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

Antidiuretic hormone (ADH) increases toad bladder granular cell apical membrane osmotic water permeability (Pf) by insertion of cytoplasmic vesicles containing water channels into the apical membrane. Termination of ADH stimulation results in endocytosis of water channel-containing membrane. In previous work, we have purified water channel-containing vesicles and demonstrated that they contain 12 major protein bands when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). On the basis of vectorial labeling studies of granular cells and purified vesicles, we have proposed previously that vesicle proteins of 55, 53, and 17 kDa are ADH water channel components. In this report, we have purified and analyzed these three proteins using a combination of SDS-PAGE, peptide mapping, amino acid composition, and amino-terminal analyses. The 55- and 53-kDa proteins are distinct protein species possessing a high degree of structural similarity. Both possess a large content of cysteine. The 17-kDa protein appears to be a proteolytic fragment of the 53-kDa protein. None of these three proteins is phosphorylated or contains large amounts of covalently linked carbohydrate. ADH-elicited Pf is inhibited by the organic mercurial reagent fluorescein mercuric acetate (FMA). Exposure of water channel-containing vesicles to FMA labels selectively four vesicle proteins of 92, 55, 53, and 29 kDa while reducing vesicle Pf by 82%. The combination of FMA and 2-mercaptoethanol or exposure to another mercurial reagent, n-ethylmaleimide, does not inhibit vesicle Pf. Together, these data provide additional evidence for the role of the 55- and 53-kDa proteins as components of the ADH water channel. These candidate ADH water channel proteins are distinct from a 28-kDa candidate water channel protein (CHIP 28) isolated recently from human erythrocyte membranes and kidney proximal tubule by Agre and co-workers (Preston, G. M., Carroll, T. P., Guggino, W. B., and Agre, P. (1992) Science 256, 385-387).
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PMID:Purification and partial characterization of candidate antidiuretic hormone water channel proteins of M(r) 55,000 and 53,000 from toad urinary bladder. 142 63

To investigate whether 'aldosterone-induced proteins' could be detected in mammalian species, cultured renal collecting duct epithelia from neonatal rabbit kidneys were labelled under aldosterone administration with radioactive methionine and subsequently fractionated into cytosolic and coarse membrane protein fractions. Newly synthesized proteins were then analyzed by SDS-PAGE, isoelectric focussing and two-dimensional electrophoresis. Quantitative estimates of individual newly synthesized proteins were performed utilizing gel slicing, scintillation counting and autoradiography. The labelling experiments demonstrated that, in comparison to controls, aldosterone (1 X 10(-6) M) generally increased the amount of radioactive protein. No qualitative changes in the pattern of newly synthesized proteins and, therefore, no classical aldosterone-induced proteins were observed. The increase of radioactive protein was already seen after 1, 6, and 18 h of hormone treatment. The effect could be blocked partially by spironolactone (1.5 X 10(-4) M), and totally by amiloride (1 X 10(-6) M), g-strophantin (5 X 10(-4) M), and cycloheximide (1 X 10(-6) M. Thus, the interference of aldosterone action at the receptor level, the Na+ channels and the Na+/K(+)-ATPase pump demonstrate that the expression of proteins in cultured renal collecting duct cells is a sensitive system and seems to be controlled by aldosterone at the receptor level, but also counter-controlled by specific plasma membrane sites.
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PMID:Action of aldosterone on protein expression in cultured collecting duct cells from neonatal rabbit kidney. 261 84

