resembling mouse milk. In paired experiments, incubation with ouabain (1 mM) caused further increases in Na and decrease in K, suggesting that a functional Na+-K+-ATPase was present. Viability of acini was indicated by normal ATP content and morphology. The ion shift in NaCl-based solutions was slower at 0 degrees C than at 37 degrees C, suggesting that the flux is a membrane-regulated process. Under identical procedures, ion shifts did not occur in thymocytes or a cultured mammary cell line but were seen in both lactating and nonlactating mammary tissue. Nonlactating mammary tissue had a high Na and low K concentration in vivo. As predicted by previous models for the mechanisms of milk secretion, intracellular electrolyte content in mammary epithelial cells appears to be responsive to the ion concentration in the extracellular environment.
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PMID:Sodium and potassium content and viability of mouse mammary gland tissue and acini. 337 13

In 1962 Frank (22) reported that the addition of any one of a number of divalent cations, including Ni, to a Ca-free Ringer solution prevented the rapid loss of contractility seen in the absence of external Ca. To investigate further the Ni-Ca substitution, studies were made of (45)Ca and (63)Ni exchange during contraction and at rest using frog striated muscle. In contrast to (45)Ca, it was found that there is no increase of (63)Ni uptake associated with a K contracture of the sartorius muscle. The rates of loss of (63)Ni and (45)Ca from resting toe muscles previously bathed in the respective radioisotopes are not significantly different. Resting and action potentials, after 1 hr in a Ringer solution with Ni replacing Ca, closely resemble these potentials in normal Ca-Ringer's solution. Studies on the syneresis of isolated myofibrils indicate that Ni cannot replace Ca in activating this reaction. It is suggested that Ca is required for at least two steps in E-C coupling: one is the spread of excitation at the sarcolemma and transverse tubular system; the second is the activation of actomyosin ATPase. Conceivably Ni can substitute for Ca in the former but not in the latter.
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PMID:Nickel substitution for calcium in excitation-contraction coupling of skeletal muscle. 422 12

The properties of a cell surface nucleoside 5'-triphosphatase have been studied in small, intact, frog skeletal muscles, as a means of distinguishing the enzyme from other adenosine 5'-triphosphatases and of understanding its behaviour in the muscle membrane. The ectoenzyme in situ was shown to be a Ca2+- or Mg2+-activated ATPase liberating 7.5 +/- 0.4 (mean +/- SEM, n = 30) mumol of inorganic phosphate/g of muscle per 20 min, when the muscle was exposed to 2 mM ATP and 2 mM Ca2+ in Ringer's solution. The apparent Km for Mg2+ was 0.74 mM and for Ca2+ was 0.23 mM. A residual ATPase activity (20%) was found in the complete absence of divalent cations suggesting the existence of two ATPase types. A broad specificity toward nucleoside 5'-triphosphates was exhibited by the ecto-ATPase, but there was no nonspecific phosphatase activity. The enzyme was inhibited by La3+ and Cd2+, but was insensitive to ouabain, 2,4-dinitrophenol, oligomycin, and ruthenium red. Thus the ectoenzyme was not a Na+, K+-transport ATPase, was not an ATPase of mitochondrial origin, or a Ca2+-transport enzyme. Insulin had no effect. Inhibition by mersalyl, carbodiimide, and polar and cross-linking nonpolar nitrobenzene derivatives suggested that, for maximum activity, this membrane-bound enzyme required free sulfhydryl groups, certain free carboxyls, and an appreciable degree of hydrophobicity in its microenvironment.
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PMID:Characteristics of skeletal muscle ecto-ATPase in situ. 615 Jul 52


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