Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P41181 (collecting duct)
 5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Atrial natriuretic peptide (ANP)(31-67), a portion of the atrial peptide prohormone, circulates in humans, and its plasma level varies with atrial pressure. Like the more widely studied carboxy-terminal fragment ANP(99-126), ANP(31-67) stimulates natriuresis and diuresis. We examined the mechanism of this natriuresis by measuring the effects of ANP(31-67) on Na+ transport in cells of the rabbit inner medullary collecting duct (IMCD). ANP(31-67) (10(-8) M) caused a 26 +/- 4% inhibition of oxygen consumption (QO2); half-maximal inhibition occurred at 10(-11) M, suggesting a physiologic effect. This effect was not additive with either ouabain or amiloride, suggesting that it reflected inhibition of Na+ transport-dependent QO2. ANP(31-67) reduced the amphotericin-induced stimulation of QO2 consistent with inhibition by this peptide of the Na(+)-K(+)-ATPase. In addition, ANP(31-67) reduced ouabain-sensitive 86Rb+ uptake under Vmax conditions. Several lines of evidence indicated that PGE2, a known endogenous IMCD Na(+)-K(+)-ATPase inhibitor, mediates pump inhibition by ANP(31-67). Thus, ANP(31-67) inhibits Na+ transport by inhibiting the Na(+)-K(+)-ATPase of IMCD cells, an effect mediated by the generation of PGE2.
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PMID:Atrial natriuretic peptide(31-67) inhibits Na+ transport in rabbit inner medullary collecting duct cells. Role of prostaglandin E2. 153 29

Vacuolar H+ ATPases reside in the plasma membrane of several segments of the mammalian nephron. In the proximal tubule, H+ ATPase is located in both the brush-border microvilli and in subvillar invaginations, while in the collecting duct intercalated cells, it is primarily in plasmalemma-associated membranes. H+ ATPase isolated from bovine kidney brush border has a cluster of polypeptides of Mr greater than 31,000 found associated with the Mr = 31,000 subunit, whereas H+ ATPase isolated from microsomes dose not have the additional associated polypeptides (Wang, Z.-Q., and Gluck, S. (1990) J. Biol. Chem. 265, 21957-21965, 1990). In this study, we describe the production of several new monoclonal antibodies to the bovine vacuolar H+ ATPase Mr = 31,000 subunit. Two of the antibodies differed in reactivity to the cluster of Mr greater than 31,000 subunits found in purified bovine kidney brush-border H+ ATPase. Antibody E11 reacted with both the Mr = 31,000 and Mr greater than 31,000 subunits and stained renal brush border intensely. Antibody H8 did not react with the Mr greater than 31,000 polypeptides and did not stain brush border. The heterogeneity of the Mr greater than 31,000 subunits did not appear attributable to glycosylation or phosphorylation. These findings provide further evidence for heterogeneity of the Mr = 31,000 subunit in different renal membrane compartments and suggest a role for the Mr greater than 31,000 polypeptides specific to the brush-border microvilli.
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PMID:Immunologic evidence that vacuolar H+ ATPases with heterogeneous forms of Mr = 31,000 subunit have different membrane distributions in mammalian kidney. 153 41

