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)

By in vitro experiments on rabbit bladder, we reassessed the traditional view that mammalian urinary bladder lacks ion transport mechanisms. Since the ratio of actual-to-nominal membrane area in folded epithelia is variable and hard to estimate, we normalized membrane properties to apical membrane capacitance rather than to nominal area (probably 1 muF approximately 1 cm2 actual area). A new mounting technique that virtually eliminates edge damage yielded resistances up to 78,000 omega muF for rabbit bladder, and resistances for amphibian skin and bladder much higher than those usually reported. This technique made it possible to observe a transport-related conductance pathway, and a close correlation between transepithelial conductance (G) and short-circuit current (Isc) in these tight epithelia. G and Isc were increased by mucosal (Na+) [Isc approximately 0 when (Na+) approximately 0], aldosterone, serosal (HCO-3) and high mucosal (H+); were decreased by amiloride, mucosal (Ca++), ouabain, metabolic inhibitors and serosal (H+); and were unaffected by (Cl-) and little affected by antidiuretic hormone (ADH). Physiological variation in the rabbits' dietary Na+ intake caused variations in bladder G and Isc similar to those caused by the expected in vivo changes in aldosterone levels. The relation between G and Isc was the same whether defined by diet changes, natural variation among individual rabbits, or most of the above agents. A method was developed for separately resolving conductances of junctions, basolateral cell membrane, and apical cell membrane from this G--Isc relation. Net Na+ flux equalled Isc. Net Cl- flux was zero on short circuit and equalled only 25% of net Na+ flux in open circuit. Bladder membrane fragments contained a Na+-K+-activated, ouabain-inhibited ATPase. The physiological significance of Na+ absorption against steep gradients in rabbit bladder may be to maintain kidney-generated ion gradients during bladder storage of urine, especially when the animal is Na+-depleted.
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PMID:Na+ transport by rabbit urinary bladder, a tight epithelium. 0 12

Na-K-ATPase activity was measured with an ultramicromethod in single portions of the proximal and distal convolution and of the thick ascending limb of Henle from adrenalectomized rats and after treatment with 5 mug aldosterone per 100 g body wt. The activity in all tubular structures returned to normal within 1 h after injection. This rapid activation of Na-K-ATPase induced by hormone was completely prevented by actinomycin D and cycloheximide. It appears that this aldosterone effect on Na-K-ATPase requires an intact protein synthetic process.
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PMID:Sodium- and potassium-activated ATPase. A possible target of aldosterone. 12 53

Aldosterone reactivates the impaired Na-K-ATPase very rapidly along the course of the distal tubule and in the proximal convolution. Surprisingly the latent period before enzyme induction parallels with the latent period before the restoration of active sodium reabsorption after a physiological dose of aldosterone [7]. Induction of Na-K-ATPase can be prevented by cycloheximide or actinomycin D, inhibitors of protein synthesis; this proves that protein synthesis is necessary for the induction of Na-K-ATPase. Although this kind of data can be interpreted as due to de-novo-synthesis for the induced enzyme this conclusion is not proved by such data. Another way of aldosterone action could exist in demasking inactive enzyme molecules which are already present in the membrane. Because of the very short latent period between aldosterone application and restoration of Na-K-ATPase we cannot exclude this possibility. The most important finding of our study is the rapid reactivation of the impaired Na-K-ATPase in the proximal and distal tubule after a single dose of aldosterone.
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PMID:Hormonal effects on Na-K-ATPase of various parts of the rat nephron. 12 92

The specific activity of sodium-potassium-activated adenosine triphosphatase in the mucosa of the colon rises when the dietary load of potassium is increased. The change in enzymatic activity depends on the presence of intact adrenal glands, since adrenalectomy abolishes the response of Na-K-ATPase to potassium loading. The increased secretory rate of aldosterone normally evoked by potassium loading appears to mediate at least in part of the effect of potassium loading, since aldosterone induces a discernible increase in the specific activity of Na-K-ATPase in the colon of adrenalectomized rats.
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PMID:Potassium adaptation and Na-K-ATPase activity in mucosa of colon. 12 14

In the serum of two infant sisters with a congenital renal salt-losing syndrome, Na was rather low and K considerably increased. Even with Na levels of 126 mval/1, sodium was excreted in the urine. Creatinine and hippurate clearances were normal. Primary disturbances of the steroid metabolism were not detectable; plasma cortisol was normal, aldosterone and renin were compensatorily increased. Treatment with DOCA was unsuccessful. Whereas the first infant died (in another hospital), the second one throve well with high oral substitution of NaCl. There was no pathological findings other than a moderate hyperplasia of the juxtaglomerular apparatus, in a kidney biopsy. Except for minimal activity in the ascending limb of Henle's loop, there was no membrane bound Na, K-ATPase in the microdissected tubules. This finding most probably explains the renal salt loss, as this enzyme is necessary for the transcellular flow of sodium and potassium.
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PMID:Tubular Na, K-ATPase deficiency, the cause of the congenital renal salt-losing syndrome. 12 30

