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)

1. The effect of the diuretic drug furosemide was studied in detail on ouabain-insensitive, SCN- and OCN- -sensitive C1-/HCO-3-ATPase in homogenates from larval dragonfly rectum (Aeshna cyanea), frog (Rana temporaria) and mouse (Mus musculus) kidney. 2. The in vitro inhibition by the drug studied on the HCO-3-activated enzyme is non-competitive with an inhibitor constant of Ki=4.3 mM furosemide in the case of insect rectum and Ki=0.9 mM furosemide in the case of frog and mouse kidney. 3. Furosemide even at 10 mM concentration which completely inhibits the anion-dependent ATPase has only a little inhibitory effect on the Na+/K+-ATPase of the 3 tissues. 4. The data suggest that furosemide may affect an active chloride transport system involving a C1-/HCO-3-ATPase.
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PMID:The loop diuretic furosemide as non-competitive inhibitor of C1-/HCO3-ATPases of vertebrate kidneys and insect rectum. 612 70

A novel in situ kidney perfusion technique is described in Sprague-Dawley rats. The procedure involves retrograde perfusion from the renal veins via the kidneys, and then through the renal arteries and dorsal aorta. Ouabain (15 mM) in perfusate increased Na retention by 92%, decreased K retention by 53% and produced no effect on Cl retention. Ethacrynic acid (1 mM) in perfusate decreased Na retention by 52%, increased K retention by 105% and decreased Cl retention by 27%. Furosemide (1.5 mM) in perfusate decreased Na retention by 52%, increased K retention by 47% and decreased Cl retention by 56%. The Na-K-ATPase pump localized at the peritubular side of the proximal tubule cell is ouabain sensitive and Mg dependent. An Na-K pump responsible for Na influx and K effux exists at the luminal side of the proximal tubule cell and is ethacrynic acid and furosemide sensitive.
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PMID:Role of ouabain and diuretics on sodium, potassium and chloride retention in perfused rat kidney. 614 4

Isolated cells were prepared from the medullary thick ascending limb of Henle's loop (TALH) and the response of oxygen consumption was correlated with the active chloride transport system found in these cells. Oxygen consumption was 31.6 microliters O2/mg protein . h and inhibited 50% by the absence of either sodium or chloride in the incubation medium. The absence of both sodium and chloride produced no further inhibition of oxygen consumption. Ouabain (10(-4) M) inhibited oxygen consumption by 50% and the inhibitory effect depended on the presence of both sodium and chloride in the incubation medium. Further, furosemide inhibited oxygen consumption by a maximum of 50% at 10(-3) M and also had no inhibitory effect if either sodium or chloride were absent. Furosemide had no effect on the Na, K-ATPase activity or ATP levels of the TALH cells. Thus, the data suggest or ATP levels of the TALH cells. Thus, the data suggest that 50% of the oxygen consumption of the TALH cells is related to the movement of sodium and chloride into the cell and that the ions may be transported in a coupled manner. In addition the effect of various diuretics on oxygen consumption in the isolated TALH cells was tested. The diuretics could be grouped in three categories: (1) highly effective in inhibiting chloride-dependent oxygen consumption with an apparent inhibitory constant (Ki) of around 10(-6) M, including the diuretics furosemide, bumetanide, ethacrynic acid-cysteine and piretanide, (2) diuretics which were less effective in inhibiting oxygen consumption with an apparent Ki of around 10(-4) M, HOE 740 and ethacrynic acid, and (3) diuretics which were ineffective in inhibiting chloride-dependent oxygen consumption, amiloride and hydrochlorothiazide.
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PMID:Sodium-chloride transport in the thick ascending limb of Henle's loop. Oxygen consumption studies in isolated cells. 626 7

The effects of ouabain and furosemide on the unidirectional efflux of sodium and phosphate ions were studied in freshly drawn human red blood cells (RBCs). In the presence of physiologic concentrations of sodium and potassium the rate of sodium efflux was reduced by 74% due to ouabain sensitivity. Furosemide (1.0 mmol/l) reduced ouabain-insensitive sodium transport rate by a further 50%. Thus, 13% of total sodium efflux was inhibited by furosemide when ouabain was present. In the absence of ouabain, however, furosemide inhibited 31% of total sodium transport, indicating that it also affected ouabain-sensitive sodium efflux. Phosphate transfer of RBCs was almost 1.0 mmol/l RBCs per hour. Erythrocyte concentration of orthophosphate, however, was only 0.59 mmol/l RBCs. Organic phosphate esters must therefore have been cleaved to maintain constant phosphate elimination. The hydrolysis of adenosine triphosphate (ATP) by Na-K-ATPase might be involved because the phosphate transfer of almost 0.12 mmol/l RBCs per hour was ouabain sensitive. Furosemide reduced phosphate efflux by 50% due to reduction in passive permeability of the RBC membrane. Additional inhibition of any phosphate ester hydrolyzing enzymatic activity cannot, however, by excluded.
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PMID:Effect of ouabain and furosemide on erythrocyte sodium and phosphate transport. 627 55

