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)

Na+ entry into kidney epithelial cells occurs by a multiplicity of pathways. Established cell lines such as the A6 cells, derived from the collecting duct of the kidney of Xenopus laevis, MDCK cells, from the distal tubule of a dog kidney, and the LLC-PK1 cells, originating from the proximal tubule of a pig kidney, provide excellent model cell systems for the detailed characterization and isolation of the proteins which comprise these entry pathways. Major pathways of Na+ entry include the amiloride-sensitive Na+ channel, the amiloride-sensitive Na+/H+ antiporter, and the loop diuretic-sensitive NaCl/KCl symporter. While the former two systems have been shown to exhibit an apical location in epithelial cells so far examined, the last system may be localized to either the basolateral or apical surface, depending on the transport function of the cell. Nutrient/Na+ symporters such as the glucose, phosphate, and p-aminohippurate symporters may all be localized to the apical surfaces of proximal tubular cells, but other systems, including those specific for neutral amino acids, may predominate in the basolateral surface or be distributed between the two membranes. Studies concerned with the catalytic, structural, and regulatory properties of these transport systems serve not only to characterize the individual translocators in established cell lines, but also to suggest their physiological functions in intact kidney tissues.
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PMID:Sodium entry pathways in renal epithelial cell lines. 242 Nov 47

We have used a stable clonal variant (D + Sc), isolated from the LLC-PK1 pig kidney-derived cell line and selected for its extensive capacity to form domes, in order to study the hormonal modulation of epithelial permeability in culture. Calcitonin, vasopressin, and other agents that raise intracellular adenosine 3',5'-cyclic monophosphate levels caused a rapid and dramatic decrease in the size and number of domes. This effect was independent of RNA and protein synthesis, and thus appeared unrelated to the production of urokinase, a proteinase synthesized by the cells in response to these agents. Calcitonin caused a decrease in transepithelial electrical resistance, suggesting that the effect of the hormone on domes was due to an increase in the permeability of a paracellular pathway. Thus, in addition to the wellknown effects of vasopressin on collecting duct permeability, part of the in vivo effect(s) of calcitonin and vasopressin on the renal tubule might also involve alterations of epithelial permeability related to those described here.
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PMID:Calcitonin and vasopressin affect epithelial properties in a renal cell line. 301 7

Epidermal growth factor (EGF) is a potent polypeptide mitogen with various receptor-mediated growth effects on cells from the skin, breast, and gastrointestinal tract. Recent studies indicate that EGF is produced in the kidney and is excreted in the urine, but the biological significance of renal EGF is uncertain. We demonstrate in vitro mitogenicity of EGF for LLC-PK1 cells, a tubular epithelial cell line derived from pig kidney cortex. Furthermore, when subconfluent monolayers of LLC-PK1 cells are exposed to EGF for 24 h, sodium-dependent phosphate transport is stimulated (209-410% of control). These cells possess EGF-specific high-affinity binding sites at their surface (Kd 300-700 pM) but cannot synthesize the growth factor. EGF binding sites are not a peculiarity of the LLC-PK1 cell line, since similar sites are present on MDCK cells (derived from dog kidney distal tubule or collecting duct), primary cultures of mouse proximal tubular cells, and freshly prepared membrane fractions from mouse kidney. Cortical basolateral membranes are highly enriched in EGF binding sites, whereas EGF binding by brush-border membrane fractions is minimal and is compatible with contamination.
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PMID:Renal tubular cells are potential targets for epidermal growth factor. 326 62

Taurine is a beta-sulfonic amino acid that serves as a nutrient important for developing brain and retina and as an osmolyte in the medullary collecting duct. The activity of the taurine transport system is regulated by substrate supply and by the external osmolality; these two stimuli induce changes in taurine transport. Increased medium osmolality (500 mosmol) stimulates taurine uptake into MDCK cells but not LLC-PK1 cells. The enhanced taurine uptake that occurs in response to hyperosmolality is localized primarily to the basolateral surface of MDCK cells, whereas the adaptive response to medium taurine concentration is expressed on both the apical and the basolateral surfaces of both cell lines. The response of MDCK cells to medium osmolality requires protein synthesis and RNA transcription and is expressed in the presence of microtubular toxins. When cell monolayers were loaded with taurine by incubation in high-taurine medium before increasing medium osmolality, the expected increase in taurine uptake was blunted. Similarly, increased external beta-alanine (500 microM) also prevented the anticipated increase in taurine accumulation in response to hypertonicity; aminoisobutyric acid and betaine (500 microM) partially prevented the increase in taurine transport after hypertonicity, whereas L-alanine had no effect. The concentration of taurine or structurally similar analogs in the external medium might modify the response of taurine accumulation after exposure to hypertonic medium, in that taurine-replete cells behave differently than taurine-depleted cells. These studies indicate that there are at least tow distinct mechanisms involved in the regulation of taurine transport: external taurine concentration and medium osmolality, with taurine concentration seeming to be the predominant stimulus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The relative roles of external taurine concentration and medium osmolality in the regulation of taurine transport in LLC-PK1 and MDCK cells. 753 66

