Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

An N-ethyl-maleimide (NEM)-sensitive ATPase that displays the properties of an electrogenic proton pump has been described in the different segments of the rat nephron where it mediates part of the active tubular proton secretion. Because corticosteroids are known to control kidney acidification, we evaluated whether or not NEM-sensitive ATPase is a target of corticosteroids in some nephron segments. For this purpose we measured NEM-sensitive ATPase activity in the different segments of nephron microdissected from normal and adrenalectomized rats. Results indicate that within 1 wk after adrenalectomy NEM-sensitive ATPase activity was markedly decreased in both cortical and outer medullary portions of the collecting tubule (cortex, from 398 +/- 12 (+/-SE) to 145 +/- 20; outer medulla, from 293 +/- 21 to 112 +/- 14 pmol X mm-1 X h-1); however, it was not altered in any other segment of the nephron. These results demonstrate that kidney NEM-sensitive ATPase is under the control of corticosteroids and suggest that mineralocorticoids rather than glucocorticoids are involved in this regulation that specifically occurs in mineralocorticoid-sensitive nephron segments. This paper also describes a new computerized method for the automatic determination of the length of single nephron segments.
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PMID:Effect of adrenalectomy on NEM-sensitive ATPase along rat nephron and on urinary acidification. 295 28

The purpose of this study was to investigate whether Ca2+ -Mg2+ ATPase in the distal tubule (where calcium transport is active, against a gradient, and hormone dependent) presents some characteristics different from those observed in the proximal tubule, and whether these characteristics are likely to shed light on the respective roles of this enzyme at the two sites of the nephron. The Ca2+ - and Mg2+-dependent ATP hydrolysis was measured in microdissected segments of the distal nephron, the kinetic parameters were determined, and the influence of magnesium upon the sensitivity to calcium was examined. Results were compared with those obtained in the proximal tubule, and in purified membranes as reported by others. In the distal tubule, low concentrations of Mg2+ (less than 10(-7) M) did not influence ATP hydrolysis. At concentrations above 10(-7) M, Mg2+ increased ATP hydrolysis according to Michaelis kinetics (apparent Km = 11.3 +/- 2.4 microM, Vmax = 219 +/- 26 pmol.mm-1.20 min-1). The addition of 1 microM Ca2+ decreased the apparent Km for Mg2+ and the Vmax for Mg2+. Similar results were obtained in the proximal tubule. At low Mg2+ concentrations, Ca2+ also stimulated ATP hydrolysis according to Michaelis kinetics with an apparent Km value for Ca2+ of 0.18 +/- 0.06 and 0.10 +/- 0.03 microM Ca2+ (ns) and a Vmax of 101 +/- 12 and 89 +/- 9 pmol.mm-1.20 min-1 (ns) in the distal and proximal tubules, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High affinity Ca2+ -Mg2+ ATPase in the distal tubule of the mouse kidney. 296 10

An electrogenic H-ATpase sensitive to inhibition by N-ethyl-maleimide has been reported to be present in renal distal tubules. In contrast to another H-ATPase (gastric H-K-ATPase), the renal enzyme is not stimulated by K+ and is not inhibited by vanadate. However, our preliminary observations indicated that a K-stimulated ATPase (K-ATPase) sensitive to inhibition by vanadate is present in renal medullary collecting duct (MCD). To localize and further characterize this renal tubular K-ATPase, we measured K-ATPase activity in eight specific segments of the rabbit nephron. K-ATPase activity was the difference in ATPase activity in the presence and absence of KCl but in the presence of ouabain (to inhibit Na-K-ATPase). ATPase activity was determined by a fluorometric microassay in which ATP hydrolysis is coupled to the oxidation of NADH. There was a significant K-ATPase activity (expressed as pmol.min-1.mm-1) in the connecting tubule (CNT, 17.0 +/- 3.3), cortical collecting duct (CCD, 6.6 +/- 0.7), and MCD (8.8 +/- 1.7), but not in the proximal segments and the thick ascending limbs. The renal tubular K-ATPase was not only inhibited by vanadate but also by omeprazole and SCH 28080 (relatively specific inhibitors of gastric H-K-ATPase). It is concluded that K-ATPase present in the CNT, CCD, and MCD has some properties in common with gastric H-K-ATPase. However, the physiological role of K-ATPase in the distal nephron segments remains to be elucidated.
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PMID:Ouabain-insensitive K-adenosine triphosphatase in distal nephron segments of the rabbit. 296 63

