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)

We measured fluoride flux (JF; pmol.min-1.mm-1) in the isolated rabbit cortical collecting duct (CCD) to investigate the determining factors of JF. The perfusate contained 100 microM fluoride and the bath was fluoride-free. Osmotically-induced lumen-to-bath water flux did not affect JF. When perfusate pH was reduced from 7.4 to 6.1 and from 6.1 to 5.0, JF increased from 0.008 +/- 0.002 to 0.027 +/- 0.007 (P less than 0.01) and from 0.018 +/- 0.003 to 0.040 +/- 0.005 (P less than 0.01), respectively. Acetazolamide at 10(-4) M in the bath reduced JF slightly though not statistically. The anion-transport inhibitor, 4,4'-diisothiocyanato-stilbene-2,2'-disulfonic acid (DIDS), at 10(-4) M in the perfusate did not affect JF. Substitution of luminal chloride with gluconate failed to affect JF in tubules from normal rabbits or from rabbits treated with deoxycorticosterone which stimulates chloride-bicarbonate exchange in the CCD. JF showed no correlation with transepithelial voltage which ranged from +4 to -104 mV. We conclude that the luminal pH represents the primary determining factor influencing JF in the rabbit CCD, and fluoride does not use a chloride-mediated or a DIDS-inhibitory transport pathway.
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PMID:Fluoride flux in the rabbit CCD: a pH-dependent event. 155 7

There is convincing evidence to suggest that there are direct effects of adrenergic agents on renal tubules. During the last several years, considerable progress has been made in determining the type of adrenoceptors present in renal tubular cells through the use of radioligand binding and signal transduction methods. The receptor data are summarized in table 6. Almost all major nephron segments seem to have alpha 1- and alpha 2-adrenoceptors. However, there are few data describing the subtypes of alpha 1- or alpha 2-adrenoceptors in these segments. beta-Adrenoceptors are present in the CNT and collecting ducts of almost all species and in the thick ascending limbs of rats and mice. Adrenergic mediated signal transduction has been examined in some nephron segments, but virtually nothing is known about the relationship between the generation of adrenoceptor-mediated second messengers and changes in phosphorylation/activity of transport proteins (ion channels, ion pumps) in different types of renal tubular cells. There is general agreement that gluconeogenesis in the PCT is mediated by alpha 1-adrenoceptors through the PI and Ca2+ messenger system. Evidence also indicates that the increase in Na+ transport associated with renal nerve stimulation or adrenergic agonists in the PCT or the loop of Henle is mediated by alpha 1-adrenoceptors. Adrenergic agents modulate the effect of other hormones, such as PTH and vasopressin, on renal tubule transport by a decrease in cAMP, and this effect is mediated by alpha 2-adrenoceptors. There may be some interaction between the two alpha subtype-mediated effects in some nephron segments. beta-Adrenergic agonists stimulate cAMP formation in the PST, thick ascending limb (rat and mouse), CNT, and collecting duct segments. The physiological role of the beta-adrenoceptors in the PST is not known. beta-Adrenergic agonists stimulate sodium reabsorption by activation of the basolateral Cl- channel in the thick ascending limbs of rat and mice. The activation of beta-adrenoceptors in the CNT and CCD increases Cl- reabsorption and HCO3- secretion by stimulation of Cl/HCO3 exchange in the apical membrane of type B intercalated cell. The antikaliuretic effect of beta-adrenergic agonists is probably due to the stimulation of K+ reabsorption in type A intercalated cells in the CCD and OMCD. In the case of cholinergic drugs, the data in the literature are consistent with a model in which cholinergic agents increase papillary blood flow, resulting in the washout of the hypertonic medullary interstitium. This leads to a decrease in water abstraction out of the descending limb of Henle's loop.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Actions of adrenergic and cholinergic drugs on renal tubular cells. 155 26

