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)

Papillary component ultrastructure and acid mucopolysaccharide distribution have been investigated in the kidney of the water vole A. terrestris. Structural differences between the descending and ascending parts of the Henle's loop are rather small, cell cytoplasm of these segments being poor in organells. Unusual ultrastructure of the collecting duct epithelium with high level of cytoplasmic organization (elongated thin mitochondria, fairly developed Golgi complex, numerous phagosomes and pinocytotic vesicles, long branching microvilli) was described. Apical membrane of the epithelium is covered by rich glycocalix layer. Heil-positive substrances are located intracellularly inside phagosomes and on vesicle membranes, as well as on the membranes of cisternae of endoplasmic reticulum. Interstitium is abundant, but no close contacts between papillary components were found. Acid mucopolysaccharide content of the interstitium is low, "gel" filter being not formed. The described peculiarities are discussed in relation to water and salt metabolism of the rodents investigated.
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PMID:[Ultrastructural organization of the inner medullary zone of the kidney of the water vole Arvicola terrestris]. 15 94

Cell culture conditions were devised that selectively supported growth of 13 or 14 gestation day F344 rat ureteric bud, the renal collecting duct anlagen. These same conditions also inhibited the growth of metanephrogenic mesenchyme, precursor of structures proximal to the duct. Isolated buds were cultured in Ham's F12 medium supplemented with epidermal growth factor, selenium, insulin, hydrocortisone, prostaglandin E1, transferrin, and triiodothyronine; fetal bovine serum (1%) was required for continuous propagation. Cultured cells were epithelial in morphology and formed domes. By electron microscopy, many structural characteristics of highly differentiated cells were evident: numerous mitochondria, Golgi apparatus, extensive endoplasmic reticulum, an occasional cilium, intracytoplasmic filaments, polarized formation of microvilli, and gap junctions. Histochemistry revealed considerable functional differentiation as well. Cultured bud cells, adult collecting duct, and fetal duct anlagen were positive for acid phosphatase, membrane-localized ATPase, and nonspecific esterase. Bud cells and fetal duct anlagen expressed high levels of gamma-glutamyl transpeptidase activity while adult collecting duct exhibited slight activity. In addition, immunocytochemical observation of intermediate filament expression revealed the presence of epithelial cytokeratins but absence of mesenchymal vimentin in cultured bud cells and fetal and adult collecting ducts. These results indicate that the culture conditions described can maintain the partially differentiated fetal collecting duct anlagen in a state consistent with its embryonal derivation, and therefore may be useful in culture studies of renal differentiation.
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PMID:Selective growth in culture of fetal rat renal collecting duct anlagen. Morphologic and biochemical characterization. 286 2

The ultrastructure of collecting duct epithelia was studied with the osmium impregnation technique in renal cortical explants grown in culture in the form of globular bodies. When this technique was applied to 7-day-old globular bodies, the endoplasmic reticulum (ER) of the superficial layer cells was faintly impregnated in the presence or absence of arginine-vasopressin (AVP) in the incubation medium; the ER of the cells located in the core of the globular bodies was densely impregnated with osmium. When these globular bodies were sectioned in 2 fragments and one was incubated in AVP for 30 min while the other was used as a control, a marked increase in osmium impregnation occurred: osmium black deposits were then noted in the lumen of the endoplasmic reticulum of two-thirds of the cells in the superficial layer. Various patterns of impregnation were observed. Cryptlike formations gave rise to mature epithelial cells showing the same pattern of osmium impregnation. When cyclic adenosine monophosphate (cAMP) was substituted for AVP in the incubation medium, the treated globular bodies revealed the same ultrastructural characteristics. Our data suggest that this primary culture of collecting duct epithelia is made up of heterogeneous cells with characteristics of principal and intercalated cells and that the AVP has a stimulatory effect on ER maturation, which is mediated by the adenylate cyclase system.
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PMID:Vasopressin modifies osmium impregnation of the endoplasmic reticulum in cultured kidney collecting duct cells. 322 13

In this study, the kidney analog of the erythrocyte anion exchanger, band 3, served as the first example of an anion translocating membrane protein in a nucleated cell type to be localized at the ultrastructural level. Kidney band 3 was found to be confined to the basolateral membrane of the intercalated cells in the human collecting duct. The immunogold label displayed a striking non-uniform distribution along the basolateral plasma membrane with a preferential concentration at pleated areas of the membrane surface. The pleated portions are suggested to represent specialized subdomains to which the band 3 analog might be restricted by linkage via ankyrin to the spectrin-based membrane cytoskeleton. The immunolabel did not extend apically to the level of the zonula adherens and zonula occludens indicating that tight junctions might not be important for maintaining the polarized distribution of this integral membrane protein. Association of antibody label with the rough endoplasmic reticulum and other types of cytoplasmic membranes indicate pathways in the biosynthesis and degradation of this anion exchanger.
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PMID:Restriction of the human kidney band 3-like anion exchanger to specialized subdomains of the basolateral plasma membrane of intercalated cells. 332 92

