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 effect of prostaglandin I2 (prostacyclin) on renal and intrarenal hemodynamics and function was studied in mongrel dogs to elucidate the role of this novel prostaglandin in renal physiology. Starting at a dose of 10(-8) g/kg/min, PGI2 decreased renal vascular resistance and redistributed the blood flow away from the outer cortex (zone 1) and towards the juxtamedullary cortex (zone 4). At 3 X 10(-8) g/kg/min, the renal vascular resistance decreased even further, but at this dose the mean arterial blood pressure also declined 13% indicating recirculation of this prostaglandin. PGI2 infusion at a vasodilatory dose resulted in natriuresis and kaliuresis. With a decline in filtration fraction, these changes were most likely secondary to the hemodynamic effects of this prostaglandin. Unlike PGE2, PGI2 had no direct effect on free water clearance indicating lack of activity at the collecting duct. PGI2 may be the important renal prostaglandin involved in modulating renal vascular resistance and intrarenal hemodynamics as well as influencing systemic blood pressure.
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PMID:The effect of PGI2 on canine renal function and hemodynamics. 36 49

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

The effects of prostaglandin (PG) E2 on cell swelling were studied in isolated perfused tubules of rabbit kidney. PGE2 (1 microM) added to the bath induced cell swelling by 13.4, 7.2, and 9.6% in the connecting tubule, distal convoluted tubule, and cortical collecting duct, respectively, but it had no effect on the proximal convoluted tubule and cortical thick ascending limb. The response was dose dependent in the range of 1 nM to 1 microM. PGI2 exerted a similar effect, but PGF2 alpha had no effect. The swelling was completely blocked by basolateral Na+ removal and was attenuated by bilateral Cl- removal, suggesting that the swelling was mediated by basolateral Na+ entry in association with Cl- entry. In all segments except proximal tubule, PGE2 caused an initial transient peak followed by a sustained increase in intracellular Ca2+. Intracellular Ca2+ chelation or inhibition of Ca2+ release from intracellular stores abolished the PGE2-induced cell swelling, but extracellular Ca2+ removal did not. An inhibitor of the Na(+)-Ca2+ exchanger (3',4'-dichlorobenzamil, 100 microM) in the bath completely inhibited PGE2-induced cell swelling. Neither furosemide (1 mM) nor amiloride (1 mM) added to bath abolished the response, indicating that neither Na(+)-K(+)-2Cl- cotransport nor Na(+)-H+ exchange is involved in the action of PGE2. The swelling response to PGE2 was observed even in the presence of ouabain, indicating that the effect of PGE2 is independent of Na(+)-K(+)-adenosinetriphosphatase inhibition. Nicardipine added to bath partially inhibited the swelling response.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of PGE2-induced cell swelling in distal nephron segments. 133 3

Atrial natriuretic peptide (ANP)(31-67), a portion of the atrial peptide prohormone, circulates in humans, and its plasma level varies with atrial pressure. Like the more widely studied carboxy-terminal fragment ANP(99-126), ANP(31-67) stimulates natriuresis and diuresis. We examined the mechanism of this natriuresis by measuring the effects of ANP(31-67) on Na+ transport in cells of the rabbit inner medullary collecting duct (IMCD). ANP(31-67) (10(-8) M) caused a 26 +/- 4% inhibition of oxygen consumption (QO2); half-maximal inhibition occurred at 10(-11) M, suggesting a physiologic effect. This effect was not additive with either ouabain or amiloride, suggesting that it reflected inhibition of Na+ transport-dependent QO2. ANP(31-67) reduced the amphotericin-induced stimulation of QO2 consistent with inhibition by this peptide of the Na(+)-K(+)-ATPase. In addition, ANP(31-67) reduced ouabain-sensitive 86Rb+ uptake under Vmax conditions. Several lines of evidence indicated that PGE2, a known endogenous IMCD Na(+)-K(+)-ATPase inhibitor, mediates pump inhibition by ANP(31-67). Thus, ANP(31-67) inhibits Na+ transport by inhibiting the Na(+)-K(+)-ATPase of IMCD cells, an effect mediated by the generation of PGE2.
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PMID:Atrial natriuretic peptide(31-67) inhibits Na+ transport in rabbit inner medullary collecting duct cells. Role of prostaglandin E2. 153 29

