UNIPROT:P41181 - FACTA Search

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Query: UNIPROT:P41181 (collecting duct)
5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epithelial cell polarity and vectorial transport require cytoskeletal proteins that maintain local cell membrane structure and mediate cytoplasmic vesicle movement. The cytoskeleton of leaky epithelia, such as the intestinal mucosa and renal proximal tubule cells, has been extensively studied. However, cytoskeletal studies in tight epithelia such as the mammalian collecting duct and toad urinary bladder generally have been confined to ultrastructural investigation. Recent research in nonepithelial cell types has identified an interesting family of cytoskeletal proteins. Present in multiple cell types, these protein 4.1 analogues share a number of similar functional characteristics, yet are structurally diverse. They are multiply phosphorylated by several different kinases, and phosphorylation regulates their associations with other cytoskeletal constituents, integral membrane components, and cytoplasmic vesicles. Using a combination of immunochemical and immunofluorescent techniques, we have demonstrated that toad bladder epithelial cells contain a 65-kDa analogue of human erythrocyte protein 4.1. Toad bladder epithelial cell protein 4.1 is structurally similar to its erythrocyte counterpart and is phosphorylated. This protein 4.1 species is present throughout the toad bladder granular cell cytoplasm, suggesting that it participates in multiple granular cell functions.
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PMID:Toad urinary bladder epithelial cells contain an analogue of cytoskeletal protein 4.1. 190 84

This article is based on a Basic Science Symposium presented at the 23rd Annual Meeting of the American Society of Nephrology. New information on the segmental transport of ammonium by the proximal tubule, the thick ascending limb of Henle's loop, and the collecting duct is integrated into a thesis that NH4+ excretion is controlled by the rate of production, by diffusion of NH3 along gradients established by proton secretion, and by active transport of NH4+. These new concepts are applied to a novel explanation of the pathogenesis of distal renal tubular acidosis.
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PMID:Ammonium transport in the kidney: new physiological concepts and their clinical implications. 193 32

A method for studying the in vivo accumulation of inorganic mercury along the nephron of Sprague-Dawley rats pretreated with a radiolabelled 0.66 mumol/kg dose of mercuric chloride is described in this article. Forth-eight hr after rats received the radiolabelled dose of mercuric chloride intravenously the kidneys of the animals were perfused in situ with a collagenase solution in order to dissect and isolate various readily assessable segments of the nephron and collecting duct. Three different categories of tubular segments were isolated; proximal convoluted tubules, proximal straight tubules and combined segments of the distal nephron and collecting duct. A group of isolated tubular segments were measured in length, drawn up and placed in counting tubes, and placed in a gamma counter for the determination of the content of inorganic mercury that accumulated in them during the 48 hr subsequent to the administration of the dose of mercuric chloride. In a separate set of animals, the intrarenal distribution of inorganic mercury was determined 48 hr after the intravenous dose of mercuric chloride was administered. Inorganic mercury accumulated mainly in the renal cortex and outer stripe of the outer medulla. In addition, the concentration of inorganic mercury in the outer stripe of the outer medulla was twice that in the cortex. The findings obtained with the isolated tubular segments revealed that most of the accumulated inorganic mercury in the kidneys of the rats was in the proximal tubule.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Method for studying the in vivo accumulation of inorganic mercury in segments of the nephron in the kidneys of rats treated with mercuric chloride. 194 26

The Gs alpha and Gi alpha 1-3 subunits of GTP-binding proteins were localized in sections of rat kidney using antibodies against unique synthetic decapeptides from the different G alpha subunits. All of the G alpha subunits were found to have a polarized distribution on renal tubule epithelial cells, and staining was typically found on either basolateral or apical membranes in a given cell type. Gi alpha 1 was localized to the apical pole of both thick ascending limb cells and cells forming the papillary epithelium, Gi alpha 2 labeled the basolateral plasma membrane and the cytoplasm of collecting duct principal cells, and Gi alpha 3 was most abundant in the apical region of proximal tubule cells of the S1 segment, where it was concentrated in sub-brush-border invaginations. It was also found in the perinuclear Golgi complex in these cells. Gs alpha was heavily concentrated on the basolateral plasma membranes of thick ascending limb cells and both principal and intercalated cells of the collecting duct. Less intense subapical staining of G alpha s was also found in proximal tubule cells. The cells of the macula densa had a unique G protein distribution that was distinct from the surrounding cells of the thick ascending limb of Henle. Antibodies specific for the Gi alpha 1 and Gi alpha 3 subunits both stained intracellular vesicles clustered at the basal pole of the cell. A heterogeneous distribution of G alpha subunits was also found by Western blotting on isolated cortical membrane fractions.
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PMID:Heterogeneous localization of G protein alpha-subunits in rat kidney. 195 14