Cells from connecting tubule and cortical collecting duct of rabbit kidney were isolated by immunodissection with mAb R2G9 and cultured on permeable filters. Confluent monolayers developed an amiloride-sensitive transepithelial potential difference of -50 +/- 1 mV (lumen negative) and a transepithelial resistance of 507 +/- 18 omega cm2. Transepithelial Ca2+ transport increased dose-dependently with apical [Ca2+] and, in solutions containing 1 mM Ca2+, the active transcellular Ca2+ transport rate was 92 +/- 2 nmol h-1 cm-2. Transcellular Ca2+ transport was dependent on basolateral Na+ (Nab+). Isoosmotic substitution of Nab+ for N-methylglucamine resulted in a concentration-dependent decrease in Ca2+ absorption, with maximal inhibition of 67 +/- 5%. A Hill plot of the Na(+)-dependence yielded a coefficient of 1.9 +/- 0.4, indicating more than one Na+ site on a Na(+)-dependent Ca2+ transport system. In addition, the absence of Cab2+ resulted in a significant increase in Ca2+ transport both in the presence and absence of Nab+. Added basolaterally, ouabain (0.1 mM) inhibited Ca2+ transport to the same extent as did Na(+)-free solutions, while bepridil (0.1 mM), an inhibitor of Na+/Ca2+ exchange, reduced Ca2+ transport by 32 +/- 6%. Methoxyverapamil, felodipine, flunarizine and diltiazem (10 microM) were without effect. Depolarisation of the basolateral membrane, by raising [K+]b to 60 mM, significantly decreased transcellular Ca2+ transport, which is indicative of electrogenic Na+/Ca2+ exchange. In conclusion, active Ca2+ transport in the collecting system of rabbit kidney is largely driven by basolateral Na+/Ca2+ exchange. However, a residual Ca2+ absorption of about 30% was always observed, suggesting that other Ca2+ transport mechanisms, presumably a Ca(2+)-ATPase, participate as well.
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PMID:Role of Na+/Ca2+ exchange in transcellular Ca2+ transport across primary cultures of rabbit kidney collecting system. 161 31

We investigated mechanisms of regulatory volume increase in fused Madin-Darby canine kidney (MDCK) cells, a cell line originally derived from renal collecting duct. The intracellular ion concentrations as well as the concentration of the volume marker tetramethylammonium+ were measured by means of ion-selective microelectrodes. Application of hypertonic Ringer bicarbonate solution (+150 mmol/l mannitol) resulted in cell shrinkage to 84 +/- 2% of the initial cell volume (shrinkage expected for an ideal osmometer = 66%), indicating a significant regulatory volume increase. During the first 90 s of the hypertonic stress, a transient increase in intracellular Na+ and HCO3- concentrations was observed. It was followed by a sustained increase in intracellular K+ and Cl- concentrations. Ouabain (0.1 mmol/l) as well as amiloride (1 mmol/l) reduced K+ accumulation significantly, whereas the H+/K(+)-ATPase inhibitor SCH 28080 had no effect. Hypertonic stress hyperpolarized the cell membrane potential by 19 +/- 2 mV, owing to the decrease of the ratio of Cl- conductance to K+ conductance of the cell membrane. We conclude: (a) acute hypertonic stress activates Na+/H+ exchange in MDCK cells; (b) transient alteration of intracellular Na+ and pH stimulates Na+/K(+)-ATPase and Cl-/HCO3- exchange, exchange, both leading to the sustained intracellular accumulation of KCl; (c) a high intracellular KCl concentration is maintained by the partial reversion of the Cl-/K+ conductance ratio of the plasma membrane.
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PMID:Hypertonicity in fused Madin-Darby canine kidney cells: transient rise in NaHCO3 followed by sustained KCl accumulation. 165 30

The inner medullary collecting duct (IMCD) is the most distal portion of the nephron and plays an important role in urinary net acid excretion. The terminal or distal two thirds of the IMCD is lined by a single cell type, now termed the IMCD cell, which not only secretes protons, but transports sodium and potassium and responds to many hormones. The IMCD may account for greater than 50% of the excreted acid under control conditions and, during acidosis, absolute acid secretion may increase fivefold. Conversely, during alkalemia, acid secretion by this segment is abolished. Thus, the IMCD responds appropriately to perturbations in systemic acid-base balance. Furthermore, models of renal tubular acidosis have been demonstrated along this nephron segment. Three transporters that are important in acid-base control, the Na+/H+ and the Cl-/HCO3- exchanger and an active proton pump, presumably an H(+)-adenosine phosphatase (ATPase), have been demonstrated in IMCD cells. The former two are situated in the basolateral membrane, while the latter is situated in the apical membrane. Only the proton pump is responsible for actual acid addition to the urine. The intracellular mechanisms that modulate the proton pump are just beginning to be defined. It is likely that acid secretory activity involves exocytic insertion of additional pumps, and is dependent on cell pH changes, which are the primary signal, and on changes in intracellular calcium concentration and calmodulin activity, which are the second messengers.
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PMID:Regulation of acidification in the rat inner medullary collecting duct. 165 87