The effects of ouabain and furosemide on renin secretion, renal function, and renal Na+-K+-ATPase were investigated in anesthetized dogs. Furosemide (2 mg/kg) induced significant diuresis, natriuresis, an increase in renal blood flow (RBF), and a fivefold increase in renin secretory rate (RSR), but no changes in glomerular filtration rate (GFR). Infusion of ouabain (1 microgram . kg-1 . min-1) into one renal artery during furosemide diuresis increased fractional sodium excretion from 22 +/- 2 to 30 +/- 3% from the ipsilateral kidney but did not change urine flow, RBF, or GFR, whereas RSR fell to control values (698 +/- 203 to 137 +/- 43). When ouabain preceded furosemide, the rise in RBF and RSR induced by furosemide was abolished but sodium excretion increased. Ouabain infused in vivo inhibited Na+-K+-ATPase in microsomal fractions from cortex (34%) and medulla (27%) as compared with control. Neither saline nor furosemide exerted any effect on Na+-K+-ATPase. Moreover, the effect of ouabain alone on Na+-K+-ATPase was not different from that of ouabain plus furosemide. No changes in Mg2+-ATPase were detected in any of the experiments. These results indicate that inhibition of renal Na+-K+-ATPase abolishes furosemide-induced renin secretion despite potentiation of the natriuretic effect of the diuretic. It is apparent that the level of activity of Na+-K+-ATPase is of prime importance for renin secretion. In addition, ouabain may act directly on the juxtaglomerular cells to inhibit renin secretion.
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PMID:Renal Na+-K+-ATPase in renin release. 629 14

Ouabain (10(-3) M) caused a 95.8% reduction in the volume of saliva secreted during a 60-min period by the isolated, perfused submandibular gland of the rat exposed to acetylcholine (10(-6) M) and modified salivary cation (Na and K) concentrations but not salivary Cl concentrations. Furosemide (10(-3) M) caused a 74.9% reduction in saliva volume and significantly reduced salivary Cl concentrations but did not modify salivary Na or K. Ethacrynic acid (10(-4) M) resulted in a 58.6% reduction in saliva volume, increased salivary Na and Cl concentrations, and reduced salivary K+ concentrations at low rates of flow. The results suggest that an ouabain-sensitive Na+-K+-ATPase and a furosemide-sensitive NaCl cotransport system contribute to acetylcholine-induced fluid secretion in the rat submandibular gland. The Na+-K+-ATPase probably provides the energy or driving force for the NaCl cotransport system by maintaining a Na+ gradient in the salivary cells. The lesser effect of ethacrynic acid on saliva volumes may result from a quantitatively smaller action on the same NaCl cotransport affected by furosemide. An ouabain-sensitive pump present in salivary ducts regulates transductal transport of Na and K.
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PMID:Effect of transport inhibitors on secretion by perfused rat submandibular gland. 631 25

In the present study 1 h of total occlusion of the left renal artery in conscious rats was chosen as experimental model of ischemic acute renal failure (ARF), while the contralateral kidney was left intact. Chronic high dietary sodium intake, acute isotonic saline infusion, or administration of saralasin did not protect from ARF. Furosemide, mannitol, and verapamil converted oliguric into non-oliguric ARF in 100%, 75%, and 60% of the animals, resp. Protection from oliguria and preservation of GFR inversely correlated with the depression of cortical ATP-concentration (control: 1.32 +/- 0.07 mumoles/g wet weight) 6 h after ischemia by 16%, 41%, and 58% in mannitol- and verapamil- treated rats and in untreated rats, resp. At this time, Na-K-ATPase enzyme activities in renal cortex and papilla were unaffected, while enzyme activity in outer medulla was suppressed from 15.4 +/- 1.4 to 9.4 +/- 1.0 mumoles Pi/mg protein h in all groups of animals. The results suggest that in this model of ARF renal ischemia not only affects cellular energy supply in renal cortex but also causes severe structural and functional impairment in the outer medulla, probably leading to tubular obstruction and depression of glomerular function. Pharmacological protection from ischemic oliguric ARF cannot be achieved by prior induction of high urine flow rates alone but depends on the degree of metabolic and functional reserve of the injured tubular epithelium.
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PMID:Renal functional and metabolic studies on the role of preventive measures in experimental acute ischemic renal failure. 641