In brush border membrane vesicles prepared from mammalian kidney cortex, amiloride is a potent inhibitor of the Na+/H+ exchanger. In the present study, in vivo microperfusion was used to examine the effect of luminal amiloride on transport in the rat superficial proximal convoluted tubule. At a perfusion rate of 14 nl/min, addition of 10(-3) M amiloride to artificial early proximal tubular fluid reduced bicarbonate absorption from 103 +/- 7 to 81 +/- 5 pmol mm-1 X min-1 and volume absorption from 2.03 +/- 0.15 to 1.57 +/- 0.06 nl X mm-1 X min-1. Glucose efflux was unchanged, excluding nonspecific inhibition of Na+-K+-ATPase. Luminal amiloride at 10(-4) M did not affect bicarbonate absorption or volume absorption. At a perfusion rate of 41 nl/min, 10(-3) M amiloride reduced bicarbonate absorption from 179 +/- 8 to 114 +/- 9 pmol X mm-1 X min-1, a significantly greater inhibition than that seen in tubules perfused at 14 nl/min. Amiloride at 10(-3) M had no significant effect on sodium chloride absorption as measured by volume flux from an artificial late proximal tubular fluid. The results show that luminal amiloride specifically inhibits proximal acidification and demonstrate involvement of the Na+/H+ antiporter in proximal tubular acidification. However, the inhibition of acidification is less than the inhibition of Na+/H+ exchange predicted by vesicle studies.
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PMID:Amiloride inhibition of proximal tubular acidification. 298 47

Mineralocorticoids play a major role in the regulation of sodium transport in a variety of tissues, including the cortical collecting duct (CCD) of the mammalian nephron. To assess, in part, the underlying mechanism(s) of this control, the present studies were designed to evaluate, first, the influence of mineralocorticoids on the Na-K-ATPase activity in the rabbit CCD and, secondly, a possible role of sodium entry into the cell at the luminal border on the regulation of the Na-K-ATPase. In the first series of studies, rabbits were maintained on a low sodium diet which raised serum aldosterone levels from 16 to 70 ng/dl after 3-4 days, with further elevations being expressed with treatment for two weeks or more. In CCDs isolated from these animals, the Na-K-ATPase increased from 13 to 40 pmol ADP min-1 mm-1 after 3-4 days on the low sodium regimen, but then declined, returning to control values after approximately 2 weeks. This decline in activity was preceded by a decrease in the Na+ concentration of the urine to low levels and hence, likely coincided with a decreased delivery of sodium to, and sodium entry into the cells of, the CCD. If dietary manipulations were used to maintain a high delivery of sodium to the CCD in the animal, elevation of plasma mineralocorticoid levels by treatment with deoxycorticosterone acetate (DOCA) caused a similar elevation in the Na-K-ATPase activity after 3-4 days, which did not decline with continued treatment for up to 2 weeks. Furthermore, it was observed that mineralocorticoids only exerted their effect on the Na-K-ATPase after a latent period of 1 day, well after sodium excretion had fallen, indicating that sodium entry into the CCD cells was already stimulated. If animals were simultaneously treated with DOCA and the sodium channel blocker amiloride for 3-4 days, the effects on the Na-K-ATPase were markedly reduced, whereas amiloride treatment alone had no effect on the enzyme activity. Since others have shown that mineralocorticoids induce synthesis of the Na-K-ATPase subunits in toad bladder cells in an amiloride-insensitive manner, sodium must be exerting its effect on a process after translation. It is concluded that the initial effect of mineralocorticoids in the CCD is on sodium entry with a delayed induction of the Na-K-ATPase, which is regulated by Na-dependent modulation of a posttranslational process.
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PMID:Sodium-dependent modulation of the renal Na-K-ATPase: influence of mineralocorticoids on the cortical collecting duct. 298 28

