UNIPROT:P01185 - FACTA Search

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The vasopressin-sensitive water channel (aquaporin 2; AQP-2) mediates water transport across the apical plasma membrane of the renal collecting ducts and is excreted in human urine. This study presents the hypothesis that measurements of the AQP-2 excretion rate might be used as a marker of collecting-duct responsiveness to vasopressin, and therefore could be useful in the clinical evaluation of various water-balance disorders. This study presents information about the development of an antibody to human AQP-2, and measures the urinary excretion of AQP-2 by quantitative Western analysis. A standard curve of band densities was generated by using known quantities of the modified immunizing peptide to derive the amount of AQP-2 contained in aliquots of urine. AQP-2 urinary excretion changed with short-term alterations in hydration status produced either by water loading (76% decrease, P < 0.01) or by 3% sodium chloride (760% increase, P < 0.01). Steady-state 24-h urinary excretion of AQP-2 was 43 +/- 10 nmol/24 h (or 28.5 +/- 6.9 pmol/mg creatinine), and 20 +/- 6 nmol/24 h (or 18.3 +/- 7.9 pmol/mg creatinine) in men and women, respectively. Therefore, urinary AQP-2 excretion can be quantified by using Western analysis, and may serve as a marker of collecting-duct responsiveness to vasopressin in different physiologic settings.
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PMID:Urinary excretion of aquaporin-2 in humans: a potential marker of collecting duct responsiveness to vasopressin. 870 5

The molecular cloning and characterization of receptors for the nonapeptide hormone family vasopressin-oxytocin was rapidly followed by the identification of mutations in the V2 receptor gene segregating with the clinical phenotype in more than a hundred families with X-linked nephrogenic diabetes insipidus. Together with the recent cloning of the vasopressin-regulated water channel in the apical membrane of the collecting duct tubule and of the identification of rare autosomal recessive nephrogenic diabetes insipidus patients with mutations in the AQP2 gene, these developments enable carrier detection and early diagnosis of infants with congenital nephrogenic diabetes insipidus.
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PMID:Vasopressin receptors in health and disease. 874 82

Aquaporins (AQPs) are a newly recognized family of transmembrane proteins that function as molecular water channels. At least four aquaporins are expressed in the kidney where they mediate rapid water transport across water-permeable epithelia and play critical roles in urinary concentrating and diluting processes. AQP1 is constitutively expressed at extremely high levels in the proximal tubule and descending limb of Henle's loop. AQP2, -3 and -4 are expressed predominantly in the collecting duct system. AQP2 is the predominant water channel in the apical plasma membrane and AQP3 and -4 are found in the basolateral plasma membrane. Short-term regulation of collecting duct water permeability by vasopressin is largely a consequence of regulated trafficking of AQP2-containing vesicles to and from the apical plasma membrane.
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PMID:Renal aquaporins. 874 83

Aquaporin-2 (AQP-2) is the arginine vasopressin-regulated water channel of the renal collecting ducts. Using an improved version of a fluorescence-based enzyme-linked immunosorbent assay (Y. Maeda, B. L. Smith, P. Agre, and M. A. Knepper. J. Clin. Invest. 95: 422-428, 1995), we quantified AQP-2 protein abundance in microdissected renal collecting ducts from normal Sprague-Dawley (SD) rats and vasopressin-deficient Brattleboro rats. Standard curves were linear in the range of 0-200 fmol/well and were highly reproducible from day to day (lower limit of detection 2.3 fmol; coefficient of variation 6-9%). In SD rats thirsted for 24 h, the measured quantities of AQP-2 were as follows (x 10(9) molecules/mm): cortical collecting ducts (CCD), 4.3 +/- 0.5; outer medullary collecting ducts (OMCD), 10.1 +/- 1.7; initial one-third of inner medullary collecting duct (IMCD-1), 9.2 +/- 1.1; middle one-third of the IMCD (IMCD-2), 7.5 +/- 0.8; terminal one-third of the IMCD (IMCD-3), 3.3 +/- 0.6; n = 7-12. In IMCD-2 this corresponds to 11.8 +/- 1.3 x 10(6) AQP-2 molecules per cell. Thus AQP-2 is extremely abundant in collecting duct cells. AQP-2 levels were decreased in untreated Brattleboro rats relative to the parent strain Long-Evans (LE) by 68% in IMCD-2 and 44% in CCD. Following vasopressin infusion by osmotic minipumps, AQP-2 levels in IMCD-2 of Brattleboro rats rose gradually, reaching levels equivalent to those seen in LE rats after 5 days. A similar rise was seen in the CCD, indicating that the vasopressin-induced increase was not dependent on a large increase in the interstitial tonicity. Thus a rise in circulating vasopressin concentration increases the level of AQP-2 protein expression in collecting ducts, presumably via a direct action of vasopressin.
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PMID:Quantitation of aquaporin-2 abundance in microdissected collecting ducts: axial distribution and control by AVP. 876 Feb 44

