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)

The human gene encoding aquaporin-CD (AQP-CD) was isolated, and its structural organization was characterized. The gene appeared to exist as a single copy in the human genome and comprises four exons distributing over 5 kilobases. The size range of exons is 81-761 base pairs, and that for introns is approximately 3000 to approximately 250 base pairs. The exon-intron boundaries of human AQP-CD gene are identified at identical positions in other related genes, the human AQP-CHIP gene and the human major intrinsic protein gene. The major transcription initiation sites were identified to positions 93 and 94 base pairs upstream of the ATG initiation codon by primer extension and ribonuclease protection assay. The 5'-flanking region of the hAQP-CD gene was characterized by a TATA box, two GATA consensus sequences, an AP-1 site, an AP-2 site, three E-boxes, and a cyclic AMP-responsive element. These structural features will lead to a better understanding of the mechanisms of tissue-specific expression and the regulation by dehydration in AQP-CD gene and will also be of help in search for possible genetic disorders in human AQP-CD gene.
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PMID:Isolation of human aquaporin-CD gene. 752 28

The localization of mRNA for atrial natriuretic peptide (ANP) receptor subtypes (A, B, C) in the kidney was examined. Quantitative analysis of the ribonuclease protection assay showed that the numbers of type A receptor (ANPRA) mRNA were 6.9 x 10(7) in the glomeruli and 10.4 x 10(7) molecules/micrograms of total RNA in the inner medulla, and that of type C receptor (ANPRC) mRNA was 21.7 x 10(7) molecules/micrograms of total RNA in the glomeruli. The type B receptor (ANPRB) mRNA was present in smaller numbers (4.5-4.9 x 10(6) molecules/micrograms of total RNA) evenly throughout the kidney fractions. In situ hybridization demonstrated both ANPRA and ANPRC mRNA selectively in the glomerular epithelial cells and ANPRA mRNA in the collecting duct cells of the inner medulla. ANPRC was also localized on the foot processes of glomerular epithelial cells by immunohistochemistry using a specific antibody against the receptor. These results indicate that ANPRA is the major biologically active receptor for the ANP family of hormones in the kidney and is present selectively on the glomerular epithelial cells and inner medullary collecting duct cells. These cells are presumed to play a role in the regulation of glomerular filtration rate and sodium excretion induced by the family of ANP.
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PMID:Expression of mRNA for natriuretic peptide receptor subtypes in bovine kidney. 806 92

Arginine vasopressin (AVP)-stimulated cAMP generation is decreased in the immature collecting duct (CD). This is the result of prostaglandin antagonism, most likely via the inhibitory guanine nucleotide-binding protein (Gi). The EP3-subtype prostaglandin E2 (PGE2) receptor, which is coupled to Gi, could mediate this effect. We studied the developmental expression of EP3 receptor in the rabbit kidney. Higher levels of EP3 mRNA were observed in the immature kidney using three different assays: 1) reverse transcription-polymerase chain reaction (RT-PCR) with internal standard, 2) competitive PCR, and 3) ribonuclease protection assay. The highest levels were observed at 2 wk of age. RT-PCR from isolated nephron segments detected EP3 mRNA in the medullary thick ascending limb, cortical CD (CCD), and inner medullary CD (IMCD) of adult and immature kidneys. We conclude that 1) renal expression of EP3 mRNA is increased in immature kidneys and 2) EP3 mRNA is localized in the distal nephron. This suggests that EP3 receptor may play a role in the regulation of distal tubular transport during development.
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PMID:Expression and localization of prostaglandin EP3 receptor mRNA in the immature rabbit kidney. 876 Feb 40

K+ homeostasis depends on K+ absorption in digestive and renal epithelia. Recently, a cDNA encoding for a putative K(+)-adenosinetriphosphatase (ATPase) alpha-subunit has been characterized. We studied its expression by ribonuclease protection assay and in situ hybridization in the distal colon and the kidney of rats in various physiological states. In the distal colon of control rats, high expression of the colonic putative K(+)-ATPase mRNA was restricted to the surface epithelial cells. A low-K+ diet did not modify this expression, adrenalectomy decreased it, and aldosterone or dexamethasone treatment for 2 days restored normal levels. In the kidney of control rats, levels of K(+)-ATPase mRNA were very low. A low-K+ diet revealed a clear mRNA expression, which is consistent with a recent report [J.A. Kraut, F. Starr, G. Sachs, and M. Reuben. Am. J. Physiol. 268 (Renal Fluid Electrolyte Physiol. 37): F581-F587, 1995]. This expression was restricted to the outer medullary collecting duct, presumably in principal cells. Changes in corticosteroid status did not influence the renal expression. Our results, together with previous studies on K+ absorption and K(+)-ATPase activity, suggest that more than a single molecular form of K(+)-ATPase is likely to be responsible for the regulation of K+ absorption in the colon and distal nephron.
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PMID:Differential regulation of putative K(+)-ATPase by low-K+ diet and corticosteroids in rat distal colon and kidney. 877 35