The construction of renal lobules in Triturus (Cynops) pyrrhogaster was studied by reconstruction from serial semithin sections, and the structure of nephrons, collecting ducts and ureters was investigated by means of light and electron microscopy. In T. pyrrhogaster the kidney was mesonephros in construction; renal lobules were arranged segmentally and each of them sent one ureter. Male ureters ran caudally and met together before joining the Wolffian duct. In renal lobules, long collecting ducts ran medio-laterally in the dorsal aspect of the kidney and sent several branches ventrally. Each branch duct or short collecting duct received one nephron. Each nephron had five segments; 1) renal corpuscle, 2) ciliated neck segment with or without a naphrostome, 3) proximal tubule, 4) ciliated intermediate segment and 5) distal tubule. Proximal and distal tubules were segregated spacially in renal lobules and occupied the peripheral and central zone respectively. The filtration barrier of the glomerulus consisted of both the basal lamina of podocytes and the subendothelial connective tissue, and was much thicker than the mammalian filtration barrier. Proximal tubule cells had a brush border, apical specialization for reabsorption of organic materials and well-developed smooth endoplasmic reticulum, but few baso-lateral interdigitations. In distal tubule cells, baso-lateral interdigitations and infoldings were well-developed. Collecting duct cells had a sparse cytoplasm. Ureter cells in males contained many secretory granules. On the basis of structural organization of the newt kidney as well as physiological data in literature, we suggest that in land vertebrates proximal tubules were primarily adapted to reabsorption of organic materials and distal tubules to reabsorption of electrolytes and water.
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PMID:The structure of the kidney of Japanese newts, Triturus (Cynops) pyrrhogaster. 683 32

Congenital nephrogenic diabetes insipidus is a recessive hereditary disorder characterized by the inability of the kidney to concentrate urine in response to vasopressin. Recently, we reported mutations in the gene encoding the water channel of the collecting duct, aquaporin-2 (AQP-2) causing an autosomal recessive form of nephrogenic diabetes insipidus (NDI). Expression of these mutant AQP-2 proteins (Gly64Arg, Arg187Cys, Ser216Pro) in Xenopus oocytes revealed nonfunctional water channels. Here we report further studies into the inability of these missense AQP-2 proteins to facilitate water transport in Xenopus oocytes. cRNAs encoding the missense AQPs were translated with equal efficiency as cRNAs encoding wild-type AQP-2 and were equally stable. Arg187Cys AQP2 was more stable and Gly6-4Arg and Ser216Pro AQP2 were less stable when compared to wild-type AQP2 protein. On immunoblots, oocytes expressing missense AQP-2 showed, besides the wild-type 29 kDa band, an endoplasmic reticulum-retarded form of AQP-2 of approximately 32 kD. Immunoblots and immunocytochemistry demonstrated only intense labeling of the plasma membranes of oocytes expressing wild-type AQP-2. Therefore, we conclude that in Xenopus oocytes the inability of Gly64-Arg, Arg187Cys or Ser216Pro substituted AQP-2 proteins to facilitate water transport is caused by an impaired routing to the plasma membrane.
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PMID:Water channels encoded by mutant aquaporin-2 genes in nephrogenic diabetes insipidus are impaired in their cellular routing. 753 61

MIWC is a 32 kDa mercurial-insensitive water channel [Hasegawa et al. (1994) J. Biol. Chem. 269, 5497-5500] expressed in kidney collecting duct, brain ependymal cells, airways, and other tissues. We showed recently that the homologous water channel CHIP28 spanned the endoplasmic reticulum (ER) membrane 4 times with N- and C-termini in the cytoplasm [Skach et al., (1994) J. Cell Biol. 125, 803-815]. Hydropathy analysis of MIWC indicated up to eight hydrophobic regions (HRs) comprising potential membrane-spanning domains. To determine MIWC transmembrane topology at the ER, 10 cDNA chimeras were constructed which encoded increasing lengths of MIWC upstream from a reporter epitope (prolactin P-domain) at residues 13, 46, 73, 92, 120, 140, 164, 209, 276, and 2097, corresponding to putative polar extramembrane loops in the MIWC sequence. The chimeras were translated cell-free (rabbit reticulocyte lysate+ER-derived microsomes) and in Xenopus oocytes. Peptide chains were labeled with [35S]methionine and immunoprecipitated with a P-domain antibody. Transmembrane topology as determined by protease accessibility of the P-reporter indicated six membrane-spanning domains with N- and C-termini in the cytoplasm. The predicted topology was confirmed by demonstrating N-linked glycosylation at native residue N131 and an engineered consensus site at residue 197. Membrane integration of the nascent chain, as assayed by extractability at pH 11.5, occurred after synthesis of the first HR (residues 1-46). Translocation was terminated by a stop transfer sequence in the second HR (residues 32-73) as demonstrated by translation of the heterologous construct, [prolactin signal sequence]-[globin]-[HR2]-P.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Distinct biogenesis mechanisms for the water channels MIWC and CHIP28 at the endoplasmic reticulum. 754 Dec 39