The rabbit cardiac sarcolemma shows an ouabain, Na,K-stimulated ATPase activity and an ouabain-insensitive, Na-stimulated ATPase activity. The Na-ATPase has the following characteristics: (i) It is also stimulated by other monovalent cations. (ii) It is inhibited by 2 mM Furosemide and by 2 mM ethacrynic acid. (iii) It reaches maximal values (Vmax) at around 20 mM Na+. (iv) The apparent Km is around 5 mM. Except for the monovalent cation stimulation, the main characteristics of this ATPase are very similar to those of the ouabain-insensitive, Na-stimulated ATPase of mammalian kidneys.
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PMID:Ouabain-insensitive, Na(+)-stimulated ATPase activity in rabbit cardiac sarcolemma. 771 42

Clinically-used drugs such as furosemide, bumetanide and cardiac glycosides, are modulators of transmembrane fluxes of cations. Recently, it has been suggested that the regulation of intracellular cation concentrations could be a primary target for anti-neoplastic drugs, and that the cytotoxic activity may be altered by inhibitors of cation fluxes at the level of the plasma membrane. Therefore, we investigated the mechanisms by which cations are translocated across the plasma membrane of malignant glioma (U251 MG), prostatic carcinoma (PC3) and pulmonary carcinoma (P31) cell lines. The interactions between cation flux inhibitors and the cytotoxicity of estramustine were also evaluated. Ouabain, the classical inhibitor of Na+, K+ATPase, markedly reduced 86Rb (K+) influx in all three lines, indicating that this ion transport system is present in the cells. Furosemide and especially bumetanide inhibited the 86Rb influx, indicating the presence of the Na+, K+, Cl- co-transport system. The potassium channel blocker, tetraethylammonium, but not apamin reduced the influx of 86Rb showing that high conductance K+ channels are present, but that channels of low conductance probably do not exist in these cell lines. The Na+, K+, Cl- co-transport inhibitors furosemide and bumetanide significantly reduced cytotoxicity of estramustine in P31 cells, whereas no interaction between other K+ flux inhibitors and the anti-neoplastic drugs were detected in any of the cell lines investigated. Thus, the data show that Na+, K+, ATPase and NA+, K+, Cl- co-transport systems and K+ channels of high conductance are present in malignant glioma (U251 MG), prostatic carcinoma (PC3) and pulmonary carcinoma (P31) cell lines, and that inhibition of the Na+, K+, Cl- co-transport system in P31 is associated with reduced cytotoxicity of estramustine. The results justify further studies evaluating the role of these cation flux pathways in terms of targets for anti-neoplastic therapy.
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PMID:Identification of potassium flux pathways and their role in the cytotoxicity of estramustine in human malignant glioma, prostatic carcinoma and pulmonary carcinoma cell lines. 788 Jun 13

Hypokalemic metabolic alkalosis is one of the most common complications of chronic furosemide administration. In this study we examined acid-base composition and ATPase enzyme activities in medullary thick ascending limb of Henle's loop (MTAL) and collecting tubule (CCT and MCT) after seven days of chronic furosemide therapy. All of the studies were conducted in adrenal intact (AI) rats or in adrenalectomized (ADX) glucocorticoid replete rats replaced with a physiological dose of aldosterone (Aldo). Furosemide (F) was administered to each rat by mini-osmotic pump. In the AI+F group, plasma Aldo was high and obvious metabolic alkalosis occurred (HCO3- = 37 +/- 2 mEq/liter vs. 22 +/- 2 mEq/liter in controls, P < 0.005); activities of H-K-ATPase, H-ATPase, and Na-K-ATPase were increased approximately twofold in both CCT and MCT. In the ADX+F group (HCO3- = 28 +/- 2 mEq/liter, P < 0.05 from control), H-ATPase activity was normal in CCT and it was slightly increased in MCT. CCT and MCT H-K-ATPase activities were markedly increased (approximately twofold). Na-K-ATPase activity was the same as control in CCT but it was increased in MCT. In ADX+F+Vanadate (V) group which also had normal Aldo levels, acid-base changes were modest (20 +/- 2 mEq/liter, NS from control); in CCT and MCT H-K-ATPase and Na-K-ATPase activities were markedly reduced, but H-ATPase activity in MCT was increased. In all three experimental groups Na-K-ATPase activity in MTAL was reduced fivefold. Hypokalemia developed in both intact and ADX animals receiving furosemide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of furosemide-induced hypokalemic metabolic alkalosis on renal transport enzymes. 838 46

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