Channel inducing factor (CHIF) is a novel cDNA recently cloned from a rat distal colon cDNA library of dexamethasone-treated animals. While its expression in Xenopus oocytes evokes a potassium channel activity similar to that induced by Isk (minK), its cellular role is not clear. CHIF exhibits significant homologies with proteins that are putatively regulatory (phospholemman, gamma-subunit of Na(+)-K(+)-ATPase, Mat-8) while it differs from the small-conductance potassium channel Isk. We have studied the tissue specificity of CHIF expression in rat by in situ hybridization. CHIF is selectively present in the distal parts of the nephron (medullary and papillary collecting ducts and end portions of cortical collecting tubule) and in the epithelial cells of the distal colon. No expression of CHIF was found in renal proximal tubule, loop of Henle and distal tubule, proximal colon, small intestine, lung, choroid plexus, salivary glands, or brain. To gain some insight into CHIF function, we have investigated, using in situ hybridization and ribonuclease protection assay, whether CHIF mRNA expression could be altered in some situations. In the distal colon, corticosteroid hormones, sodium restriction, low-potassium diet, and metabolic acidosis significantly increased CHIF mRNA expression. In the kidney, metabolic acidosis was the only condition that showed an increase in CHIF mRNA expression. Some of these treatments also altered the expression of the colonic H(+)-K(+)-ATPase mRNA. In summary, CHIF mRNA is selectively expressed in the medullary collecting duct of the kidney and in the epithelium of the distal colon; its expression varies differently in these two target tissues after alterations in corticosteroid status, potassium depletion, and metabolic acidosis. The precise cell-specific functions of CHIF remain to be established.
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PMID:Cellular localization and regulation of CHIF in kidney and colon. 884 4

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

The mRNA expression and localization of the aquaporin (AQP) family in rat kidney were examined by ribonuclease protection assay and immunohistochemistry. AQP1, AQP2, AQP3, and AQP4 mRNA were hardly detectable in 16-day gestation fetuses. AQP1 mRNA was explosively expressed at 1 wk, keeping the level throughout life. AQP2 mRNA expression was apparently noticed in 18-day fetuses and was enhanced gradually with age to reach a plateau at 4 wk. AQP3 and AQP4 mRNA expression was significantly found at birth but was not changed remarkably thereafter. AQP2 protein appeared first at the apical side of collecting duct cells in 18-day fetuses. The staining intensity at the site increased with age, and basolateral staining was added in adult rats. AQP3 was distinctly demonstrated at the basolateral side of collecting duct cells after birth, and the staining intensity was almost stable throughout life. The progressive induction of AQP2 expression in the first 4 wk after birth is presumed to contribute to the maturation of urinary concentrating capacity during the kidney development.
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PMID:Expression of AQP family in rat kidneys during development and maturation. 912 96

