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)

To evaluate the involvement of K(+)-ATPase activity in K+ transport in the terminal segments of the rat nephron, we searched for the existence of a component of Rb+ uptake into microdissected segments of collecting tubule associated with the activity of this ATPase. Results indicated that K(+)-ATPase is stimulated by K+ and by Rb+ in a similar fashion and that it is specifically inhibited by the imidazopyridine Sch 28080 (apparent affinity approximately 5 x 10(-7) M). In both cortical and outer medullary collecting tubules (CCT and MCT) of normal rats, 10(-4) M Sch 28080 significantly inhibited the initial rate of Rb+ uptake. Sch 28080-sensitive Rb+ uptake in these two nephron segments was not altered by ouabain, as K(+)-ATPase activity. Finally, both K(+)-ATPase activity and Sch 28080-sensitive Rb+ uptake were increased by similar factors in the CCT and MCT of rats fed a K(+)-depleted diet for 3 days. In these two nephron segments, the apparent stoichiometry of K(+)-ATPase was 1 Rb+:1 ATP. These results demonstrate that K(+)-ATPase reflects the activity of a K+ pump that is pharmacologically similar to the gastric H(+)-K+ pump.
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PMID:K(+)-ATPase-mediated Rb+ transport in rat collecting tubule: modulation during K+ deprivation. 182 29

Mineralocorticoid levels are an important determinant of membrane area and ion transport in the renal initial (ICT) and cortical (CCT) collecting tubules. Adrenalectomy leads to a dramatic and specific decrease in basolateral membrane area of principal (P) cells and depresses sodium reabsorption and potassium secretion. Although aldosterone replacement for 10 days restores basolateral membrane area and ATPase activity to control levels and dramatically elevates ion transport, glucocorticoids have no effect on basolateral membrane area, ion transport, or ATPase. It is suggested that the aldosterone-induced amplification of membrane area occurs as a mechanism whereby cells increase the number of ATPase pumps in the basolateral membrane. An acute (of 2-3 h) increase in aldosterone, but not dexamethasone, also stimulates potassium transport by the ICT. Future studies will have to establish whether the acute stimulation of transport by aldosterone involves a change in basolateral membrane area. It is concluded that mineralocorticoids, but not glucocorticoids, regulate sodium and potassium transport by P cells of the ICT and CCT, in part, by determining the number of ATPase pumps available for transport.
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PMID:Role of adrenal hormones in regulating distal nephron structure and ion transport. 241 Feb 98

Because previous studies indicated that in the collecting tubule, N-ethylmaleimide (NEM)-sensitive ATPase, the biochemical equivalent of the proton pump, is controlled by mineralocorticoids in the long term, the present study was designed to investigate whether such control also exists in the short term. Therefore we investigated the in vivo and in vitro effects of aldosterone on the enzyme activity in cortical and outer medullary collecting tubules (CCT and MCT, respectively) from adrenalectomized rats. Administration of aldosterone (10 micrograms/kg body wt) markedly stimulated NEM-sensitive ATPase activity in the CCT and MCT within 3 h. Similarly, incubating CCT or MCT for 3 h in the presence of 10(-8) M aldosterone enhanced NEM-sensitive ATPase activity up to values similar to those previously measured in the corresponding nephron segments of normal rats. In vitro stimulation of NEM-sensitive ATPase was dose dependent in regard to aldosterone (apparent affinity constant approximately 10(-9) M), appeared after a 30-min lag period, and reached its maximum after 2-2.5 h. Finally, actinomycin D and cycloheximide totally abolished the in vitro action of aldosterone, demonstrating the involvement of protein synthesis in this process.
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PMID:Short-term effect of aldosterone on NEM-sensitive ATPase in rat collecting tubule. 252 68

This study was designed to correlate morphological alterations induced in rat collecting tubule by potassium depletion with changes in the activity of enzymatic markers of the cell basolateral membrane. Results show the following responses. 1) Potassium depletion induced a huge and progressive hypertrophy of the outer medullary collecting tubule (MCT). Hypertrophy was paralleled by enhancements of vasopressin- and forskolin-dependent adenylate cyclase (AC) activities. Glucagon-sensitive AC was also increased, but with a different kinetics, whereas isoproterenol-dependent AC was only modestly stimulated. 2) In cortical (CCT) and papillary collecting tubules, AC response to hormones did not change. The concentrating defect of K-deprived rats, therefore, does not appear to result from an intrinsically defective adenylate cyclase system in any portion of the collecting tubule. Decreased AC response of the medullary thick ascending limb to vasopressin and glucagon, observed after 3-5 wk of K depletion, might account, at least in part, for reduced hypertonicity of medullary tissue. 3) Na+-K+-ATPase activity fell in CCT, probably in relation to decreased K secretion. Conversely, in MCT, Na+-K+-ATPase rose much more than tubular volume. The physiological significance of this latter observation remains to be established.
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PMID:Alterations of enzymatic activities along rat collecting tubule in potassium depletion. 288 16