Using quantitative cytochemistry, activities of Na, K-ATPase, succinate dehydrogenase (SDH) and alpha-keto-glutarate dehydrogenase (alpha-KDH) was investigated in cells of renal tubules at different levels of sodium reabsorption in the kidney. The activity of these enzymes in mammals and birds renal tubule cells was found to be higher than in the cells of corresponding renal tubules of cold-blooded vertebrates. This corresponds to the increased total amount of reabsorbed sodium in the kidney of warm-blooded animals. The summer frogs, as compared to the winter ones, exhibit higher activities of SDH and Na,K-ATPase in the proximal tubule cells where changes in sodium reabsorption are also noted. In the kidney of marine teleosts, a negative correlation between U/PNa and the activity of SDH and Na,K-ATPase in the cells of proximal and distal tubule was observed. Aldosterone was found to stimulate sodium reabsorption and to activate Na,K-ATPase.SDH and alpha-KDH mainly in the distal convoluted tubule. Furosemide was observed to inhibit sodium reabsorption and to reduce SDH and Na,K-ATPase activities in cells of the proximal tubule and Henle's loop. In the kidney of adrenalectomized rats, both sodium reabsorption and activities of Na,K-ATPase, SDH, alpha-KDH decreased in all the segments of the nephron. The data obtained suggest that changes in sodium reabsorption may be coupled with those in the activities of the investigated enzymes.
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PMID:[A cytophotometric analysis of the activity of oxidative enzymes and Na, K-ATPASE in vertebrate nephrons at different levels of sodium transport in the kidney]. 13 80

The effects of bumetanide, a new potent diuretic, on net sodium transport of the isolated frog skin and on rat renal Na-K-ATPase were studied. A dose-related decrease in short-circuit current and potential difference with increased electrical resistance was observed when bumetanide was added to the corial side of the skin. Addition to the epithelial side resulted in enhanced net sodium transport with decreased electrical resistance. When applied to the corial side it abolished vasopressin- and aldosterone-stimulated transport. Present in the epithelial bath ouabain-inhibited transport was unaffected by this drug, while triamterene-induced inhibition of sodium transport was completely abolished. In vitro, no significant effects on Na-K-ATPase were noted. It is concluded that bumetanide shares properties of both furosemide and ethacrynic acid and excerts its effects on epithelial sodium transport by altering membrane permeability and possibly by inhibition of some step in the active transport mechanism for sodium.
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PMID:Effects of bumetanide on sodium transport of the isolated frog skin and on renal Na-K-ATPase. 13 61

Aldosterone (15 microgram BID) and methylprednisolone (8 mg QD) administration to female guinea-pigs augmented both the total and the specific activity of NaK-ATPase but not the activity of adenylate cyclase in the cardiac sarcolemma. The rise in NaK-ATPase was due to increase in the number of enzyme molecules; catalytic activity and ouabain-sensitivity of individual molecules did not change.
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PMID:Effect of aldosterone and methylprednisolone on cardiac NaK-ATPase. 14 69

In man, mechanisms for potassium excretion are complex and highly developed, while potassium conservation is potentially inadequate. Potassium balance is regulated by alterations in excretion in the distal renal tubule, where mineralocorticoid hormones and Na-K ATPase are the major regulating factors. The distribution of potassium across cell membranes is influenced by changes in acid-base status, by pancreatic hormones and by the autonomic nervous system. Potassium stimulates insulin and aldosterone secretion and increases Na-K ATPase in the distal nephron, so promoting its own redistribution or excretion. Emergency management of hyperkalaemia is best effected by promoting cell-entry of potassium, rather than renal excretion. The speed of replacement of deficits is always limited by the small extracellular potassium pool.
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PMID:Potassium metabolism. 14 13

The formation of cellular aggregates (foci) in CV-1 cells following infection with Yaba tumor poxvirus is dependent upon cell passage level, temperatue of incubation, and calcium concentration in the medium. Resistance of older cells can be reversed by maintaining calcium at 0.1 mM or by adding cortisone acetate (1 mug/ml), hydrocortisone, or estradiol-17beta to the cultures. In susceptible cells, foci formation was inhibited slightly by methyltestosterone and inhibited completely by dexamethasone, aldosterone and progesterone. Activities and patterns of enzymes associated with cytoplasmic membranes (alkaline phosphatase, mononucleotidase, and Na+-K+-adenosine triphosphatase) and lysosomes (beta-glucuronidase and acid phosphatase) of the younger susceptible and the older resistant CV-1 cells differed. These differences apparently occurred in concert with phenotypic changes in the membranes that reduced the mobility of older resistant cells. In susceptible culture, unifected cells migrated to the infected cell and participated in foci formation. Reduction of the calcium content to 0.1 mM apparently removed some of the constraints on mobility of the resistant cells. Although the hormones may have had a similar effect, the changes in enzyme patterns indicated basic alterations in protein synthesis. The development of resistance to foci formation occurred between the 45th and 50th passage level. Hormonal reversal of this resistance resulted in enzyme profiles that reflected the pattern of young susceptible cells.
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PMID:Alterations of enzymes associated with plasma membranes and cellular organelles during infection of CV-1 cells with Yaba tumor poxvirus. 16 62


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