DrugBank:EXPT00514 - FACTA Search

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Query: DrugBank:EXPT00514 (Amiloride)
1,513 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Mechanical loading of cartilaginous tissue generates an increase in the concentration of cations in the extracellular matrix. This includes a decrease of the extracellular pH (pHo), which is known to affect the intracellular pH (pHi), thereby modifying the intracellular metabolism. Thus, the regulation of pHi is essential for the physiological function of cartilage. The fluorescent pH-sensitive dye 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein acetoxymethyl ester (BCECF AM) was employed in order to assess the mechanisms responsible for control of the pHi in an embryonic avian chondrocyte cell suspension. 2. Steady-state pHi in the absence of physiological HCO3- was 7.15 +/- 0.01 pH units as compared to a pHi of 6.94 +/- 0.02 pH units in its presence (P < 0.01). The intrinsic buffering power of chondrocytes (beta i) was 38.9 mM/pH unit and the total buffering capacity (beta T) was 65.8 mM/pH unit. 3. Cells maintained in a Hepes-buffered solution were exposed to an intracellular acid load by the NH4+ prepulse technique (20 mM NH4Cl). The initial rate of pHi recovery was 0.106 pH units/min (n = 18). Amiloride (0.33 mM), an inhibitor of the Na(+)-H+ exchanger, or replacement of external sodium [Na+]o with choline induced a 60% inhibition of the recovery rate, indicating a predominant involvement of this antiporter in the response to intracellular acidification. 4. H(+)-ATPase inhibitors (oligomycin 20 micrograms/ml; N,N;-dicyclohexylcarbodiimide (DCC), 0.5 mM; N-ethylmaleimide (NEM), 0.25 mM) and iodomycin (2 mM), a metabolic cell suppressor, reduced acid extrusion by 25% as measured by the NH4Cl prepulse in Hepes-bathed cells. 5. Chondrocytes transferred from a Hepes-buffered solution to a 5% CO2-25 mM HCO3- medium (HCO3- solution) underwent a pHi decrease of approximately 0.20 pH units, followed by a regulatory alkalinizing response of 0.118 pH units/min. The Na(+)-H+ exchanger was responsible for only 15% of this alkalinization (amiloride, 0.33 mM), in contrast to its primary role in HCO(3-)-free solution. 6. The activity of a Na(+)-dependent Cl(-)-HCO3- exchanger in physiological HCO3- solution was estimated by addition of the inhibitors 4-acetamido-4'-isothiocyanatostilbene-2,2'-disulphonic acid (SITS; 0.5 mM) or diisothiocyanatostilbene-2,2'-disulphonic acid (DIDS; 100 microM) and by the suspensions of chondrocytes in a Na(+)-free solution. Acidification performed under these conditions resulted in a 45% inhibition of the recovery rate as compared to control rates.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The control of intracellular pH in cultured avian chondrocytes. 839 27

Parallel arrays of Na+/H+ and Cl-/HCO3- antiporters are believed to catalyze the first step of transepithelial electrolyte secretion in lacrimal glands by coupling Na+ and Cl- influxes across acinar cell basolateral membranes. Tracer uptake methods were used to confirm the presence of Na+/H+ antiport activity in membrane vesicles isolated from rabbit lacrimal gland fragments. Outwardly-directed H+ gradients accelerated 22Na+ uptake, and amiloride inhibited 96% of the H+ gradient-dependent 22Na+ flux. Amiloride-sensitive 22Na+ influx was half-maximal at an extravesicular Na+ concentration of 14 mM. In vitro stimulation of isolated lacrimal acini with 10 microM carbachol for 30 min increased Na+/H+ antiport activity of a subsequently isolated basolateral membrane sample 2.5-fold, but it did not significantly affect Na+/H+ antiport activity measured in intracellular membrane samples. The same treatment increased basolateral membrane Na+,K(+)-ATPase activity 1.4-fold; this increase could be accounted for by decreases in the Na+,K(+)-ATPase activities of intracellular membranes. Thus, it appears that cholinergic stimulation causes recruitment of additional Na+,K(+)-ATPase pump units to the acinar cell basolateral plasma membrane. The mechanistic basis of the increase in basolateral membrane Na+/H+ antiport activity remains unclear.
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PMID:Carbachol-induced increase of Na+/H+ antiport and recruitment of Na+,K(+)-ATPase in rabbit lacrimal acini. 839 79