Dopamine (DA), a catecholamine produced in the kidney, is a renal vasodilator and natriuretic substance, but its action at dopamine-1 (DA-1), dopamine-2 (DA-2) and alpha- and beta-adrenergic receptors limits its effectiveness as a heuristic tool and pharmacologic agent. We have studied the effects of highly selective DA-1 and DA-2 receptor agonists and antagonists in normal human subjects and experimental animals to determine the precise physiological role of renal dopamine at DA-1 and DA-2 receptors within the kidney. We studied fenoldopam, a selective DA-1 agonist, in normal human subjects in metabolic balances at high (300 mEq/day) and low (10 mEq/day) sodium (Na) intake. Selective DA-1 receptor stimulation during high Na intake resulted in renal vasodilation, natriuresis and diuresis in a sustained manner for 3 hours. The natriuresis was mediated by a reduction in Na reabsorption at both proximal and distal tubular sites. In contrast, during low Na intake, DA-1 receptor stimulation did not engender a natriuretic or diuretic response. Thus, sodium depletion may inhibit the function of renal tubular cells in response to DA-1 stimulation. DA-1 receptors are present in the medial layer of the renal vasculature, proximal tubule and cortical collecting duct; DA-2 receptors are localized to the glomerulus, the renal nerves surrounding renal blood vessels and possibly the renal vascular endothelium. We have performed studies in conscious dogs with indwelling renal arterial catheters to identify the physiological role of renal DA to DA-1 and DA-2 receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dopamine-1 and dopamine-2 mechanisms in the control of renal function. 197 44

Dopamine (DA), via DA-1 receptors, regulates Na+ transport in the kidneys. Dopamine is synthesized from L-DOPA in the proximal tubule and presumably secreted as an autocrine/paracrine substance to stimulate DA-1 receptors localized on proximal tubular cells. We have previously reported the presence of DA-1 receptors in renal cortical homogenates and on the isolated proximal tubule of the rat and rabbit, consistent with the dopamine autocrine/paracrine model. We have localized DA-1 receptors in the proximal straight tubule of the rabbit, and in the cortical collecting duct of the rabbit and rat, but not in the distal collecting tubule or the cortical thick ascending loop of Henle. The presence of functional DA-1 receptors has been substantiated by the coexistence of DA-1 agonist-stimulated adenylate cyclase activity in the same nephron segments in which DA-r receptors have been found. Increased concentrations of intrarenal dopamine induced by dopamine-beta-hydroxylase inhibition with SKF-102698 caused a down regulation of proximal tubular DA-1 receptors and almost complete ablation of DA-1 agonist stimulated adenylate cyclase activity. Thus, dopamine may play a role in the regulation of DA-1 receptors and their linkage with adenylate cyclase. Since alterations in the renal dopaminergic system have been measured in some forms of experimental hypertension, we studied DA-1 receptors and their coupling to adenylate cyclase in the spontaneously hypertensive rat (SHR).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A renal dopamine-1 receptor defect in two genetic models of hypertension. 197 47