The present in vitro microperfusion study examined whether chlorpropamide (CPM) has a direct effect on hydraulic conductivity (Lp x 10(-6) cm/atm.sec) and 14C-urea permeability (Pu x 10(-5) cm/sec) in the middle and distal inner medullary collecting duct (IMCD) obtained from acutely water-loaded Wistar rats and rats homozygous for diabetes insipidus (DI). CPM (10(-4) M) added to the bath fluid increased the Lp in the water-loaded Wistar rats from -0.05 +/- 0.13 to 6.25 +/- 0.74 (p less than 0.01) and in the DI rats from 0.05 +/- 0.01 to 5.95 +/- 0.84 (p less than 0.01), but had no effect when it was added to the perfusate. CPM stimulated Lp in a dose-dependent manner with the threshold effect at 10(-6) M. However, the addition of CPM (10(-4) M) to submaximal concentration of VP in the bath fluid did not increase the Lp. Furthermore, CPM was unable to block the inhibitory action of PGE2 on the vasopressin (VP)-stimulated Lp. On the contrary, PGE2 blocked the CPM-stimulated Lp. CPM (10(-4) M) in the peritubular fluid was able to cause a significant rise of the Pu from 13.5 +/- 0.8 to 17.3 +/- 1.0 reversibly, which represented 16% of maximum stimulated effect produced by 50 microU/ml of VP. Thus, pharmacological doses of CPM added to the peritubular side have a direct effect on terminal IMCD increasing water and urea permeability in the absence of VP, but this drug does not potentiate the VP-stimulated water transport in the IMCD. Our results were unable to confirm the hypothesis that CPM potentiates the VP-antidiuresis by the inhibition of PGE2 action in the rat IMCD.
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PMID:Effect of chlorpropamide on water and urea transport in the inner medullary collecting duct. 200 36

Experimental and clinical evidence support the assumption that eicosanoids affect the morphological development and the functional behaviour of the kidney during the intra-uterine and newborn periods. Inhibition of prostaglandin (PG) synthesis in the pregnant rhesus monkey resulted in renal hypoplasia in the offspring. The plasma levels of PGs are high in the newborn. Production of PGE2 by the cortical collecting duct was found to be similar in newborn and adult rabbit but the affinity of the renal tissue of the newborn for this eicosanoid was higher than that of the renal tissue of the adult rat. Based on findings in adult animals this would be expected to blunt the effect of antidiuretic hormone and account, in part, for the limited ability of the newborn to concentrate the urine. Yet, administration to unanaesthetized newborn rats of acetaminophen, a drug that inhibits the synthesis of PGE2 and thromboxane B2, blocked, rather than enhanced, the increment in urine osmolality produced by 1 h of water deprivation. The effect was absent in weaning and adult rats. A similar experimental manoeuvre increased sodium excretion in newborn but not in weaning or adult rats. Age-related differences are also evident with regard to side effects of PG synthesis inhibition.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of eicosanoids on the water and sodium balance of the neonate. 208 66

The effect of prostaglandin (PG) E2 on transport-dependent oxygen consumption (QO2) of rabbit medullary thick ascending limb (MTAL) cells was studied. Exogenous PGE2, at a concentration of 30 microM, inhibited ouabain-sensitive QO2 by 70%. Addition of either ouabain or bumetanide, after PGE2, further depressed QO2, whereas PGE2 had no effect when added after these transport inhibitors. There was no significant inhibition of QO2 by PGE2 in the absence of either Na or Cl. The QO2 of amphotericin-treated cells was inhibited by the addition of PGE2. Therefore the inhibitory effect of PGE2 was on the transport-dependent moiety of QO2 and was independent of Na entry. Other prostanoids had no significant effect on MTAL QO2. Suspensions of isolated MTAL cells accumulated PGE2 at about one-fifth the rate of outer medullary collecting duct cells. Finally, PGE2 caused an increase in intracellular adenosine 3',5'-cyclic monophosphate levels by approximately 100%. Although the precise mechanism of action is unclear, PGE2, which is synthesized by several cell types in the renal medulla, exerts an inhibitory effect on transport in rabbit MTAL.
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PMID:Prostaglandin E2 inhibits oxygen consumption in rabbit medullary thick ascending limb. 215 22