We have investigated the mechanism by which amiloride and 5-(N-ethyl-N-isopropyl)amiloride (EIPA) inhibit glucose-stimulated medium acidification in the fission yeast Schizosaccharomyces pombe. The addition of glucose to an unbuffered suspension of cells results in the extrusion of acid. This process was inhibited by diethylstilbestrol (DES), an inhibitor of the H(+)-ATPase (IC50 71 microM), and also by amiloride (IC50 824 microM) and EIPA (IC50 203 microM). The presence of 100 mM NaCl reduced the degree of inhibition observed for amiloride and EIPA, but had no effect on inhibition by DES. N-Methylglucosamine partially protected the cells against the effect of amiloride, but choline chloride did not, suggesting that sodium may be important in the action of amiloride. To establish the site of action of amiloride and EIPA, ATP hydrolysis assays were performed on isolated plasma membranes. H(+)-ATPase activity was inhibited by orthovanadate, but not by amiloride or EIPA. However, both amiloride and EIPA were found to inhibit the incorporation of radioactivity from labelled glucose in S. pombe, with IC50 values of 879 and 272 microM for amiloride and EIPA respectively. Again, 100 mM NaCl was found to reduce the effectiveness of inhibition. Amiloride had no effect on the uptake of 2-deoxyglucose under the same conditions, indicating that amiloride does not inhibit the glucose transporter. We propose that amiloride and EIPA disrupt glucose-induced acidification by inhibiting glucose metabolism.
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PMID:Amiloride and 5-(N-ethyl-N-isopropyl) amiloride inhibit medium acidification and glucose metabolism by the fission yeast Schizosaccharomyces pombe. 843 59

Little information is available regarding the effect of ion transport agonists and antagonists on ion transport in the human lung. Therefore, we studied ion transport in lungs resected from patients with lung cancer. A test solution of 45 ml of isosmotic albumin was instilled into one segment of a resected lobe within 10 min of resection. Because protein leaves the air space very slowly, the concentration of alveolar protein over 4 h was used to quantify the volume of alveolar fluid. Ion transport was measured from the changes in ion concentrations and the volume of alveolar fluid. In the basal condition, the net efflux of Na+ and Cl- were 4.66 +/- 0.83 mEq/l/h and 3.52 +/- 0.84 mEq/l/h, respectively. In contrast, the net influx of K+ was 0.44 +/- 0.07 mEq/l/h. Amiloride (10(-5) M), an inhibitor of apical Na+ uptake, ouabain (10(-3) M), an inhibitor of Na(+)-K+ ATPase, and hypothermia (8 degrees C) reduced the efflux of Na+ and Cl-. Ouabain and hypothermia increased the net influx of K+. Terbutaline (10(-3) or 10(-4) M) increased the efflux of Na+ and Cl-, but did not affect the influx of K+. Propranolol (10(-4) M) and amiloride (10(-5) M) inhibited the terbutaline-induced increase in the transport of Na+ and Cl-. Alveolar fluid clearance was closely correlated with Na+ transport and with Cl- transport. However, the values of Na+ transport were greater than those of Cl- transport. These data suggest that Na+ transport is accompanied by Cl- transport and fluid movement out of the alveolar space in resected human lungs.
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PMID:[Transport of ions across alveolar epithelial cells in resected human lungs]. 853 92