To obtain a highly specific reagent that could be utilized for ultrastructural localization of Na,K-ATPase, monoclonal antibodies were produced using microsomal preparations of outer renal medulla of dog and rat enriched for Na,K-ATPase. The monoclonal antibody (C62.4) raised against dog antigen, immunoprecipitated a 96,000 Dalton protein from membranes labeled either with 35S methionine or 3H NAB ouabain. Na,K-ATPase, Na-ATPase, and KpNPPase activity were 25, 60, and 100% maximal after reaction with C62.4. Na,K-ATPase activated with SDS was inhibited, but Na,K-ATPase in tight right-side-out membrane vesicles was not. C62.4 inhibited ouabain binding in the presence of Na,K, and Mg, but did not inhibit ouabain binding in the presence of Mg and Pi. Labeling of broken membranes was readily seen using C62.4 labeled with colloidal gold. Intact right-side-out vesicles showed no evidence of labeling, demonstrating that the antibody is directed to an epitope of the cytoplasmic domain of the enzyme. Differential localization of C62.4 along the nephron was identified. Glomeruli showed no significant antibody binding except by occasional cells in the mesangial regions. Only basal lateral membranes of cells from all tubule segments labeled with C62.4. There was no evidence of specific apical labeling. The thick ascending limb of Henle's loop demonstrated the greatest concentration of antibody binding. In the cortical and outer medullary collecting duct, only principal cells showed abundant antibody binding. Intercalated cells showed no detectable evidence of antibody binding on any surface. These studies demonstrate that Na,K-ATPase is localized exclusively to the basal lateral membrane of renal tubular epithelial cells and varies in density and distribution in different nephron segments.
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PMID:Monoclonal antibody to Na,K-ATPase: immunocytochemical localization along nephron segments. 300 43

A sulfated, proline-rich glycoprotein (gpCDI, apparent molecular weight 200,000 in column chromatography and 150,000 in SDS-PAGE) was isolated from cultured renal collecting duct epithelium by centrifugation. Triton X100 extraction and DEAE-cellulose ion exchange chromatography. A DEAE-cellulose ion exchange chromatography fraction with the enriched gpCDI was used for immunization of guinea pigs. The antiserum was prepared for antigen localization by indirect immunofluorescence in collecting duct cell cultures and in tissue sections of neonatal and adult rabbit kidneys. In the cultured collecting duct epithelium, antibody staining of the epithelium and structures of the extracellular matrix was age dependent. Cultures of dedifferentiated collecting duct monolayers revealed positive reaction in the cytoplasm. In neonatal and adult rabbit kidneys, the antibody was localized in the entire collecting duct system but not in the collecting duct ampullae of the newborn kidney. Staining of the cytoplasm was found only in medullary collecting ducts of the neonatal kidney; other portions revealed staining mostly at the basal circumference of the tubule and at the luminal cell borders. Apart from collecting ducts, no other tubular segments were reactive. The cortical and the medullary interstitium contained fluorescent fibres which were concentrated around vascular structures. A possible relation between gpCDI and collagenous compounds is discussed. Bowman's capsule reacted positively, whereas staining of the mesangial matrix was weak. The localization of the antigen, as revealed by indirect immunofluorescence, suggests that gpCDI occurs both in intracellular and extracellular (interstitial) location. Two main points are emphasized: Firstly gpCDI is considered an important constituent in different stages of collecting duct development, and secondly, the staining pattern of the antibody varies with the different portions of both young and adult kidney collecting ducts; this staining heterogeneity may correspond with the known regional differences of collecting duct functions.
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PMID:Immunocytochemical localization of a renal glycoprotein (gpCDI) synthesized by cultured collecting duct cells. 637 Sep 31

Cortical kidney explants from newborn New Zealand rabbits were cultured in Dulbecco's minimum essential medium (DMEM) containing 10% fetal calf serum. Within 24 h the explants formed 'globular bodies' which were completely covered by a monolayered epithelium. The cells were differentiated and resembled collecting duct epithelium. By culturing the globular bodies in Dulbecco's MEM with D-valine instead of L-valine, a monolayer of collecting duct cells was obtained and used for control experiments. For analysis and identification of synthesized glycoproteins, the globular bodies were incubated with various labelled carbohydrates and amino acids, and then fractionated. Glycoproteins secreted into the culture medium were not detected. Cell-associated glycoproteins were found in crude membrane fractions and then extracted with Triton X-100 for column chromatography, SDS-polyacrylamide electrophoresis in 6 M urea, isoelectrofocusing, and two-dimensional electrophoresis. Two prominent glycoproteins containing galactose and glucosamine were synthesized during the spreading of the epithelium, with an apparent molecular weight of 150,000 and 85,000 (SDS-PAGE). The synthesized glycoproteins differ in their content of radioactive glycoprotein precursor and leucine. The 85,000 dalton monomer glycoprotein has an isoelectric point of 3.5 and was identified by two-dimensional electrophoresis.
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PMID:Glycoprotein synthesis of renal collecting duct epithelium cultured as globular bodies. 685 45