The presence of a Na(+)-Ca2+ exchange system has been previously demonstrated at the basolateral side of the cortical collecting system. The role of such an exchanger in maintaining low intracellular [Ca2+] ([Ca2+]i) in this nephron segment is now investigated. Cells from the connecting tubule and cortical collecting duct of rabbit kidneys were isolated by immunodissection with mAb R2G9 and subsequently cultured on glass coverslips. [Ca2+]i was measured in single cells using quantitative fluorescence microscopy. Surprisingly, isoosmotic substitution of extracellular Na+ ([Na+]o) for N-methylglucamine generated [Ca2+]i oscillations in individual cells instead of an anticipated sustained increase in [Ca2+]i. The amplitude of these oscillations ranged between 150 to 600 nM (average 308 +/- 19 nM) and occurred at a frequency of 0.63 +/- 0.03 min-1, with a duration of 44 +/- 2 seconds per spike. Oscillations were only observed in response to [Na+]o less than 5 mM and lasted until Na+o was re-introduced. The compound U73122 (10 microM), a new phospholipase C inhibitor, inhibited [Ca2+]i oscillations, which strongly suggests that IP3 generation initiates [Ca2+]i oscillations. [Ca2+]i oscillations were independent of extracellular Ca2+ and could not be inhibited by lanthanum ions, indicative for an intracellular source for the generation of Ca2+ spikes. Addition of thapsigargin, a specific inhibitor of endoplasmic reticulum Ca(2+)-ATPase activity, induced a considerable intracellular Ca2+ release, after which [Ca2+]i oscillations could no longer be provoked. Caffeine (20 mM) reversibly inhibited the Ca2+ oscillations, which implies that Ca(2+)-induced Ca2+ release is involved in generating these oscillations.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ca2+ oscillations in the rabbit renal cortical collecting system induced by Na+ free solutions. 847 19

Nephrogenic diabetes insipidus (NDI) is characterized by the inability of the kidney to concentrate urine in response to vasopressin. The autosomal recessive form of NDI is caused by mutations in the AQP2 gene, encoding the vasopressin-regulated water channel of the kidney collecting duct. This report presents three new mutations in the AQP2 gene that cause NDI, resulting in A147T-, T126M-, or N68S-substituted AQP2 proteins. Expression of the A147T and T126M mutant AQP2 proteins in Xenopus oocytes revealed a relatively small, but significant increase in water permeability, whereas the water permeability of N68S expressing oocytes was not increased. cRNA encoding missense and wild-type AQP2 were equally stable in oocytes. Immunoblots of oocyte lysates showed that only the A147T mutant protein was less stable than wild-type AQP2. The mutant AQP2 proteins showed, in addition to the wild-type 29-kd band, an endoplasmic reticulum-retarded form of AQP2 of approximately 32 kd. Immunoblotting and immunocytochemistry demonstrated only intense labeling of the plasma membranes of oocytes expressing wild-type AQP2. In summary, two mutant AQP2 proteins encoded in NDI are functional water channels. Therefore, the major cause underlying autosomal recessive NDI is the misrouting of AQP2 mutant proteins.
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PMID:New mutations in the AQP2 gene in nephrogenic diabetes insipidus resulting in functional but misrouted water channels. 904 43

The cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channel is expressed in all nephron segments. Although mutations in CFTR are not associated with major changes in renal function, drug excretion by the kidneys is altered in cystic fibrosis (CF) as is the ability of the kidneys to concentrate and dilute the urine and excrete a salt load. It is not clear if these changes in renal function are secondary to decreased extracellular fluid volume caused by excessive losses of NaCl in sweat and feces or if they are related to primary defects in renal function caused by mutations in CFTR. Considerable evidence supports a role for CFTR in mediating Cl- secretion by the distal tubule, principal cells in the cortical collecting duct (CCD) and the inner medullary collecting duct (IMCD). In addition, CFTR is responsible for Cl- secretion into the lumen of cysts in polycystic kidneys and, therefore, contributes to cyst enlargement. Under some conditions--when Na+ absorption across the apical membrane of principal cells in the CCD is stimulated and the apical membrane potential is depolarized--the electrochemical gradient for Cl- will support Cl- absorption via CFTR Cl- channels. In addition to its function as a 3',5'-cAMP-activated Cl- channel, CFTR may play a role in intracellular vesicle acidification, protein processing, protein trafficking, secretion of ATP and the regulation of the epithelial Na channel (ENaC) and the secretory K+ channel (ROMK2) which mediate Na+ and K+ transport, respectively, across the CCD. Thus, CFTR may regulate Na+ and K+ excretion by the kidneys. The most common mutation in CFTR is delta F508, a mutation which causes improper folding of CFTR such that it is retained within the endoplasmic reticulum where it is degraded. Thus, in the majority of cases, CF is a trafficking disease. However, nothing is known about the intracellular trafficking of CFTR in the kidney. In preliminary studies we have developed a living cell model to study the intracellular trafficking of CFTR and delta F508-CFTR in renal epithelial cells in real time. Our ultimate goal is to elucidate the intracellular trafficking of CFTR and to identify therapeutic approaches to restore normal function to renal cells in CF and to block CFTR-mediated Cl- secretion in cysts in polycystic kidneys.
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PMID:Cystic fibrosis transmembrane conductance regulator (CFTR) and renal function. 926 86

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