Developmental changes in cellular Ca(2+)-transport mechanisms were studied in chick heart by determining cellular Ca(2+)-uptake and Na+,Ca(2+)-exchange activity in freshly isolated ventricular tissues of embryonic (5-18 days old), newborn (1-2 days old) and young adult (90-100 days old) heart by monitoring 45Ca influx. Ca(2+)-ATPase activity was determined in microsomal fractions at different stages of development. The Ca(2+)-uptake (per g wet tissue weight) increased with the development of embryonic as well as post-hatch chick heart, reaching a maximum in the young adult chicken. The overall increase in Ca(2+)-uptake, from embryonic day 5 to young-adult stage, was more than 3 fold. The Na+,Ca(2+)-exchange activity, determined as Na(+)-gradient-induced Ca(2+)-uptake in presence of either ouabain or zero [Na+]0, showed a 6-fold increase during development of heart from the embryonic day 5 to the young adult stage. Amiloride, an inhibitor of Na+,Ca(2+)-exchange, caused a dose-dependent reduction in a ouabain-induced rise in 45Ca influx at different stages of development. The inhibitory effect of amiloride was, however, greater during later stages of development. A progressive increase in Ca(2+)-ATPase activity was also seen during development. Ca(2+)-ATPase exhibited about a 4-fold increase in activity from embryonic day 7 to the young adult. The concomitant increase in Ca(2+)-uptake, Na+,Ca(2+)-exchange and Ca(2+)-ATPase activities suggests age-dependent changes in Ca(2+)-transport and storage systems of developing heart during embryogenesis and post-embryonic life. During embryogenesis the developmental increase in Na+,Ca(2+)-exchange activity was greater than that during post-hatch development of heart. However, the increase in Ca(2+)-ATPase activity was greater during post-hatch development than during embryogenesis. It is suggested that Na+,Ca(2+)-exchange and Ca(2+)-ATPase play a prominent role in maintaining cellular Ca2+ homeostasis during embryogenesis and after hatching.
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PMID:Developmental changes in Ca(2+)-uptake, Na+,Ca(2+)-exchange and Ca(2+)-ATPase in freshly isolated embryonic, newborn and adult chicken heart. 871 24

The effects of prolonged administration of the diuretic amiloride on pancreatic carcinogenesis induced by azaserine and on the labeling index of carcinogen-induced pancreatic lesions were investigated in Wistar rats. Rats were given 25 weekly injections of 10 mg/kg body weight azaserine and also 5 mg/kg body weight amiloride every other day until the end of the experiment at week 62. Carcinogen-induced pancreatic lesions were examined by histochemical techniques and were classified as ATPase-positive or ATPase-negative. In week 62, quantitative histologic analysis showed that prolonged administration of amiloride significantly reduced the number and size (as percent of parenchyma) of ATPase-positive pancreatic lesions, which are closely correlated with the subsequent development of pancreatic cancer. Amiloride also significantly decreased the labeling index of carcinogen-induced pancreatic lesions, but not of the surrounding acinar cells. In contrast, amiloride has no significant influence on the number and size of ATPase-negative pancreatic lesions. These findings indicate that amiloride inhibits pancreatic carcinogenesis, and that this effect may be related to the reduction of ATPase-positive lesions and to amiloride's inhibition of cell proliferation in neoplastic lesions of the pancreas.
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PMID:Inhibition by amiloride of experimental carcinogenesis induced by azaserine in rat pancreas. 882 43

This study describes the establishment of a rat kidney cortical collecting duct (CCD) clonal cell line (RCCD1 cells) that maintains high transepithelial resistance and specific hormonal sensitivities. Immortalized cells were obtained by infection of primary cultured CCD cells with the wild-type simian virus 40. Grown on Petri dishes, RCCD1 cells are organized as monolayers of cuboid cells separated by tight junctions and form domes. Grown on permeable filters, confluent RCCD1 cells exhibit high transepithelial resistance (Rt: 2390 +/- 140 omega. cm2), transepithelial potential difference (PD) of -10.5 +/- 1.2 mV lumen negative, an associated short-circuit current (Isc) of 4.3 +/- 0.5 microA/cm2, and generated significant Na+, K+, H+ and HCO3- gradients, reflecting Na+ and H+ reabsorption and K+ and HCO3- secretion. RCCD1 cells exhibit features of both principal (PC) and intercalated (IC) cells. Consistent with PC phenotype, about 50% of the cells were positively stained by a PC-specific agglutinin. In situ hybridization studies revealed the presence of alpha, beta and gamma subunit mRNAs of the amiloride-sensitive epithelial Na+ channel and alpha 1 and beta 1 subunits of Na(+)-K(+)-ATPase. Moreover, Na(+)-K(+)-ATPase was immunolocalized at the basolateral side of the cells. Arginine vasopressin (AVP) induced a significant increase in both cellular cAMP content and Isc. Amiloride decreased in a dose-dependent manner Isc from untreated and AVP-treated RCCD1 cells. In addition, a barium-sensitive K+ conductance was evidenced in the apical side of the cells. Consistent with IC phenotype, isoproterenol (ISO) provoked a large increase in cellular cAMP and stimulated Isc. The effect of ISO on Isc was blocked by 5 x 10(-3) M DPC, a chloride channel blocker. Finally, AVP plus ISO had additive effect on Isc. Taken together, these results provide evidence that the RCCD1 cell line has maintained many of the original properties of rat CCD from which they were derived.
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PMID:Characteristics of a rat cortical collecting duct cell line that maintains high transepithelial resistance. 884 Feb 62