The role of vasopressin and Henle's loop transport in age-related polyuria and decrease in urine osmolality was investigated in female WAG/Rij rats free of kidney disease. In these animals, urine osmolality dropped from 2000 mosmol/kg H2O to 1000-1200 mosmol/kg H2O between 10 and 30 months, and urinary volume increased in proportion. Vasopressin concentration measured in plasma withdrawn from conscious, unrestrained, chronically catheterized rats was not significantly different in 10, 20 and 30-month-old animals (mean values 2.5 +/- 0.7, 2.2 +/- 0.2 and 2.0 +/- 0.3 pg/ml (n = 8), respectively). This suggests an impaired responsiveness of old kidney to antidiuretic hormone. The possible involvement of Henle's loop in this defect was studied by micropuncture. Paired collections of tubular fluid were done in the early distal and late proximal convolutions of the same cortical nephrons. Single nephron filtration rates did not significantly differ with age. Tubular fluid osmolalities in the early distal convolution were 165 +/- 13, 178 +/- 9 and 160 +/- 11 (n = 14) mosmol/kg H2O in 10-, 20- and 30-month-old rats, indicating similar diluting capacity of the cortical thick ascending limb. The amount of sodium transported from lumen to peritubular space by Henle's loop was also unchanged with age as were water, calcium, magnesium and potassium reabsorptions. These data indicate that the age-related decrease in urine osmolality is not related to either a significant reduced vasopressin plasma concentration or an increased single glomerular filtration rate or a reduced transport capacity of Henle's loop of the cortical nephron. Rather they suggest an impaired response to vasopressin of other segments of the nephron that is, the medullary thick ascending limb of Henle's loop and/or the collecting duct.
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PMID:Plasma vasopressin and cortical nephron function in aging rats. 158 12

Calcium channel blockers have diuretic and natriuretic properties in normal animals and humans. The renal mechanism by which this natriuresis is produced has not yet been completely defined although dihydropyridine derivatives evoke it in experimental animals independently of any effects on renal blood flow or on the glomerular filtration rate. Injections or infusions into the renal artery indicate that the renal excretory effect is secondary to a direct action on renal tubular water and solute reabsorption but not to renal hemodynamic changes. Studies undertaken to localize the site of action of dihydropyridine calcium antagonists on renal tubules by renal clearance and micropuncture techniques suggest that both proximal and distal tubular sites are involved. Primary sites of action in distal convoluted tubules and in the collecting duct have been identified for felodipine and nisoldipine during sodium infusion, whereas sites for nitrendipine in proximal tubules have been demonstrated in strict hydropenia. Both changes in the tubuloglomerular feedback setting and suppression of aldosterone secretion have been proposed to explain some of these effects. The changes do not, however, seem to be dependent on renal innervation. In normal humans, the degree and duration of natriuresis and diuresis correlate with the dose of dihydropyridine derivatives and the extent of systemic pressure reduction. Clearance studies of normal subjects indicate an effect of different dihydropyridine derivatives on tubular fluid and electrolyte reabsorption. Nicardipine and nifedipine are reported to exert proximal tubular actions based either on urate and phosphate excretion or water and lithium clearance. The measurement of tubular indices following felodipine administration suggests a proximal tubular site of action.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal tubular effects of calcium antagonists. 161 68

Phosphate transport by the inner medullary collecting duct of normal rats was studied using an in vitro microperfusion technique. Net (Jnet), lumen-to-bath (Jlb) and bath-to-lumen (Jbl) phosphate fluxes were measured using 32PO4 as tracer, in the absence of net water absorption. A net absorption of phosphate (22.3 +/- 3.3 pmol cm-2 s-1) was observed by direct determination, and was similar to the difference between the Jlb and Jbl (57.7 +/- 8.2 and 32.2 +/- 1.5 pmol cm-2 s-1 respectively). The addition of amiloride (10 microM) to the perfusate did not change the Jlb of phosphate but blocked the efflux of sodium. Also, the withdrawal of sodium from the bath and perfusion solution did not change the Jlb of phosphate. In parallel, the addition of ouabain (10 mM) to the bath fluid decreased the Jlb of sodium more (37%) than the Jlb of phosphate (12%) and did not change the Jbl of phosphate. The addition of arsenate (10 microM) to the perfusate both in the presence and in the absence of sodium caused a decrease in Jlb, but Jbl remained unchanged, and parathyroid hormone (10 U) added to the bath did not change the Jlb. The increase in pH of the bath and perfusion fluid was associated with an increase in the Jlb of phosphate, and the decrease in pH was similarly followed by a decrease in phosphate efflux. The Jbl did not change with the pH alterations. These data demonstrate that a net phosphate absorption takes place in rat inner medullary collecting duct perfused in vitro and that this transport appears to be independent of sodium absorption and the action of parathyroid hormone. Moreover, a decrease in luminal and bath pH induces a decrease in phosphate efflux.
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PMID:Phosphate transport in isolated rat inner medullary collecting duct. 161 29