Glucose is actively taken up from the glomerular filtrate into the tubule cells by the Na(+)-dependent active glucose transporter (GT), and passively crosses the basolateral membrane via facilitated diffusion GT. With the use of antibodies directed against two types of GTs, we show the immunocytochemical localization of the Na(+)-dependent active GT (SGLT1) and the erythrocyte/HepG2-type facilitated diffusion GT (GLUT1). For light microscopic observation, frozen sections were stained by the rhodamine labeling method. Counterstaining with fluorescein-phalloidin and 4,6-diamidino-2-phenylindole dihydrochloride (DAPI) was employed to facilitate cell type identification. Immunogold staining was carried out on ultra-thin frozen sections for electron microscopy. The antibody to SGLT1 reacted with a 77 KD protein in immunoblotting of a kidney lysate. By immunocytochemistry, SGLT1 was localized in the microvillous plasma membrane in the apical brush borders of the cells of all three proximal tubule segments (S1, S2, and S3). The antibodies to GLUT1, a member of the facilitated diffusion GT family, were raised against human erythrocyte GT or synthetic oligopeptides derived from HepG2 GT, which reacted with a 48 KD protein in immunoblotting of the kidney lysate. GLUT1 was found at the basolateral plasma membranes of S3 proximal tubule cells, cells of the thick limb of Henle's loop, and collecting duct cells. Combined with known physiological data, our findings suggest that SGLT1 in the apical plasma membrane of the proximal tubule cells is responsible for the Na(+)-dependent active reabsorption of glucose from the glomerular filtrate. GLUT1 in the basolateral plasma membrane of S3 cells may transport reabsorbed glucose to the blood vessels. GLUT1 in the basolateral plasma membranes of cells of the thick limb of Henle's loop and of the collecting duct, on the other hand, may nourish these metabolically active cells by facilitating the diffusion of extracellular glucose provided from blood through the basolateral side of the cells.
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PMID:Localization of Na(+)-dependent active type and erythrocyte/HepG2-type glucose transporters in rat kidney: immunofluorescence and immunogold study. 199 28

Free-flow micropuncture and in situ microperfusion techniques were used to define the site of action and relative effect of MK447 [2-aminomethyl-4-(1,1-dimethylethyl)-6-iodophenol hydrochloride] vs. furosemide in the rat kidney. MK447 was administered i.v. at 5 mg/kg/hr. Infusion of this drug had little effect on proximal tubule reabsorption of water, Na+ and K+. In contrast, reabsorption of these constituents by the loop of Henle was significantly reduced. There was a tendency for water and Na+ reabsorption to rise and for K+ secretion to fall along the distal tubule. These latter effects can be explained by the contributions of an increased distal flow rate and increased tubule fluid K+ concentration. Net addition of K+ beyond the distal tubule was observed. This may be due to effect of the drug on the collecting duct system or juxtamedullary nephrons. The effects of MK447 and furosemide on loop of Henle reabsorption were compared in microperfusion experiments. Furosemide reduced Na+, K+ and water reabsorption by the loop, whereas MK447 had no effect. A 6-bromophenol sulfate ester of MK447 significantly reduced loop reabsorption. From these observations, we conclude that MK447 affects water and electrolyte reabsorption by the loop of Henle and beyond the superficial late distal tubule. The fact that a potential metabolite, but not MK447, significantly reduced reabsorption by the in situ, perfused loop of Henle supports the hypothesis that the p.o. and i.v. effects of MK447 are dependent on metabolism.
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PMID:Micropuncture evaluation of the site of action of 2-aminomethyl-4-(1,1-dimethylethyl)-6-iodophenol hydrochloride (MK447) in the rat kidney. 199 96

Epidermal growth factor (EGF) is a 53-amino acid polypeptide that is known to produce a number of biologic effects both in vitro and in vivo. High concentrations of EGF are found in urine, and high concentrations of prepro-EGF mRNA have been detected in kidney, localized to thick ascending limb of Henle (TALH) and distal convoluted tubule. Specific high-affinity EGF receptors have been demonstrated in mesangial cells, proximal tubule, and cortical and inner medullary collecting duct, as well as in medullary interstitial cells. In the proximal tubule, EGF binding and EGF receptor-associated tyrosine kinase activity are localized to basolateral membrane, and functional responses in collecting duct are observed only with basolateral administration of EGF. A number of renal responses to administration of EGF have recently been described, including modulation of glomerular hemodynamics, renal metabolism, tubular transport functions, and eicosanoid synthesis. In addition, EGF has been shown to be a potent mitogen in vitro for a variety of cell types in the kidney and may be an important mediator of renal repair following injury.
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PMID:Potential physiologic roles for epidermal growth factor in the kidney. 204 35

Collecting duct is a major site of insulin-like growth factor-I (IGF-I) synthesis within kidney. Production of IGF-I at this site is stimulated by growth hormone (GH). IGF-I produced in collecting duct is likely to act on glomerulus and proximal tubule via IGF-I receptors present at these locations. Renal IGF-I may be causative of the glomerular and proximal tubular hypertrophy that occurs in hypersomatotropic states, of compensatory renal hypertrophy, and of renal regeneration following acute ischemic injury.
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PMID:The renal growth hormone/insulin-like growth factor I axis. 204 40

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