To quantify the relative amount of ouabain bound to different segments of the nephron after in vivo injection of the drug, an autoradiographic (ARG) study was carried out. After intrarenal injection of [3H]ouabain (120 nmol kg-1 body wt, 0.9-1.2 Ci mol-1) to intact kidneys of three anaesthetized dogs, 69-89% of renal Na,K-ATPase activity was inhibited. Sodium reabsorption decreased by 21-54%. Sections for ARG were obtained from tissue slices frozen in liquid Freon, freeze-dried and embedded in resin. Almost no loss of activity occurred during processing and background activity was negligible after 23-36 days' exposure. The density of [3H]ouabain grains per mu 2 of tubular walls was 3.8 times higher over medullary ascending limbs of Henle's loop (MAL) and distal cortical tubules (DT) as compared to proximal tubules (PT). In terms of tubular length, the grain density of MAL exceeded that of PT by merely 35% since the cross-sectional area of the MAL was only 25% of that of PT. In DT, grain density in terms of tubular length was lower than in PT by 10%. Based on previous estimate of the absolute ouabain-binding capacity in MAL of 60 fmol mm-1 tubule, the ouabain-binding capacity in PT and DT would equal 45 and 40 fmol mm-1, respectively. From composite microphotographs, the relative volume of PT was estimated to be 42% of the total renal volume. This means that 47% of the total renal ouabain-binding sites are localized to PT, whereas MAL and DT together contain 51%.
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PMID:Distribution of ouabain-binding sites along the dog nephron. 300 9

This study has examined the temporal profile and the segmental localization along the rat nephron of the increase in Na-K-ATPase produced by uninephrectomy, and the role of the adrenal gland in the generation of the increase in enzyme activity. In adrenal-intact rats, an increase in Na-K-ATPase activity in the cortical collecting tubule (CCT) was observed at 1 wk (140 +/- 13% of sham, P less than 0.05) and sustained at 2 wk (140 +/- 8% of sham, P less than 0.05). In contrast, the enhancement of enzyme activity in the proximal convoluted tubule (PCT) was transient (at 1 wk: 164 +/- 20% of sham, P less than 0.05; and at 2 wk: 97 +/- 9% of sham, P greater than 0.5). No changes in Na-K-ATPase activity were observed in the other nephron segments studied: pars recta, medullary thick ascending limb, cortical thick ascending limb, distal convoluted tubule, and medullary collecting tubule. In adrenalectomized rats, CCT enzyme activity was lower than in adrenal-intact rats (761 +/- 84 vs. 1,984 +/- 276 pmol X mm-1 X h-1, P less than 0.001) and was not altered by uninephrectomy (849 +/- 91 pmol X mm-1 X h-1, NS). We conclude that the increase in Na-K-ATPase activity following uninephrectomy is restricted to two segments of the nephron and follows a distinctive pattern in each. In the PCT a transient enhancement in enzyme activity is observed, whereas in the CCT the increase in Na-K-ATPase is sustained and requires the presence of an intact adrenal gland.
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PMID:Regulation of renal Na-K-ATPase in the rat: effect of uninephrectomy. 301 61

We studied the effects of norepinephrine on solute transport and oxidative metabolism in proximal tubules. Norepinephrine (10(-6) M) in the bath stimulated fluid absorption (Jv) by proximal convoluted tubules from 0.76 +/- 0.10 to 1.01 +/- 0.11 nl X mm-1 X min-1 (P less than 0.001). Bicarbonate, chloride, and phosphate transport also increased in proportion to the increases in Jv. Norepinephrine increased ouabain-sensitive oxygen consumption (QO2) in suspensions of cortical tubules by 1.3 nmol X mg protein-1 X min-1 and had no effect on ouabain-insensitive QO2 or mitochondrial respiration. Na+-K+-ATPase activity in basolateral membranes prepared from cortical homogenates incubated with norepinephrine increased from 277.1 +/- 34.9 to 411.1 +/- 38.6 nmol Pi X mg protein-1 X min-1 (P less than 0.005). Norepinephrine also increased Na+-K+-ATPase activity of cortical homogenates by 72% but had no effect on Na+-K+-ATPase if added directly to purified basolateral membranes. These studies show that norepinephrine stimulates solute transport in the proximal tubule by increasing Na+-K+-ATPase activity indirectly through some component or components of the adrenergic receptor system.
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PMID:Norepinephrine increases Na+-K+-ATPase and solute transport in rabbit proximal tubules. 302 69