Previous functional studies of toad bladder endosomes have been complicated by the presence of multiple endosome subpopulations each possessing different permeability characteristics. To identify and characterize both water channel-containing vesicles (WCV) and other endosome subpopulations, we combined flow cytometry, electron microscopy, stop-flow fluorometry, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Flow cytometry of endosomes identified distinct populations of fluorescein-labeled endosomes in bladders after removal of antidiuretic hormone (ADH) stimulation (ADH withdrawal). Centrifugation separated the larger fluorescein-labeled vesicles, sedimenting at lower speed (intermediate pellet, IP), from the smaller fluorescein-labeled vesicles, sedimenting at high speed (high-speed pellet, HSP). Permeability and structural studies of these subpopulations revealed the following. 1) IP endosomes labeled 10 min after ADH withdrawal (ADH IP) represented a highly purified population of WCV with high water permeability (Pf) that exhibited a low-activation energy and sensitivity to organic mercurials. 2) IP endosomes from unstimulated bladders did not contain functional water channels. 3) HSP from either ADH withdrawal or unstimulated bladders exhibited low Pf and acidified after addition of extravesicular ATP; moreover, protein compositions of purified HSP were distinct from those of purified IP. These results suggest that HSPs represent constitutive and not ADH-sensitive endosomes. 4) High permeability to protons (PH+) was seen in ADH IP endosomes but not the other fractions, providing strong evidence that the ADH water channel conducts protons. 5) Multivesicular bodies (MVB) exhibited low Pf and PH+, indicating that they do not possess functional water channels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functional and structural characterization of endosomes from toad bladder epithelial cells. 163 45

The mechanism by which prostaglandin E2 (PGE2) inhibits sodium absorption (JNa) in the rabbit cortical collecting duct (CCD) was explored. PGE2 activates at least three signaling mechanisms in the CCD: (a) by itself PGE2 increases cAMP generation (b) PGE2 also inhibits vasopressin-stimulated cAMP accumulation, and (c) PGE2 raises intracellular calcium([Ca++]i). We tested the contribution of these signaling pathways to PGE2's effect on Na+ absorption, measuring 22Na flux (JNa) and [Ca++]i (using fura-2) in microperfused rabbit CCDs. In control studies PGE2 reduced JNa from 28.2 +/- 3.4 to 15.6 +/- 2.6 pmol.mm-1.min-1. Lowering bath calcium from 2.4 to 45 nM did not by itself alter JNa but in this setting PGE2 failed to inhibit JNa (28.6 +/- 5.4 to 38.5 +/- 4.0). In separate tubules, PGE2 raised [Ca++]i in a spike-like fashion followed by a sustained elevation. However, in 45 nM bath Ca++, PGE2 failed to produce a sustained [Ca++]i elevation. While pretreatment of CCDs with pertussis toxin blocked PGE2 inhibition of vasopressin-stimulated water permeability, it did not block the effect of PGE2 on JNa. To see if cAMP generation contributes to the effect of PGE2 on JNa, we tested the effect of exogenous cAMP, (8-chlorophenylthio(CPT)cAMP) on JNa. 0.1 mM 8-CPTcAMP reduced JNa from 35.75 +/- 2.3 to 21.6 +/- 2.2. However, the addition of PGE2 further blunted JNa to 15.9 +/- 1.3. In CCDs pretreated with indomethacin, 8-CPTcAMP did not significantly decrease JNa 33.6 +/- 2.8 vs. 28.4 +/- 2. However, superimposed PGE2 reduced JNa to 19.0 +/- 3.0. We conclude that PGE2 inhibits sodium transport predominantly by increasing intracellular calcium. This action is not mediated by a pertussis toxin-sensitive G protein. Finally, cAMP, through a cyclooxygenase-dependent mechanism, also inhibits CCD JNa and may contribute to the effects of PGE2 on JNa in the rabbit CCD.
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PMID:Prostaglandin E2 inhibits sodium transport in rabbit cortical collecting duct by increasing intracellular calcium. 164 47