Prostaglandin E2 (PGE2) is natriuretic and inhibits collecting duct sodium transport by poorly defined mechanisms. To determine the mechanism of this inhibition, we have studied the effect of PGE2 on ouabain-sensitive (transport-dependent) oxygen consumption (QO2), ouabain-sensitive 86Rb+ uptake and ouabain-sensitive ATPase activity in fresh suspensions of rabbit inner medullary collecting duct cells, as well as Na+-K+-ATPase activity in inner medullary membranes. PGE2 (10(-5) M) reduced total QO2 by 21.6 +/- 2.3% (mean +/- SE) and reduced the ouabain-sensitive component of QO2 in IMCD cells. PGE2 failed to inhibit QO2 in the absence of sodium or in the presence of ouabain and blunted the increase in QO2 in response to amphotericin B. These results suggested that PGE2 inhibited Na+-K+-ATPase activity. Inhibition of pump activity was confirmed by measurements of 86Rb+ uptake: PGE2 (10(-5) M) reduced ouabain-sensitive 86Rb+ uptake by 57% at 10 s without altering equilibrium uptake. Furthermore, PGE2 (10(-6) M) reduced ouabain-sensitive ATPase activity by 46% in permeabilized inner medullary collecting duct cells. PGF2 alpha (10(-5) M) did not significantly alter QO2, 86Rb+ uptake, or Na+-K+-ATPase activity. These results demonstrate that PGE2 inhibits inner medullary collecting duct Na+-K+-ATPase activity and suggest a role for this inhibition in the natriuretic effect of PGE2.
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PMID:Prostaglandin E2 inhibits Na+-K+-ATPase activity in the inner medullary collecting duct. 255 Nov 87

PGE2 synthesis was measured along the nephron of Brattleboro (DI) rats, lacking ADH, and control LE rats, using an enzyme immunoassay. Experiments were performed in vitro, in the absence of exogenous arachidonic acid, using microdissected tubular segments. The effect of a chronic treatment of dDAVP was tested on three ADH sensitive tubular segments, medullary thick ascending limb (MTAL), medullary collecting tubule (OMCD) and papillary collecting duct (IMCD). No difference in PGE2 synthesis was present between LE and DI in glomerulus and tubular segments up to OMCD. In both strains, values were low in the proximal tubule and the loop of Henle, and gradually increased along the collecting tubule. In IMCD, PGE2 synthesis was much higher in DI (12.8 +/- 2.0 pg per 30 min per mm tubular length) than in LE (3.8 +/- 0.5, LE vs. DI p less than 0.001). In MTAL and OMCD, dDAVP treatment did not affect PGE2 synthesis. In IMCD, dDAVP reduced PGE2 synthesis to values (5.3 +/- 0.8 pg per 30 min per mm tubular length), which were not significantly different from those of LE. Neither oxytocin, which has been shown to be elevated in DI rats, nor furosemide, that reduced papillary osmolarity to values comparable to those of DI rats, were able to increase PGE2 synthesis in IMCD of LE rats. The mechanism of the increase in PGE2 synthesis in IMCD of DI rats, and of the inhibitory effect of dDAVP is yet unknown; it may participate to compensate for the lack of ADH in the Brattleboro rat.
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PMID:Antidiuretic hormone reduces the high PGE2 synthesis in papillary collecting duct of DI rats. 279 42

Studies were performed to determine whether cAMP impairs prostaglandin (PG) E2 production in a homogeneous population of cultured rat inner medullary collecting duct cells. Three structurally different cAMP analogues were shown to decrease PGE2 synthesis by 48.4% in the basal state and by 49.3% in response to the divalent cation ionophore A23187 (5 microM). Thromboxane B2 production was similarly suppressed. An increase in endogenous cAMP by forskolin also decreased PGE2 synthesis. To determine the locus of the cAMP effect we examined the response to exogenously added arachidonic acid. At a concentration of arachidonic acid (5 micrograms/ml) sufficient to render the phospholipase-dependent fraction negligible (as evidenced by the lack of a mepacrine effect), cAMP had no effect on PGE2 production, suggesting phospholipase as the site of cAMP action. Further evidence for a phospholipase-mediated mechanism derives from studies employing [5,6,8,9,11,12,14,15-3H(N)]arachidonic acid in which cAMP analogues had no effect on the rate of cellular arachidonic acid incorporation, but did impair the release of tritiated arachidonic acid in response to ionophore. These results suggest the existence of a negative feedback system that, by impairing phospholipase activity and PGE2 synthesis, could enhance the action of cAMP in the antidiuretic state.
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PMID:Effect of cAMP on prostaglandin E2 production in cultured rat inner medullary collecting tubule cells. 302 Sep 97


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