Rabbit nephron segments of proximal convoluted tubules (PCT); proximal straight tubules (PST); cortical and medullary thick ascending limbs of Henle's loop (CAL, MAL); and cortical, outer medullary, and inner medullary collecting tubules (CCT, OMCT, IMCT) were individually microdissected and grown in monolayer culture in hormone supplemented, defined media. Factors favoring a rapid onset of proliferation included young donor age, distal tubule origin, and the addition of 3% fetal calf serum to the medium. All primary cultures had polarized morphology with apical microvilli facing the medium and basement membrane-like material adjacent to the dish. Differentiated properties characteristic of the tubular epithelium of origin retained in cultures included ultrastructural characteristics and cytochemically demonstrable marker enzyme proportions. PCT and PST were rich in alkaline phosphatase; CAL stained strongly for NaK-ATPase; CCT contained two cell populations with regard to cytochrome oxidase reaction. A CCT-specific anti-keratin antibody (aLEA) was immunolocalized in CCT cultures, and a PST cytokeratin antibody stained PST cultures. The biochemical response of adenylate cyclase to putative stimulating agents was the same in primary cultures as in freshly isolated tubules. In PCT and PST adenylate cyclase activity was stimulated by parathyroid hormone (PTH) but not by arginine vasopressin (AVP); CAL and MAL adenylate cyclase was stimulated by neither PTH nor AVP; CCT, OMCT, and IMCT adenylate cyclase was stimulated by AVP but not by PTH. NaF stimulated adenylate cyclase activity in every cultured segment. It is concluded that primary cultures of individually microdissected rabbit PCT, PST, CAL, MAL, CCT, OMCT, and IMCT retain differentiated characteristics with regard to ultrastructure, marker enzymes, cytoskeletal proteins, and hormone response of adenylate cyclase and provide a new system for studying normal and abnormal functions of the heterogeneous tubular epithelia in the kidney.
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PMID:Retention of differentiated characteristics by cultures of defined rabbit kidney epithelia. 381 2

Both glucocorticoids and mineralcorticoids stimulate the renal Na-K-ATPase. However, the exact site of their respective action is not precisely determined and it is still unknown whether these effects are cumulative or not. We studied the effects of dexamethasone and aldosterone on Na-K-ATPase activity in microdissected nephron segments from adrenalectomized rabbits. In proximal convoluted tubule (PCT) the enzyme activity was altered neither by adrenalectomy nor by any steroid replacement. In the medullary thick ascending limb of the loop of Henle (MAL) and the distal convoluted tubule (DCT), Na-K-ATPase activity decreased by 40% after adrenalectomy, and was restored to control level three hours after administration of dexamethasone (100 micrograms/kg) but not by aldosterone (up to 10 micrograms/kg). In the cortical (CCT) and medullary (MCT) collecting tubule the enzyme activity decreased by 75% after adrenalectomy but in contrast with the MAL and the DCT, these two segments were sensitive to both dexamethasone (100 micrograms/kg) and aldosterone (10 micrograms/kg) and recovered their activities within 3 h after the hormone injection. These effects were not additive. Spironolactone (100 micrograms/kg) abolished the action of each of the two hormones on the CCT and MCT. In contrast, spironolactone did not curtail the effect of dexamethasone on MAL and DCT. These results indicate that whereas glucocorticoid action is localized in MAL, DCT, CCT and MCT, the mineralocorticoid effect is restricted to the CCT and MCT exclusively. They also suggest that, in the CCT and MCT, the two types of hormones share the same receptors.
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PMID:Short-term effects of aldosterone and dexamethasone on Na-K-ATPase along the rabbit nephron. 613 88