ET release by the renal epithelial Madin-Darby canine kidney (MDCK) cell line was investigated under isosmotic (300 mosmol/kg H2O; pH 7.4) and hyperosmotic (400, 500, or 600 mosmol/kg H2O) culture and assay conditions by the use of a specific and sensitive RIA. During isosmotic incubation, MDCK cells, which may be of collecting duct origin, secreted by far more ET into the cell culture supernatant (495.7 +/- 25.5 fmol.mg of protein-1.24 h-1) than did the proximal tubule-derived LLC-PK1 (2.42 +/- 0.20 fmol.mg of protein-1.24 h-1) and opossum kidney (3.12 +/- 0.47 fmol.mg of protein-1.24 h-1) cells. ET secretion by MDCK monolayers increased progressively within 24 h and then only slightly declined up to 48 h. Phosphoramidon (100 mumol/L) inhibited the constitutive ET synthesis in MDCK cells by 60%, indicating the participation of a phosphoramidon-sensitive ET-converting enzyme in the processing of bigET to ET in these cells. MDCK epithelia grown on filter inserts showed a clear polarity in their ET release. The baseline secretion of ET was 2.5 times higher to the basolateral than to the apical side, which might be in support of a predominantly basolateral action of the peptide. Short-term incubation of MDCK cells in hyperosmotic NaCl media for 24 h dose dependently decreased ET production. When urea was used as the solute to generate hyperosmolality, ET release by MDCK cells significantly increased. In contrast, when raffinose was added to increase osmolality to 500 mosmol/kg H2O, a decrease of ET production in a range similar to the effect of NaCl was seen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hyperosmolality regulates endothelin release by Madin-Darby canine kidney cells. 840 84

Genomic clones including the 5' flanking regions of the AQP2 (aquaporin 2) gene were isolated, and the promoter region was examined by transiently transfecting a promoter-luciferase reporter fusion gene into renal cultured epithelial cells. An orientation specific promoter for the AQP2 gene was found within the proximal 3 kb of 5'-flanking region. Minimal basal promoter activity of the AQP2 gene was found within 198 bp upstream from the transcription start site by deletion analysis. Sequencing the transcriptionally active region revealed a typical TATA box, adenosine 3',5'-cyclic monophosphate (cAMP) responsive element (CRE) and three putative CCAAT boxes in the proximal 1.2-kb region. Significantly, a GATA motif, AP1, AP2, and SP1 transcriptional factor consensus sites were also found in this region. Exposure to cAMP-enhancing agents (1 nM vasopressin or 20 mM forskolin and 250 mM 3-isobutyl-1-methylxanthine) showed that these agents increased luciferase activity in a parallel fashion, suggesting that vasopressin-induced AQP2 gene transcription is mediated through increases in intracellular cAMP in at least one renal cell type, the LLC-PK1 cells. The mechanism of cAMP responsiveness of AQP2 gene transcription was further studied using a series of deletion mutants in renal epithelial cells and other cell types. The cAMP regulatory motifs were shown to exist in a 50-bp sequence between -340 and -290 (containing CRE) and a 65-bp sequence (containing an AP2 site) between -150 and the ATG start site in LLC-PK1 cells. In rat inner medullary collecting duct (IMCD) cells, the cAMP regulatory motifs also exist in a 50-bp sequence between -340 and -290 (containing CRE) and in a 10-bp sequence between -160 and -150 (containing an SP1 site). These separate regions may cooperate to confer full cAMP inducibility to the AQP2 gene in a cell-specific manner.
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PMID:cAMP motifs regulating transcription in the aquaporin 2 gene. 876 52