The usefulness of various segment and cell-type specific antibody, lectin and functional markers in the study of cystic renal lesions was evaluated. For this purpose, kidneys from recessive polycystic kidney disease (RPKD), thought to involve mainly the collecting ducts, and cystic kidneys of Meckel's syndrome (MS), which show dilation randomly along the nephron, were studied. The segment (and differentiation-stage)-specific anti-brush-border (specific for proximal tubules) antibodies stained morphologically normal proximal tubules, failed to react with cyst wall epithelium in RPKD, but readily stained some cysts in MS. Immunostaining for Tamm-Horsfall glycoprotein (distal tubules) similarly revealed normal tubular profiles, and also stained moderately dilated tubules, but not the large cysts in either disease type. Lectin markers of the distal tubules and collecting ducts (peanut agglutinin, Helix pomatia agglutinin and Dolichos biflorus agglutinin) reacted with both dilated tubules and with the cyst walls in RPKD and Meckel kidneys, suggesting that in RPKD, the dilations also occur in the distal nephron in addition to the collecting duct, and in MS in any part of the renal tubule. The cell type-specific functional marker of the collecting duct, anti-NaK-ATPase reactivity (found in principal cells) could be seen in RPKD but not in Meckel kidney cysts, suggesting a minor involvement of principal cells in MS. Consistent with this, only occasional carbonic anhydrase (found in intercalated cells) or band 3 (bicarbonate-chloride exchanger molecule of intercalated cells) of collecting ducts positive cells in the cysts could be seen, suggesting that intercalated cells are only sparsely seen in these lesions. The results show the usefulness of a panel of independent markers in studying the segment, cell-type and function-specific features of renal cystic lesions as a basis for their classification.
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PMID:Polycystic disease of the kidney. Evaluation and classification based on nephron segment and cell-type specific markers. 169 Mar 15

The present study was undertaken to investigate whether or not potassium deficiency influences N-ethylmaleimide (NEM)-sensitive ATPase in the distal nephron segments of the rat. One group of animals was fed a low-K diet, whereas the normal K-group was given the same diet after supplementation with KCl. The nephron segments examined were: the medullary and cortical thick ascending limbs, the distal convoluted tubule, and the cortical, outer and inner medullary collecting ducts. NEM-sensitive ATPase activity in microdissected segments was measured by a fluorometric microassay. The plasma K+ concentration in the low-K group was 3.1 +/- 0.3 mEq/l compared with 4.2 +/- 0.1 mEq/l in the normal-K group. NEM-sensitive ATPase activity in the outer medullary collecting duct of low-K diet animals was significantly greater than in normal-K animals. There was no significant difference in NEM-sensitive ATPase activity between the two groups of animals in the other nephron segments examined. It is suggested that NEM-sensitive H-ATPase activity in the outer medullary collecting duct is modulated by the potassium status of the animal.
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PMID:Effects of low-potassium diet on N-ethylmaleimide-sensitive ATPase in the distal nephron segments. 169 Sep 6

The effects of aldosterone on protein synthesis in the latent period were investigated on cultured renal collecting duct cells from neonatal rabbit kidneys. Tissue was incubated with radioactively labelled uridine and amino acids and then precipitated with trichloroacetic acid in order to determine the intracellular precursor pool and identify new synthesis of RNA and protein. During the latent period, aldosterone increased the intracellular radioactive uridine pool and total radioactive RNA content already 20 and 60 min after its application; conversely 40 min after aldosterone introduction, no stimulation was found. Further experiments revealed that the intracellular radioactive amino acid pool was generally increased by aldosterone after 20, 40 and 60 min, while a distinct increased radioactive protein content was found to be induced by aldosterone only after 40 min. This indicates that aldosterone increases the uptake of RNA and protein precursors and the new synthesis of RNA and proteins. These events seem to to be regulated not continuously but intermittently. The induced proteins possibly take part in the mediation of the early hormone response. Experiments with the aldosterone antagonist, spironolactone, provide evidence for the specificity of the described hormone effects. The results after application of the Na+ channel blocker, amiloride, and the Na+/K(+)-ATPase inhibitor, G-strophanthin, indicate that the aldosterone effects are controlled by Na+ channels and Na+ pumps and therefore by the intracellular Na+ content. The inhibitory effect of cycloheximide on the aldosterone-induced protein synthesis indicates the role of these proteins on the hormone-stimulated Na+ transport.
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PMID:Action of aldosterone on cultured renal collecting duct cells during the latent period. 170 11