Thin cortical kidney explants from newborn New Zealand rabbits were cultured in Dulbecco's MEM containing 10% fetal bovine serum. Within 24 h the explants formed globular bodies which were completely covered by a monolayered epithelium. The cells show polar differentiation and resemble the renal collecting duct epithelium. By culturing the globular bodies in Dulbecco's MEM with D-valine instead of L-valine additionally a monolayer of renal collecting duct cells was obtained. For the study of glycoprotein synthesis the globular bodies and the collecting duct monolayers were incubated with various labelled carbohydrates, protein and collagen precursors and then fractionated into coarse membrane pellets. The synthesized glycoproteins were regained in 600 x g and 12,000 x g coarse membrane fractions and extracted with Triton X 100 buffer for column chromatography and SDS-polyacrylamide electrophoresis in 6 M urea. In addition to a 85,000 d glycoprotein, a carbohydrate rich collagen like protein (apparent molecular weight in column chromatography 200,000 d, in the SDS-polyacrylamide electrophoresis 150,000 d) was found. The 150,000 d glycoprotein incorporates favorably radioactive proline, sulfate, and smaller amounts of lysine, and leucine. Compared to the 85,000 d glycoprotein a double amount of glucosamine and galactose and four fold amount of fucose was detected. The 85,000 d protein has to be ascribed as a usual glycoprotein, in contrast the 150,000 d protein shows an unusual combination of characteristics and has to be considered as a new type of renal glycoprotein.
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PMID:Cell associated glycoproteins synthesized by cultured renal tubular cells. 717 68

Antidiuretic hormone (ADH) stimulation of renal epithelial cells elicits a large increase in apical membrane osmotic water permeability (Pf) produced by the fusion of water channel containing vesicles with the apical membrane. Removal of ADH stimulation results in retrieval of apical water channels into a specialized non-acidic endosomal compartment. Previous studies (Sabolic, I., Wuarin, F., and Shi, L. B. (1992) J. Cell Biol. 119, 111-122) have shown that water channel containing papillary endosomes labeled with fluorescein-dextran can be isolated from rat renal papilla. We have utilized small particle flow sorting methodology to both monitor and improve upon the purification of these water channel containing endosomes (WCV). Flow cytometry analysis on a vesicle-by-vesicle basis demonstrates that WCV are homogeneous with respect to entrapped fluorescein-dextran, the apical membrane enzyme marker leucine amino peptidase and ultrastructural morphology. WCV do not acidify their luminal contents after addition of Mg-ATP but contain abundant functional water channels (Pf0.28 cm/s at 23 degrees C) as determined by stopped flow fluorimetry. SDS-polyacrylamide gel electrophoresis analysis shows that purified WCV are composed of 20 major protein bands. To determine the identity of WCV water channels, WCV proteins were probed with affinity purified antisera recognizing two renal water channel proteins. These include Aquaporin-CHIP found in the proximal tubule and thin descending limb of Henle and the candidate ADH water channel protein WCH-1 or Aquaporin- (AQP) CD present in the ADH-responsive epithelial cells of the collecting duct. These data reveal that WCV contained little or no AQP-CHIP protein. In contrast, WCV are highly enriched for AQP-CD protein. Together, these data define the protein composition of the papillary WCV and link directly the presence of functional apical membrane water channels with the presence of the AQP-CD protein.
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PMID:Characterization of purified endosomes containing the antidiuretic hormone-sensitive water channel from rat renal papilla. 816 2

Preservation of cell viability and function in the hyperosmolar environment of the renal medulla is a complex process that requires selective gene expression. We have identified a new member of the heat shock protein (hsp) 70 superfamily that is up-regulated in renal inner medullary collecting duct cells (mIMCD3 cells) during exposure to hyperosmotic NaCl stress. Known as osmotic stress protein 94, or Osp94, this 2935-base pair cDNA encodes an 838-amino acid protein that shows greatest homology to the recently discovered hsp110/SSE gene subfamily. Like the hsps, Osp94 has a putative amino-terminal ATP-binding domain and a putative carboxyl-terminal peptide-binding domain. The in vitro translated Osp94 product migrated as a 105-110-kDa protein on SDS-polyacrylamide gel electrophoresis. In mIMCD3 cells, Osp94 mRNA expression was greatly up-regulated by hyperosmotic NaCl or heat stress. In mouse kidney, Osp94 mRNA expression paralleled the known corticomedullary osmolality gradient showing highest expression in the inner medulla. Moreover, inner medullary Osp94 expression was increased during water restriction when osmolality is known to increase. Thus, Osp94 is a new member of the hsp110/SSE stress protein subfamily and likely acts as a molecular chaperone.
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PMID:Osmotic stress protein 94 (Osp94). A new member of the Hsp110/SSE gene subfamily. 864 34