To evaluate the possible role of a putative vesicle-targeting protein, syntaxin-4, in vasopressin-regulated trafficking of aquaporin-2 water channel vesicles to the apical plasma membrane of renal collecting duct cells, we have carried out immunoblotting, immunocytochemistry, and reverse transcription (RT)-PCR experiments in rat kidney. Immunochemical studies used an affinity-purified, peptide-directed polyclonal antibody to rat syntaxin-4. Immunoblots using membrane fractions from inner medullary collecting duct (IMCD) cell suspensions revealed a solitary protein of 36 kD, the expected molecular mass of syntaxin-4. This protein was enriched in a plasma membrane-enriched membrane fraction from IMCD cells. Immunoperoxidase immunocytochemistry in 0.85-microm cryosections from rat inner medulla revealed discrete labeling of the apical plasma membrane of IMCD cells. RT-PCR demonstrated the presence of syntaxin-4 mRNA in microdissected IMCD segments, confirmed by direct sequencing of the PCR product. In addition, RT-PCR experiments demonstrated syntaxin-4 mRNA in glomeruli, vasa recta, connecting tubules, and thin descending limbs of Henle's loops. The demonstrated localization of syntaxin-4 in the apical plasma membrane of collecting duct principal cells, coupled with previous demonstration of syntaxin-4's putative cognate receptor VAMP2 in aquaporin-2-containing vesicles, supports the view that these proteins could play a role of aquaporin-2 vesicle targeting to the apical plasma membrane.
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PMID:Syntaxin-4 is localized to the apical plasma membrane of rat renal collecting duct cells: possible role in aquaporin-2 trafficking. 877 Aug 61

This review summarizes recent progress in water-transporting mechanisms across cell membranes. Modern biophysical concepts of water transport and new measurement strategies are evaluated. A family of water-transporting proteins (water channels, aquaporins) has been identified, consisting of small hydrophobic proteins expressed widely in epithelial and nonepithelial tissues. The functional properties, genetics, and cellular distributions of these proteins are summarized. The majority of molecular-level information about water-transporting mechanisms comes from studies on CHIP28, a 28-kDa glycoprotein that forms tetramers in membranes; each monomer contains six putative helical domains surrounding a central aqueous pathway and functions independently as a water-selective channel. Only mutations in the vasopressin-sensitive water channel have been shown to cause human disease (non-X-linked congenital nephrogenic diabetes insipidus); the physiological significance of other water channels remains unproven. One mercurial-insensitive water channel has been identified, which has the unique feature of multiple overlapping transcriptional units. Systems for expression of water channel proteins are described, including Xenopus oocytes, mammalian and insect cells, and bacteria. Further work should be directed at elucidation of the role of water channels in normal physiology and disease, molecular analysis of regulatory mechanisms, and water channel structure determination at atomic resolution.
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PMID:Water transport across mammalian cell membranes. 877 26

Regulation of total body water balance in amphibians by antidiuretic hormone (ADH) contributed to their successful colonization of terrestrial habitats approximately 200-300 million years ago. In the mammalian kidney, ADH modulates epithelial cell apical membrane water permeability (Pf) by fusion and retrieval of cytoplasmic vesicles containing water channel proteins called aquaporins (AQPs). To determine the role of AQPs in ADH-elicited Pf in amphibians, we have identified and characterized a unique AQP from Bufo marinus called AQP toad bladder (AQP-TB). AQP-TB possesses many structural features common to other AQPs, AQP-TB is expressed abundantly in ADH-responsive tissues, including toad urinary bladder and skin as well as lung, skeletal muscle, kidney, and brain. In a manner identical to that reported for the mammalian ADH-elicited water channel AQP2, AQP-TB expression is increased significantly by intervals of dehydration or chronic ADH stimulation. However, expression of AQP-TB protein in Xenopus laevis oocytes does not significantly increase oocyte Pf. The lack of expression of functional AQP-TB water channels in oocytes may result from intracellular sequestration of AQP-TB due to the presence of a YXRF sequence motif present in its carboxyterminal domain.
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PMID:Cloning of an aquaporin homologue present in water channel containing endosomes of toad urinary bladder. 877 65