We examined the effect of carbachol, an acetylcholine analogue, on hydraulic conductivity (Lp) response to 10 microU/ml arginine vasopressin (AVP) in rabbit cortical collecting duct (CCD). In CCDs in which water flow had been established with AVP, subsequent addition of carbachol caused Lp (X10(-7) cm.atm-1.s-1) to fall from 251 +/- 32 to 146 +/- 19. Carbachol washout resulted in recovery of Lp to 217 +/- 38. In CCDs in which water flow had been established using 10(-4) M 8-chlorophenylthioadenosine 3',5'-cyclic monophosphate (8-CPT-cAMP), addition of carbachol had no effect. These posttreatment studies suggest that carbachol's effects on modulating established water flow occur at a "pre-cAMP" step. With carbachol added first, AVP-induced Lp was reduced from 233 +/- 24 (controls) to 105 +/- 19 (carbachol-pretreated). Pretreatment with 10(-6) M atropine, a muscarinic receptor antagonist, totally reversed the inhibitory effect of carbachol, consistent with a receptor-mediated effect of carbachol. Carbachol pretreatment also inhibited 8-CPT-cAMP-induced Lp, indicating that carbachol's effects also occur at a "post-cAMP" step. Pretreatment with 10(-7) M staurosporine, a protein kinase C (PKC) inhibitor, reversed inhibitory effect of carbachol on AVP-induced Lp (193 +/- 26), suggesting that carbachol's effects are mediated by PKC. Intracellular calcium concentration [( Ca2+]i) was measured in fura-2-loaded CCDs. Carbachol also increased [Ca2+]i from 229 +/- 120 to 389 +/- 160 nM.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Muscarinic receptor activation inhibits AVP-induced water flow in rabbit cortical collecting ducts. 164 93

We have used the isolated perfused tubule technique, measurements of adenosine 3',5'-cyclic monophosphate (cAMP) content in single tubules, and freeze-fracture electron microscopy to study the basis of high vasopressin-independent (basal) osmotic water permeability (Pf) in the terminal inner medullary collecting duct (IMCD) of the rat. The results confirmed the observation that the basal Pf of the terminal IMCD is considerably higher than that of the initial IMCD. They also showed that the basal Pf of the terminal IMCD is regulated by in vivo factors related to water intake, such that a very high vasopressin-independent Pf can be induced in isolated tubules by prior in vivo thirsting. Tubules from thirsted rats did not display elevated urea permeabilities, nor did they exhibit measurable cAMP levels in the absence of exogenous vasopressin, indicating that the high basal Pf was not due to residual binding of vasopressin to its receptors. Freeze-fracture studies in thirsted rats demonstrated the presence of intramembrane particle (IMP) clusters in both initial and terminal IMCD, with more in the latter. Water loading of the rats suppressed the incidence of clusters almost entirely but did not fully suppress the basal Pf in the terminal IMCD, raising the possibility that a component of transepithelial water transport may occur independently of the vasopressin-regulated IMP clusters. On the basis of these results, we conclude that the vasopressin-independent Pf in the terminal IMCD can be stably elevated to very high levels in response to in vivo thirsting. This elevation appears to be due to a chronic conditioning effect mediated by unknown in vivo factors and is not due to the short-term cAMP-mediated regulatory effect of vasopressin.
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PMID:Regulation of collecting duct water permeability independent of cAMP-mediated AVP response. 165 34

Dopamine has been proposed as an intrarenal natriuretic hormone. We reported previously that inner medullary collecting duct (IMCD) cells express a novel DA2-like dopamine receptor (namely, DA2K) that is linked to stimulation of prostaglandin E2 (PGE2) production. In this study we examined whether locally formed dopamine could stimulate PGE2 production in cultured IMCD cells. L-Dopa stimulated PGE2 production dose dependently in cultured IMCD cells (concentration for half-maximal stimulation, 54.3 microM; maximal stimulation, 212.7% of basal), with the maximal stimulation similar to that obtained with dopamine. This effect was blocked by aromatic L-amino acid decarboxylase (AADC) inhibitors and DA2-receptor antagonists. IMCD cells also had measurable AADC activity and produced dopamine from exogenously added L-dopa. AADC inhibitors and DA2 antagonists also lowered basal PGE2 levels, suggesting that dopamine was being formed constitutively in culture. These results suggest that cultured IMCD cells have the capacity to take up and convert L-dopa to dopamine, which then stimulates PGE2 production via DA2K receptors. These results further suggest that locally formed dopamine could act as an autocrine/paracrine hormone in the kidney inner medulla to regulate PGE2 synthesis and water and electrolyte excretion.
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PMID:Prostaglandin E2 production in rat IMCD cells. II. Possible role for locally formed dopamine. 168 39


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