The effect of potassium depletion on renal Na+-K+-ATPase was studied in rats. K depletion produced a striking, time-dependent increase in Na+-K+-ATPase activity of the outer medullary collecting tubules (inner stripe; MCTis). After 3 wk on the K-free diet, when the urine was almost potassium-free, Na+-K+-ATPase activity in MCTis was over fourfold higher than in control animals (2,964 +/- 185 vs. 645 +/- 108 pmol X mm-1 X h-1). Repletion of potassium restored enzyme activity to base line within 7 days (t1/2 = 3.8 days), which corresponds to the catabolic rate of the renal enzyme, suggesting the cessation of enhanced synthesis that took place during K deprivation. Changes in Na+-K+-ATPase activity and aldosterone levels during both K depletion and repletion occurred in opposite directions and were therefore independent of each other. [3H]Ouabain binding to intact MCTis, reflecting the number of pump sites on the basolateral membrane, was similar in K-depleted and control animals; in contrast, tubule permeabilization that exposes additional pump units to the ligand, unmasked a nearly fourfold increase in [3H]ouabain binding (50.0 +/- 6.8 vs. 13.2 +/- 1.7 fmols X mm-1) in K-depleted rats, comparable to the increment in Na+-K+-ATPase activity. These results show that K depletion leads to a marked increase in Na+-K+-ATPase activity of MCTis, and suggest that the new enzyme units are located at a ouabain-inaccessible site in the intact tubule, i.e., either in an intracellular compartment or at the luminal membrane, where they may be involved in potassium reabsorption.
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PMID:The kidney in potassium depletion. I. Na+-K+-ATPase activity and [3H]ouabain binding in MCT. 303 Jan 36

To evaluate the effect of furosemide on kidney function, glomerular filtration rate (GFR), urinary Na excretion (UNaV), Na reabsorption (NAR), and Na+-K+-ATPase in isolated nephron segments were measured in 1) rats treated with furosemide 10 mg X 100 g-1 X 24 h-1 ip for 7 days, and 2) rats receiving an oral Na load for 12 days. In furosemide-treated rats, GFR rose from 0.61 +/- 0.03 (mean +/- SD) to 0.83 +/- 0.06 ml/min (P less than 0.01), UNaV rose from 904 +/- 71 to 1,402 +/- 85 mueq/day (P less than 0.001), and net NAR rose from 87.5 +/- 3.7 to 116.7 +/- 9.0 mueq/min (P less than 0.01). Na+-K+-ATPase remained unchanged in the proximal convoluted tubule (PCT), proximal straight tubule (PST), cortical thick ascending limb of Henle's loop (cTALH), and medullary thick ascending limb of Henle's loop (mTALH), but was increased in the distal convoluted tubule (DCT) and in cortical collecting duct (CCD) from 48.5 +/- 1.2 to 75.3 +/- 0.7 (P less than 0.001) and from 18.6 +/- 0.7 to 27.1 +/- 2.7 (P less than 0.02) X 10(-11) mol X mm-1 X min-1, respectively. In Na-loaded rats GFR rose from 0.61 +/- 0.04 to 0.86 +/- 0.03 ml/min (P less than 0.001), UNaV rose from 1,064 +/- 118 to 18,532 +/- 2,045 mueq/day (P less than 0.001), net NAR from 88.1 +/- 3.0 to 107.8 +/- 3.9 mueq/min and Na-K-ATPase in the mTALH rose from 40.3 +/- 1.4 to 56.2 +/- 2.11 (P less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enhanced glomerular filtration and Na+-K+-ATPase with furosemide administration. 303 78


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