Chromobindin A is a multisubunit complex ATPase that binds to chromaffin granule membranes in a calcium-dependent manner and requires ATP for release from the membrane (Martin, W. H., and Creutz, C. E. (1987) J. Biol. Chem. 262, 2803-2810). Here we report that the seven previously characterized subunits of chromobindin A cross react with antisera specific to subunits of CCT, the chaperonin containing TCP-1 (Kubota, H., Hynes, G., Carne, A., Ashworth, A., and Willison, K. (1994) Curr. Biol. 4, 89-99). The chromobindin A subunits previously called chromobindins 12, 13, 14, 15, 16, 18, and 19 cross-react specifically with subunits beta, delta, theta, alpha, zeta, xi, and gamma, respectively, of CCT. Additional similarities in subunit molecular weights, isoelectric points, and the morphologies of the two protein complexes as determined by electron microscopy support identification of chromobindin A as an adrenal medullary form of CCT. The chromobindin A/CCT complex was found to bind at least 7-fold more efficiently to affinity columns of chromaffin granule membranes than of adrenal medullary cytosol proteins, suggesting a specific interaction occurs between the complex and membrane components. The results indicate that the previously described characteristics of chromobindin A are likely to be relevant to the functions of CCT and suggest that the adrenal medullary form of CCT may play a role in the activities of secretory vesicle membranes.
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PMID:Identification of the major chromaffin granule-binding protein, chromobindin A, as the cytosolic chaperonin CCT (chaperonin containing TCP-1). 779 95

The chaperonin containing t-complex polypeptide 1 (TCP-1), as one of its subunits, CCT, is a cytosolic heterooligomeric molecular chaperone assisting in the folding of proteins in eukaryotic cytosol. We have isolated a Tcp-1-related 119-bp cDNA fragment from a human cDNA library by polymerase chain reaction, and cloned full-length mouse cDNAs orthologous to the human cDNA by hybridization. The nucleotide (nt) sequence of the longest mouse clone (1844 bp) shows an open reading frame (ORF) encoding a TCP-1-related polypeptide of 548 amino acids (aa) (59,562 Da). This gene is different from Tcp-1 and the six Tcp-1-related genes reported previously, Tcp-1 (Ccta), Cctb, Cctg, Cctd, Ccte, Cctz and Ccth, which encode subunits of CCT. The product of the novel gene was analysed using an antibody raised against the C terminus of the polypeptide deduced from the nt sequence. We found that this gene encodes a subunit of CCT (polypeptide S1; 62 kDa and pI 6.25 by two-dimensional gel analysis). We have named it Cctq, encoding the theta subunit of CCT (CCT theta). The aa sequence of CCT theta shows 23-29% identity to the other CCT subunits, alpha, beta, gamma, delta, epsilon, zeta and eta, and 29% identity to the archaebacterial chaperonin TF55. CCT theta also contains the motifs common to all the other subunits of CCT which are postulated to be involved in ATPase activity.
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PMID:The eighth Cct gene, Cctq, encoding the theta subunit of the cytosolic chaperonin containing TCP-1. 789 Jan 69

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

We examined the effects of trimethoprim (TMP) on metabolic parameters and renal ATPases in rats after a 90 minute infusion (9.6 mg/hr/kg body wt, i.v.) and after 14 days (20 mg/kg body wt/day, i.p.). After one dose of TMP, plasma electrolytes, arterial pH and aldosterone levels were normal, but a natriuresis, bicarbonaturia, and decreased urinary potassium excretion occurred. Na-K-ATPase activity in microdissected segments from these animals was decreased by 36 +/- 0.9% in proximal convoluted tubule (PCT) (P < 0.005); decreases of 50 +/- 2.1% and 40 +/- 1.1% were seen in cortical and medullary collecting tubules (CCT and MCT), respectively (P < 0.005). Na-K-ATPase activity was unaffected in medullary thick ascending limb (MTAL). H-ATPase (in PCT and collecting duct) and H-K-ATPase (in CCT and MCT)-activities were not changed. Following chronic TMP administration, plasma potassium increased as compared to control (5.16 +/- 0.05 mEq/liter vs. 3.97 +/- 0.05 mEq/liter, P < 0.05), however, acid-base status and plasma aldosterone levels were normal. Na-K-ATPase activity was decreased by 45 +/- 2.6% in PCT (P < 0.005), 73 +/- 2.0% in CCT (P < 0.001), and 53 +/- 2.5% in MCT (P < 0.005). Na-K-ATPase, activity in MTAL and H-K-ATPase activity in CCT and MCT were unchanged. H-ATPase activity in PCT and MTAL was normal, but in the collecting tubule (CCT and MCT) it was decreased by approximately 25% (P < 0.05). TMP inhibited Na-K-ATPase activity in a dose-dependent fashion in PCT, CCT, and MCT when tubules from normal animals were incubated in vitro with the drug; TMP in vitro did not affect H-ATPase or H-K-ATPase activity. These results suggest that TMP-induced hyperkalemia may result from decreased urinary potassium excretion caused by inhibition of distal Na-K-ATPase, in the face of intact H-K-ATPase activity.
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PMID:Studies on the mechanism of trimethoprim-induced hyperkalemia. 873 Nov 2

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