Discovery of aquaporin water channel proteins has provided insight into the molecular mechanism of membrane water permeability. The distribution of known mammalian aquaporins predicts roles in physiology and disease. Aquaporin-1 mediates proximal tubule fluid reabsorption, secretion of aqueous humor and cerebrospinal fluid, and lung water homeostasis. Aquaporin-2 mediates vasopressin-dependent renal collecting duct water permeability; mutations or downregulation can cause nephrogenic diabetes insipidus. Aquaporin-3 in the basolateral membrane of the collecting duct provides an exit pathway for reabsorbed water. Aquaporin-4 is abundant in brain and probably participates in reabsorption of cerebrospinal fluid, osmoregulation, and regulation of brain edema. Aquaporin-5 mediates fluid secretion in salivary and lacrimal glands and is abundant in alveolar epithelium of the lung. Specific regulation of membrane water permeability will likely prove important to understanding edema formation and fluid balance in both normal physiology and disease.
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PMID:Pathophysiology of the aquaporin water channels. 881 12

Aquaporin-2 (AQP-2) has been shown to be a vasopressin-sensitive water channel in collecting duct (CD) cells of the kidney. To prove the role of the vasopressin V2 receptor (V2R) in the regulation of intracellular AQP-2 shuttling, we examined the acute effects of vasopressin and V2R antagonist on the distribution of AQP-2 in the cells. Normal Wistar rats were given continuous infusions of vasopressin, vasopressin V2R antagonist (OPC31260), or both. The kidneys were then processed for immunofluorescent studies with an affinity-purified specific antibody to AQP-2. One hour after the infusion of the V2R antagonist, AQP-2 staining was diffusely distributed in the CD cells from the cortex to the inner medulla. This tendency was not changed by the concomitant infusion with vasopressin. Vasopressin infusion without antagonist, however, induced intensified AQP-2 staining of the apical membrane in the CD cells. The ratio of the fluorescence intensity of the apical to subapical region was determined by confocal laser microscopy. In the inner medulla, this ratio was significantly increased in the vasopressin treatment group (2.26 +/- 0.76) as compared to the V2R antagonist group (1.03 +/- 0.34) and the combined treatment group (0.84 +/- 0.43). The increase in the ratio was also demonstrated in the cortex and the outer medulla in the vasopressin-treated group. In addition, Northern blotting studies clearly revealed that mRNA of AQP-2 in the vasopressin-treated group was increased when compared to the combined treatment animals. Our present results reveal that localization and gene expressions of AQP-2 are acutely regulated via vasopressin V2R.
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PMID:Role of vasopressin V2 receptor in acute regulation of aquaporin-2. 881 15

A cDNA was cloned from the epithelium of toad (Bufo marinas) urinary bladder, based on homology to the mammalian aquaporins (AQP). The cDNA [947 base pairs (bp), identified as AQP-t1] encoded a 272-amino acid protein with 76% identity to mammalian aquaporin-1 (AQP-1) and 88% identity to frog water channel FA-CHIP. AQP-t1 cDNA was nearly identical to a fragment of a nonfunctional cDNA cloned recently from toad bladder ["AQP-TB"; J. Siner, A. Paredes, C. Hosselet, T. Hammond, K. Strange, and H.W. Harris, Am. J. Physiol. 270 (Cell Physiol. 39): C372-C381, 1996], except for reading frame shifts at bp 253, 264, and 682, two single amino acid deletions, a different 3'-coding sequence downstream from bp 786, and a different 5' sequence upstream from bp 9. Water permeability (Pf) in Xenopus laevis oocytes expressing AQP-t1 cRNA was strongly increased from (0.83 +/- 0.06) x 10(-3) cm/s (water-injected control) to (17 +/- 4) x 10(-3) cm/s, with 80% inhibition by 0.3 mM HgCl2; glycerol and urea permeabilities were not increased. Northern blot analysis showed a single AQP-t1 mRNA of 2.8 kb in eye > lung > urinary bladder > skin > stomach approximately heart, brain, and intestine. AQP-t1 mRNA expression was not changed by a 3-day dehydration of toads or an 8-h stimulation of Pf in isolated bladders by forskolin. These results indicate that the epithelium of toad urinary bladder expresses a functional homologue of AQP-1 and FA-CHIP that is probably not vasopressin regulated.
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PMID:cDNA cloning of a functional water channel from toad urinary bladder epithelium. 894 54

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