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 vasopressin-regulated urea carrier and the vasopressin-regulated water channel are distinct transporters present in the apical membrane of the inner medullary collecting duct (IMCD) cells. To assess whether these transporters may be activated by common mechanisms, we investigated the time course of increase of urea and water permeability in response to vasopressin in isolated perfused terminal IMCD segments. The permeability responses were determined through the use of a specially designed continuous-flow fluorometer for rapid analysis of collected tubule fluid samples. The time courses of activation of the two transporters by vasopressin were virtually identical. Both urea and water permeability displayed a rapid initial increase for the first 10 min followed by a slower secondary response lasting at least 30 additional min. The lag periods between vasopressin addition and the initial rise in permeability were the same for urea (34.2 +/- 8.8 s) and water (34.8 +/- 8.9 s) transport activation. Furthermore, the initial rate of permeability increase (normalized by the total increase) was not significantly different for the two transport processes. The lag periods for the increase in urea permeability in response to 8-bromoadenosine 3',5'-cyclic monophosphate and vasopressin were not significantly different. The results are consistent with the view that the rate-limiting step in vasopressin-induced activation is the same for both the urea carrier and water channel and may lie at a step beyond generation of adenosine 3',5'-cyclic monophosphate.
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PMID:Kinetics of urea and water permeability activation by vasopressin in rat terminal IMCD. 132 Mar 35

The role of adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein kinase A (PKA) in mediating the hydrosmotic effect of vasopressin in in vitro microperfused rabbit cortical collecting ducts (CCDs) was examined. We measured PKA substrate phosphorylation and water permeability [hydraulic conductivity (Lp) = 10(-7) cm.atm-1.s-1], stimulated by substituted cAMP analogues selective for a unique cAMP binding site (site A or B) on PKA regulatory subunit (R). Synergy between site A- and site B-selective analogues suggests involvement of PKA, because both sites must be occupied for R to dissociate from the catalytic subunit (C), allowing phosphorylation to proceed. As single agents, the site B-selective analogues 8-(4-chlorophenylthio)-cAMP (8-CPT) and 8-thiomethyl-cAMP (8-SCH3) were at least two orders of magnitude more potent than the site A-selective analogues N6-monobutyryl-cAMP (N6-mono) or N6-benzoyl-cAMP (N6-benz). Combinations of subthreshold concentrations of two site A analogues (N6-mono+N6-benz) or two site B-selective analogues (8-CPT + 8-SCH3) failed to significantly increase protein phosphorylation or water permeability. In contrast, combination of a site A plus site B analogue synergistically stimulated both protein phosphorylation and Lp. Rp-cAMPS, an inhibitor of cAMP binding to PKA, reduced both vasopressin (41% inhibition)- and cAMP (56% inhibition)-stimulated water permeability. H-89 (50 microM), an inhibitor of PKA kinase activity, also blocked cAMP-stimulated water permeability (90% inhibition). These findings suggest that vasopressin-induced water permeability in the rabbit CCD is mediated by PKA.
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PMID:cAMP-dependent protein kinase mediates hydrosmotic effect of vasopressin in collecting duct. 132 38

Previous data suggest that atrial natriuretic factor (ANF) and bradykinin (BK) interact to increase Na+ and water excretion. We propose that this interaction is due to a synergistic action that inhibits Na+ absorption in the distal nephron. We examined the effects of BK and ANF on transport by monolayers of a cortical collecting duct cell line, M-1. BK (10(-8) M) had no effect on short-circuit current (Isc). Similarly, ANF (10(-8) M) did not inhibit Isc. In contrast, Isc decreased by 18% (from 57 +/- 8 to 46 +/- 6 microA/cm2) when BK and ANF were added simultaneously at this concentration (P less than 0.05). Because guanosine 3',5'-cyclic monophosphate (cGMP) and protein kinase C are implicated in the second messenger cascades of ANF and BK, we investigated their potential roles in mediating this interaction. Dibutyryl-cGMP (10(-4) M) inhibited Isc from 33 +/- 4 to 22 +/- 3 microA/cm2 (P less than 0.05) in the presence of BK but not in its absence. Staurosporine and calphostin C, inhibitors of protein kinase C, completely blocked the decrease in Isc caused by simultaneous addition of ANF and BK. cAMP levels in M-1 cells were not affected by either ANF alone or BK alone; however, when cultures were treated with both hormones, cAMP decreased from 856 +/- 56 to 332 +/- 26 fmol/10(6) cells (P less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:ANF and bradykinin synergistically inhibit transport in M-1 cortical collecting duct cell line. 132 53