Vasopressin-dependent membrane insertion of aquaporin-2 (AQP-2) in collecting duct principal cells has been demonstrated in vivo and in vitro. However, the hypothesis that the AQP-2 molecule recycles between intracellular vesicles and the plasma membrane in response to hormonal stimulation and withdrawal remains to be demonstrated directly. In the present study, we examined AQP-2 recycling between intracellular vesicles and the plasma membrane in the absence of de novo protein synthesis using LLC-PK1 cells transfected with an AQP-2-c-myc construct. Cells were treated with cycloheximide for 30 min prior to vasopressin stimulation, and all subsequent treatments were performed in the continued presence of cycloheximide. Complete inhibition of AQP-2 biosynthesis by cycloheximide was verified by immuno-precipitation. Immunofluorescence revealed that AQP-2 was located on intracellular vesicles in nonstimulated cells but was relocated to the plasma membrane after vasopressin treatment, even in the presence of cycloheximide. After vasopressin washout, AQP-2 was retrieved to intracellular vesicles and was relocated to the plasma membrane after restimulation with forskolin. Subsequent forskolin washout resulted in AQP-2 endocytosis, and a second stimulation with forskolin resulted in relocation to the plasma membrane. These data, obtained in the absence of de novo protein synthesis, clearly indicate that AQP-2 can be recycled multiple times between intracellular vesicles and the plasma membrane.
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PMID:Direct demonstration of aquaporin-2 water channel recycling in stably transfected LLC-PK1 epithelial cells. 878 Feb 59

Expression of aquaporin-2 (AQP2) is exclusively limited to kidney collecting duct cells, and this strictly limited expression could be mediated by transcription of the gene. We first examined AQP2 mRNA expression in many cultured epithelial cells derived from kidney. Northern blot using OK, LLC-PK1, Madin-Darby canine kidney, and outer medullary collecting duct (OMCD) cells and primary culture of inner medullary collecting duct (IMCD) cells did not reveal any significant signal. A more sensitive method, ribonuclease protection assay, could detect a faint signal in OMCD cells when they were bathed in a hypertonic medium. Reverse-transcribed polymerase chain reaction applied to primary culture of IMCD cells showed a rapid dissipation of AQP2 mRNA within 4 days after culture. A reporter gene assay performed in the 1st day of primary culture of IMCD cells showed that the 5' region up to -2.9 kb worked as a promoter. Deletion experiments showed that at least two regions, from -434 to -364 and from -153 to -84, contain negatively acting cis-elements. When connected to a heterologous promoter, these regions repressed the activity in an orientation-dependent manner. These results suggest that transcription of AQP2 gene is strictly regulated and its ability is rapidly depressed in culture condition. This cell differentiation-specific expression of the gene may be, at least in part, mediated by the repressors present in its 5'-flanking region.
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PMID:Repressive regulation of the aquaporin-2 gene. 889 15

Vasopressin plays an essential role for the regulation of water balance by activating the collecting duct-specific water channel, aquaporin-2 (AQP2). Here we present evidence that vasopressin may also act as a long-term, transcriptional regulator of AQP2. The studies were performed on LLC-PK1 cells, which normally express V2 receptor (V2R) and which were transfected with a fragment of the human AQP2 promoter. Activation of the adenylate cyclase-coupled V2R in LLC-PK1 cells induced phosphorylation of adenosine 3',5'-cyclic monophosphate (cAMP) responsive element binding protein (CREB) and expression of c-Fos. Binding of these factors to the CRE and AP1 site did, in combination, lead to AQP2 promoter activation. These results establish the role of vasopressin as a regulator of transcription and are the first example of how a message from a highly specific receptor is, via a dual effect of the cAMP signal on CREB and immediate early gene expression, transduced to the transcription of a final target protein with known biological effects.
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PMID:Adenylate cyclase-coupled vasopressin receptor activates AQP2 promoter via a dual effect on CRE and AP1 elements. 914 44

By using immunocytochemical techniques we have been able to localize the V1 vasopressin receptor in the rat kidney. Immunoblotting using an antiserum raised against an affinity-purified vasopressin receptor showed a 55,000 daltons protein band that has a molecular mass similar to that of the liver V1 vasopressin receptor, as demonstrated by cross-linking studies. Immunoblotting of the antibody showed a band of 55,000 daltons in A-10 cells, which contains the V1 subtype, whereas it did not stain LLC-PK1 cells, which possess the V2 subtype, showing that the antibody recognizes the V1 vasopressin receptor. The immunostaining of kidney sections with this antiserum showed a strong reaction of the connecting tubules and cortical and medullary collecting ducts. The immunostaining pattern of connecting tubule and collecting duct cells was different, that is, the former showed a staining of both the apical and basal plasma membrane but also in the cytoplasm, whereas the latter showed a strong reaction mainly in the basolateral membrane. Immunostaining of consecutive serial sections with an antiserum raised against tissue kallikrein, an enzyme present exclusively in connecting tubules, and with the anti-receptor serum allowed us to show, for the first time, the presence of the vasopressin receptor in the connecting tubule cells and their absence in intercalated cells, the other cell type present in connecting tubules. These findings support experiments carried in the eighties on the release of renal tissue kallikrein by AVP.
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PMID:Immunolocalization of V1 vasopressin receptors in the rat kidney using anti-receptor antibodies. 935 Jun 43


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