Monoclonal antibodies were prepared in an attempt to develop diagnostic tools for the identification of toxic damage to the rat renal papilla. One IgG and five IgM monoclonal antibodies, reacting with antigens localized in the papilla were obtained. Three of the IgM class and the IgG class monoclonal antibodies were found to be specific for antigens localized in collecting ducts, two of them staining papillary collecting ducts more intensely than cortical collecting ducts. The IgG class antibody, termed Pap X 5C10, recognizes an antigen located at high density on the luminal side of papillary collecting duct epithelial cells and at lower density in cortical collecting duct cells. One of the IgM class monoclonal antibodies reacts with an antigen localized in epithelial cells as ascending and descending loops of Henle and of connecting tubules. Another of the IgM class monoclonal antibodies reacts with an antigen localized in the interstices of the inner medulla. All these monoclonal antibodies react with their antigens in native frozen as well as in Bouin-fixed and paraffin-embedded tissue slices. Molecular properties of the Pap X 5C10 antigen have been investigated by gel permeation chromatography, SDS-PAGE, Western blotting, and isoelectric focusing. The results indicate that the antigen in both its tissue-derived and urinary form is of large (150-200 kDa) molecular size and can be separated into two molecular species with isoelectric points of pH 7.2 and 7.3 respectively. In the urine the antigens recognized by the monoclonal antibodies form large complexes with Tamm-Horsfall protein. The antigen-containing complexes can be extracted from urine by adsorption to diatomaceous earth and elution with SDS-containing buffer. Using sandwich ELISA-type assays it is possible to determine the concentration of the antigens. In preliminary experiments we were able to show that at least three of the antigens are detected in the urine following toxic insults to the kidney. The monoclonal antibodies prepared and the tests developed thus may provide direct diagnostic access to the renal papilla and allow, for the first time, early detection of papillary damage.
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PMID:Urinary antigens as markers of papillary toxicity. I. Identification and characterization of rat kidney papillary antigens with monoclonal antibodies. 901 May 89

Extracellular calcium/polyvalent cation-sensing receptors (CaR) couple to G proteins and contain highly conserved extracellular cysteine residues. Immunoblotting of proteins from rat kidney inner medullary collecting duct endosomes with CaR-specific antibodies reveals alterations in the apparent molecular mass of CaR depending on protein denaturation conditions. When denatured by SDS under nonreducing conditions, CaR migrates as a putative dimeric species of 240-310 kDa. This is twice the predicted molecular mass of the CaR monomer observed after SDS denaturation in the presence of sulfhydryl-reducing agents. In sucrose density gradients, Triton X-100-solubilized CaR sediments as a 220-kDa complex, not explainable by binding of G proteins to CaR monomers. Treatment of Triton-soluble CaR with divalent (Ca2+, Mg2+) and trivalent (Gd3+) metal ion CaR agonists, but not monovalent ions (Na+), partially shifts the electrophoretic mobility of CaR under reducing conditions from a predominantly monomeric to this putative dimeric species on immunoblots in a manner similar to their rank order of functional potency for CaR activation (Gd3+ >> Ca2+ > Mg2+). This Ca2+ effect is blocked by pretreatment with N-ethylmaleimide. We conclude that disulfide bonds present in CaRs mediate formation of dimers that are preserved in Triton X-100 solution. In addition, CaR exposure to Ca2+ induces formation of additional disulfide bonds within the Triton-soluble CaR complex.
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PMID:Disulfide bonds in the extracellular calcium-polyvalent cation-sensing receptor correlate with dimer formation and its response to divalent cations in vitro. 960 61


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