Renal tubule solute and water transport is subject to regulation by numerous factors. To characterize direct effects of the recently discovered peptide endothelin (ET) on renal tubule transport, we determined signaling mechanisms for ET effects on vasopressin (AVP)-stimulated water permeability (PF) in rat terminal inner medullary collecting duct (IMCD) perfused in vitro. ET caused a rapid, dose-dependent, and reversible fall in AVP- but not cyclic AMP-stimulated PF, suggesting that its effect on PF is by inhibition of cyclic AMP accumulation. Indomethacin did not block ET actions, ruling out a role for prostaglandins in its effect. The protein kinase C (PKC) inhibitor calphostin, or pretreatment of perfused tubules with pertussis toxin, blocked ET-mediated inhibition of AVP-stimulated PF. ET caused a transient increase in intracellular calcium ([Ca2+]i) in perfused tubules, an effect unchanged in zero calcium bath or by PT pretreatment. ET effects on PF and [Ca2+]i desensitized rapidly. Inhibition of PF was transient and largely abolished by 20 min ET preexposure, and repeat exposure to ET did not alter [Ca2+]i. In contrast, PGE2-mediated inhibition of AVP-stimulated PF and increase of [Ca2+]i were sustained and unaltered by prior exposure of IMCD to ET. Thus desensitization to ET is homologous. We conclude that ET is a potent inhibitor of AVP-stimulated water permeability in rat terminal IMCD. Signaling pathways for its effects involve both an inhibitory guanine nucleotide-binding protein and phospholipase-mediated activation of PKC. Since ET is synthesized by IMCD cells, this peptide may be an important autocrine modulator of renal epithelial transport.
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PMID:Endothelin inhibits vasopressin-stimulated water permeability in rat terminal inner medullary collecting duct. 132

Renal prostaglandins (PGs) help maintain renal blood flow and glomerular filtration rate when the kidney is exposed to a vasoconstrictor stress. In addition, they aid pressure natriuresis and blunt the antidiuretic effect of vasopressin. Angiotensin-converting enzyme (ACE) inhibitors could decrease renal PG synthesis by reducing angiotensin II (Ang II) formation or increase it by preventing kinin inactivation. Additionally, they could affect PG synthesis or catabolism directly. The effects of ACE inhibitors on blood pressure and renal hemodynamics appear to be largely independent of changes in renal PG synthesis. Similarly, there is no evidence that pressure natriuresis is modified by ACE inhibitors. A kinin induced increase in collecting duct PG synthesis may account for the water diuresis seen clinically with ACE inhibitors. A possible beneficial interaction between thromboxane synthesis inhibitors and ACE inhibitors may exist. Thromboxane synthetase inhibitors can reduce renal vascular resistance by redirecting PG endoperoxide synthesis toward prostacyclin. This effect may be offset by a prostaglandin-induced increase in renin release and Ang II formation. ACE inhibitors, by preventing Ang II synthesis, may increase the vasodilation due to thromboxane synthesis inhibition.
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PMID:Renal prostaglandin synthesis and angiotensin-converting enzyme inhibition. 138 64

Endocytic vesicles that are involved in the vasopressin-stimulated recycling of water channels to and from the apical membrane of kidney collecting duct principal cells were isolated from rat renal papilla by differential and Percoll density gradient centrifugation. Fluorescence quenching measurements showed that the isolated vesicles maintained a high, HgCl2-sensitive water permeability, consistent with the presence of vasopressin-sensitive water channels. They did not, however, exhibit ATP-dependent luminal acidification, nor any N-ethylmaleimide-sensitive ATPase activity, properties that are characteristic of most acidic endosomal compartments. Western blotting with specific antibodies showed that the 31- and 70-kD cytoplasmically oriented subunits of the vacuolar proton pump were not detectable in these apical endosomes from the papilla, whereas they were present in endosomes prepared in parallel from the cortex. In contrast, the 56-kD subunit of the proton pump was abundant in papillary endosomes, and was localized at the apical pole of principal cells by immunocytochemistry. Finally, an antibody that recognizes the 16-kD transmembrane subunit of oat tonoplast ATPase cross-reacted with a distinct 16-kD band in cortical endosomes, but no 16-kD band was detectable in endosomes from the papilla. This antibody also recognized a 16-kD band in affinity-purified H+ ATPase preparations from bovine kidney medulla. Therefore, early endosomes derived from the apical plasma membrane of collecting duct principal cells fail to acidify because they lack functionally important subunits of a vacuolar-type proton pumping ATPase, including the 16-kD transmembrane domain that serves as the proton-conducting channel, and the 70-kD cytoplasmic subunit that contains the ATPase catalytic site. This specialized, non-acidic early endosomal compartment appears to be involved primarily in the hormonally induced recycling of water channels to and from the apical plasma membrane of vasopressin-sensitive cells in the kidney collecting duct.
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PMID:Apical endosomes isolated from kidney collecting duct principal cells lack subunits of the proton pumping ATPase. 138 76