Renal hydrogen ion excretion increases with chronic acid loads and decreases with alkali loads. We examined the mechanism of adaptation by analyzing vacuolar proton-translocating adenosine triphosphatase (H+ ATPase) 31-kD subunit protein and mRNA levels, and immunocytochemical distribution in kidneys from rats subjected to acid or alkali loads for 1, 3, 5, 7, and 14 d. Acid- and alkali-loaded rats exhibited adaptive responses in acid excretion, but showed no significant changes in H+ ATPase protein or mRNA levels in either cortex or medulla. In contrast, there were profound adaptive changes in the immunocytochemical distribution of H+ ATPase in collecting duct intercalated cells. In the medulla, H+ ATPase staining in acid-loaded rats shifted from cytoplasmic vesicles to plasma membrane, whereas in alkali-loaded rats, cytoplasmic vesicle staining was enhanced, and staining of plasma membrane disappeared. In the cortical collecting tubule, acid loading increased the number of intercalated cells showing enhanced apical H+ ATPase staining and decreased the number of cells with basolateral or poorly polarized apical staining. The results indicate that both medulla and cortex participate in the adaptive response to acid and alkali loading by changing the steady-state distribution of H+ ATPase, employing mechanisms that do not necessitate postulating interconversion of intercalated cells with opposing polarities.
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PMID:Expression and distribution of renal vacuolar proton-translocating adenosine triphosphatase in response to chronic acid and alkali loads in the rat. 182 94

Antidiuretic hormone (ADH) stimulation of toad bladder granular cells rapidly increases the osmotic water permeability (Pf) of their apical membranes by insertion of highly selective water channels. Before ADH stimulation, these water channels are stored in large cytoplasmic vesicles called aggrephores. ADH causes aggrephores to fuse with the apical membrane. Termination of ADH stimulation results in prompt endocytosis of water channel-containing membranes via retrieval of these specialized regions of apical membrane. Protein components of the ADH water channel contained within these retrieved vesicles would be expected to be integral membrane protein(s) that span the vesicle's lipid bilayer to create narrow aqueous channels. Our previous work has identified proteins of 55 (actually a 55/53-kDa doublet), 17, 15, and 7 kDa as candidate ADH water channel components. We now have investigated these candidate ADH water channel proteins in purified retrieved vesicles. These vesicles do not contain a functional proton pump as assayed by Western blots of purified vesicle protein probed with anti-H(+)-ATPase antisera. Approximately 60% of vesicle protein is accounted for by three protein bands of 55, 53, and 46 kDa. Smaller contributions to vesicle protein are made by the 17- and 15-kDa proteins. Triton X-114-partitioning analysis shows that the 55, 53, 46, and 17 kDa are integral membrane proteins. Vectorial labeling analysis with two membrane-impermeant reagents shows that the 55-, 53-, and 46-kDa protein species span the lipid bilayer of these vesicles. Thus the 55-, 53-, and 46-kDa proteins possess characteristics expected for ADH water channel components. These data show that the 55- and 53- and perhaps the 46-, 17-, and 15-kDa proteins are likely components of aqueous transmembrane pores that constitute ADH water channels contained within these vesicles.
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PMID:Quantitation and topography of membrane proteins in highly water-permeable vesicles from ADH-stimulated toad bladder. 183 Apr 55


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