Aquaporin-2 (AQP-2) water channel is a key molecule for urinary concentration whose expression is augmented by dehydration in vivo. To elucidate the regulatory mechanism of this phenomenon in vitro, mouse collecting duct cell lines were established from a transgenic mouse harboring temperature-sensitive simian virus 40 large T antigen gene and then screened for the AQP-2 expression, using ribonuclease protection assay. In one cell line designated C4, the endogenous AQP-2 mRNA level measured by ribonuclease protection assay increased fourfold after treatment with chlorophenylthio-cAMP (cpt-cAMP) (400 microM). In contrast, phorbol 12-myristate 13-acetate did not affect the AQP-2 mRNA level. To identify the molecular mechanism(s) of cAMP-induced upregulation of AQP-2 mRNA in C4 cells, luciferase assay was performed using various 5'-flanking regions of the human AQP-2 gene. Luciferase activity in C4 cells transfected with constructs containing approximately 2.8-kbp or 224-bp 5'-flanking region showed a 3.5-fold increase by cpt-cAMP treatment, indicating that the 224-bp 5'-flanking region contains the elements necessary for cAMP-induced regulatory mechanisms. This region contains cAMP-responsive element (CRE), and the deletion of the core sequence of CRE (GACGTCA) or introduction of mutation into CRE (GTGGTCA) completely abolished the responsiveness to cpt-cAMP, confirming the key role of CRE in the cAMP-induced transcriptional activation of the AQP-2 gene. Electrophoretic mobility shift assay revealed the existence of proteins binding to CRE in C4 cells and in rat kidney. The binding of CRE proteins to CRE was increased in the nuclear extract from cpt-cAMP-treated C4 cells and dehydrated rat kidney compared with those from controls. These results demonstrated that the CRE in the AQP-2 gene promoter is a key cis-element for cAMP-mediated transcriptional regulation of this gene and may be important for in vivo regulation of AQP-2 expression in a dehydrated state.
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PMID:Transcriptional regulation of aquaporin-2 water channel gene by cAMP. 918 51

We present evidence that tissue distribution of two highly conserved Na+/H+ exchanger isoforms, NHE2 and NHE4, differs significantly from previously published reports. Riboprobes unique to each of these antiporters, from 5' (noncoding and coding) and 3' coding regions, were used to analyze mRNA from adult rat kidney and intestine by ribonuclease protection assay and in situ hybridization. In contrast to earlier work that concluded that both NHE2 and NHE4 were expressed throughout the intestine and in the kidney, our data show that there is no NHE2 message in the kidney and NHE4 is not expressed in small or large intestine. Analyses of intestinal epithelial and kidney membrane proteins by an NHE2-specific antibody identified a doublet at < 90 kDa in intestine but not in kidney. NHE2 is highly expressed in the Na(+)-absorptive epithelium of jejunum, ileum, and ascending and descending colon. NHE4 mRNA message is found in the inner medulla of the kidney as previously reported (C. Bookstein, M. W. Musch, A. DePaoli, Y. Xie, M. Villereal, M. C. Rao, and E. B. Chang. J. Biol. Chem. 269: 29704-29709, 1994) and not in the intestine. From these data, we speculate that neither NHE2 nor NHE4 has a role in renal Na+ absorption. NHE2 is likely involved in gut Na+ absorption, whereas NHE4 may have a specialized role in cell volume rectification of inner medullary collecting duct cells. Knowledge of the correct tissue and cell-specific distribution of these two antiporters should help significantly in understanding their physiological roles.
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PMID:Tissue distribution of Na+/H+ exchanger isoforms NHE2 and NHE4 in rat intestine and kidney. 937 34

cAMP mediates many of the effects of vasopressin, prostaglandin E2, and beta-adrenergic agents upon salt and water transport in the renal collecting duct. The present studies examined the role of cAMP-dependent protein kinase (PKA) in mediating these effects. PKA is a heterotetramer comprised of two regulatory (R) subunits and two catalytic (C) subunits. The four PKA isoforms may be distinguished by their R subunits that have been designated RIalpha, RIbeta, RIIalpha, and RIIbeta. Three regulatory subunits, RIalpha, RIIalpha, and RIIbeta, were detected by immunoblot and ribonuclease protection in both primary cultures and fresh isolates of rabbit cortical collecting ducts (CCDs). Monolayers of cultured CCDs grown on semipermeable supports were mounted in an Ussing chamber, and combinations of cAMP analogs that selectively activate PKA type I vs. PKA type II were tested for their effect on electrogenic ion transport. Short-circuit current (Isc) was significantly increased by the PKA type II-selective analog pairs N6-monobutyryl-cAMP plus 8-(4-chlorophenylthio)-cAMP or N6-monobutyryl-cAMP plus 8-chloro-cAMP. In contrast the PKA type I-selective cAMP analog pair [N6-monobutyryl-cAMP plus 8-(6-aminohexyl)-amino-cAMP] had no effect on Isc. These results suggest PKA type II is the major isozyme regulating electrogenic ion transport in the rabbit collecting duct.
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PMID:Type II cAMP-dependent protein kinase regulates electrogenic ion transport in rabbit collecting duct. 1019 23


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