Experiments were performed in anesthetized rats to examine the possibility that endothelin (ET) modifies renal epithelial function in addition to its well-established hemodynamic actions. Infusion of ET-3 at rates between 34 and 178 ng.kg-1.min-1 was in many cases followed by a rise in urine flow and a persistent decrease in urine osmolality, whereas glomerular filtration rate (GFR) did not significantly change. The extent of ET-induced diuresis was dependent on the response of GFR: in rats in which ET-3 infusion caused a marked reduction of GFR (greater than 70%) ET-induced diuresis was not seen, even though urine osmolality still fell significantly. From animal to animal, ET-induced changes of urine flow or GFR did not correlate significantly with the rate of ET-3 infusion. ET-1, another ET isopeptide, also produced water diuresis when administered in GFR-neutral doses. Urinary excretion of total solutes and of sodium was not significantly altered by ET-3. Infusion of vasopressin blunted the diuretic effect of ET-3, whereas ET-3-induced water diuresis was not measurably altered by chronic or acute treatment with a converting enzyme inhibitor or by acute inhibition of prostaglandin synthesis. Induction of water diuresis was not secondary to an inhibition of vasopressin secretion since it could be demonstrated in homozygous Brattleboro rats in which antidiuresis was produced by the infusion of vasopressin at a rate of 200 microU.kg-1.min-1. These data suggest that ET may be an inhibitory modulator of the hydrosmotic action of vasopressin at the level of the renal collecting duct.
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PMID:Induction of water diuresis by endothelin in rats. 141 80

Endothelin-1 (ET-1) may be an important factor in the regulation of inner medullary collecting duct (IMCD) physiology. This segment of the nephron synthesizes ET-1, expresses endothelin receptors, and responds to exogenous ET-1 by reducing Na(+)-K(+)-ATPase activity and water transport. Taken together, these findings suggest an autocrine role for ET-1 in the regulation of IMCD function; however, because of the polarized nature of the IMCD, it is not known if ET-1 secretion, receptors, and receptor activation occur on the same side of the cell. To examine this question, rat IMCD cells were grown to confluence on semipermeable membranes. These cells exhibited polar morphology with high transepithelial electrical resistances. Immunoreactive ET-1 was secreted primarily into the basolateral side. Furthermore, 125I-ET-1 bound predominantly to the basolateral surface. Finally, ET-1 (10(-8) M) stimulated prostaglandin E2 production only when added to the basolateral side. These data indicate, therefore, that ET-1 is capable of autocrine regulation of IMCD cells and that this effect occurs predominantly on the basolateral side.
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PMID:Endothelin-1 is an autocrine factor in rat inner medullary collecting ducts. 141 33

Endothelin-1 inhibits sodium and water transport systems in the inner medullary collecting duct. Endothelin-1 levels are reduced in the medulla of spontaneously hypertensive rats (SHR), raising the possibility that decreased inner medullary collecting duct production of endothelin-1 could contribute to inappropriate sodium and water retention. In the current study, immunoreactive endothelin-1 was measured in the urine, blood, and eluates from cortex and outer and inner medulla of SHR before (age 3-4 weeks) and after (age 8-9 weeks) the development of hypertension and in age-matched Wistar-Kyoto (WKY) controls. There was no difference in endothelin-1 levels between prehypertensive SHR and WKY rats. In contrast, 8-9-week-old SHR had significantly reduced endothelin-1 in the urine and outer and inner medulla, but not in the cortex or serum compared with those of WKY controls. Furthermore, inner medullary collecting duct cells from 8-9-week-old SHR, either acutely isolated or cultured, released less endothelin-1 than did those from WKY rats. Finally, the level of endothelin-1 messenger RNA was only reduced in the inner medulla and in inner medullary collecting duct cells from 8-9-week-old SHR. In summary, renal medullary, and in particular terminal collecting duct, endothelin-1 production is reduced in SHR only after the development of hypertension. Such decreases in inner medullary collecting duct endothelin-1 production may contribute to the hypertensive state in SHR.
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PMID:Alterations in renal endothelin-1 production in the spontaneously hypertensive rat. 142 17

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


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