The role of epithelial ion transport in the activation of water-responsive laryngeal afferent was investigated in anesthetized, spontaneously breathing cats. Single-fiber recordings from the peripheral cut-end of the superior laryngeal nerve were carried out to identify water-responsive laryngeal afferent. Substitution of chloride ions (Cl-) of the Krebs solution with gluconate activated the water-responsive endings when the gluconate concentration was > or = 50 mM. Amiloride (10(-4), 10(-3) and 10(-2) M), an inhibitor of epithelial sodium channels, reduced the water-responsiveness of these afferents, whereas EIPA (5 x 10(-5) M), an amiloride analogue which inhibits Na+/H+ exchange, had no effect. Both ouabain (10(-4) M), an inhibitor of Na+/K+ ATPase, and bumetanide (10(-4) M), an inhibitor of Na(+)-K(+)-2Cl- cotransport, reduced the water response, but no significant reduction in the response was observed with DIDS and DPC, two chloride channel inhibitors. These findings suggest that the epithelium modulates the water-responsiveness of laryngeal afferent but is not the primary determinant of the response.
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PMID:Activation of water-responsive laryngeal afferents: role of epithelial ion transport. 893 Nov 75

The possible participation of mitochondria-rich cells in transepithelial Na+ transport across frog skin under "physiological conditions" (low apical [Na+], open circuited) was analysed by recording electrophysiological parameters from principal cells with intracellular microelectrodes and using measurement of Rb+ uptake into the epithelial cells from the serosal side via the Na+/K+-ATPase. It was observed that transport perturbation with amiloride induced changes in the apical potential difference and fractional apical resistance in principal cells, observations which are compatible with the notion that the essential fraction of transcellular current flow occurs across these cells. Amiloride-inhibitable uptake of Rb+ was also restricted to principal cells, the amount being about equivalent to the predicted rate of K+ recycling via the Na+/K+-ATPase. The results indicate that principal cells are responsible for transepithelial Na+ transport irrespective of the experimental conditions. Flow of Na+ across mitochondria-rich cells appears to be negligible.
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PMID:The role of mitochondria-rich cells in sodium transport across amphibian skin. 901 15

Active K+ reabsorption by the lower Malpighian tubule of the blood-feeding hemipteran Rhodnius prolixus does not involve the amiloride-sensitive K+/H+ exchangers or V-type H+-ATPases implicated in secretion of ions from haemolymph to lumen in the upper tubule. Amiloride, N-ethylmaleimide, 4-chloro-7-nitrobenzo-2-oxa-1,3-diazol and bafilomycin A1 inhibit haemolymph-to-lumen secretion of Na+ and K+ by the upper Malpighian tubule, but have little or no effect on lumen-to-haemolymph reabsorption of K+ by the lower tubule. The effects of inhibitors of H+/K+-ATPases, including omeprazole and SCH 28080, suggest that a pump similar to the H+/K+-ATPase of the gastric mucosa is involved in KCl reabsorption. The presence of K+ channels in the basolateral membrane in the lower Malpighian tubule is suggested by inhibition of KCl reabsorption by basolateral but not apical application of the K+ channel blocker Ba2+, and by blockade of K+-dependent changes in membrane potential by Ba2+. It is proposed, therefore, that K+ is pumped from lumen to cell by an ATP-dependent pump resembling the H+/K+-ATPase of the gastric mucosa, and that K+ leaks from cell to bathing saline (haemolymph) via an electrodiffusive pathway (i.e. K+ channels).
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PMID:K+ reabsorption by the lower Malpighian tubule of Rhodnius prolixus: inhibition by Ba2+ and blockers of H+/K+-ATPases 931 3

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