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Query: UNIPROT:P41181 (collecting duct)
 5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The inner medullary collecting duct (IMCD) of the rat consists of two structurally and functionally distinct segments, i.e., the initial and the terminal IMCD. To identify factors that may regulate the transport function in the IMCD segments, we assessed whether catecholamines, carbachol, prostaglandin E2 (PGE2), bradykinin, glucagon, calcitonin, parathyroid hormone, or epidermal growth factor affects adenosine 3',5'-cyclic monophosphate (cAMP) production in microdissected tubules in the presence and absence of arginine vasopressin (AVP, 0.1 nM). All experiments were performed in the presence of 3-isobutyl-1-methylxanthine, and cAMP was measured by radioimmunoassay. Epinephrine (greater than or equal to 50 nM) and clonidine (greater than or equal to 1 microM) markedly decreased AVP-induced cAMP levels in both IMCD segments. However, phenylephrine did not show an effect. The inhibitory effect of epinephrine was blocked by yohimbine (50 nM) but not by prazosin (50 nM). In isolated perfused terminal IMCDs, epinephrine inhibited AVP-stimulated urea permeability. Isoproterenol (1 microM), in the absence of AVP, caused a significant increase in cAMP level only in the initial IMCD. Propranolol (1 microM) inhibited this isoproterenol effect, but atenolol did not. Dopamine (less than or equal to 1 microM) had no effect on cAMP levels in either IMCD segment. Carbachol, PGE2, and the various peptide hormones had no effect on cAMP levels (+/- AVP) in either IMCD segment. We conclude that an adrenergic beta 2-receptor is present only in the initial IMCD, where its occupation increases cAMP production. We conclude also that an adrenergic alpha 2-receptor is present in both IMCD segments, where its occupation inhibits AVP-induced cAMP production.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hormone and autacoid regulation of cAMP production in rat IMCD subsegments. 135 41

Dopamine decreases tubular sodium reabsorption, attributed in part to Na/K-ATPase inhibition in the proximal convoluted tubule (PCT). Because the final regulation of sodium excretion occurs in the collecting duct, where we have demonstrated specific dopamine DA1 binding sites, we examined the effects of dopamine, and of DA1 and DA2 receptor agonists on the Na/K pump in the microdissected rat cortical collecting duct (CCD) and in Madin-Darby canine kidney (MDCK) cells, a line derived from the dog distal nephron. Dopamine inhibited pump activity in CCD by approximately 40%-50%, an effect proportionally larger than in the PCT. Unlike in the latter, the effect of dopamine was reproduced by the DA1 agonist fenoldopam, which inhibited the CCD pump in dose-dependent manner (maximum, 10 microM). The DA2 agonist quinpirole was without effect, either alone or in combination with fenoldopam. These actions on Na/K-ATPase paralleled in reciprocal fashion effects on adenylate cyclase: dopamine or fenoldopam, but not quinpirole, produced a significant increase in cAMP content, and the stimulation by dopamine was blocked by SCH 23390. Inhibitors of cAMP phosphodiesterase (3-isobutyl-1-methyl-xanthine and theophylline), as well as forskolin and dibutyryl-cAMP, mimicked the effect of dopamine on the pump, underscoring the role of increased cAMP in this phenomenon. Both dopamine and fenoldopam inhibited Na/K-ATPase activity in MDCK cells. The results indicate that besides the PCT dopamine inhibits Na/K-ATPase activity in cells of the distal nephron, where its effect on the pump appears to be more pronounced and is mediated by activation of the DA1 receptor. The natriuretic effect of dopamine is probably exerted at both proximal and distal nephron sites.
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PMID:Dopamine inhibits Na/K-ATPase in single tubules and cultured cells from distal nephron. 135 25

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

Previous studies from our laboratory have determined that inner medullary collecting duct (IMCD) cells express a novel DA2-like dopamine receptor (namely, DA2K) that is linked to prostaglandin E2 (PGE2) production. In the present study, we have further characterized the dopamine-stimulated PGE2 response. Dopamine stimulated PGE2 production in cultured IMCD cells dose dependently (concentration for half-maximal stimulation, 11.1 microM; maximal stimulation, 235.1% of basal), an effect that was blocked by the DA2 antagonists domperidone and (S)-(-)-3-iodo-2-hydroxy-6-methoxy-N-[(1-ethyl-2-pyrrolidinyl)-methyl] benzamine. Inhibition of intracellular calcium release with 8-(diethylamino)-octyl-3,4,5-trimethoxybenzoate hydrochloride (100 microM) blocked the dopamine response, whereas voltage-dependent calcium-channel blockers had no effect. Inhibition of phospholipase A2 (PLA2) activity with quinacrine (100 microM) completely blocked the dopamine-stimulated PGE2 production, whereas inhibition of polyphosphoinositol hydrolysis with neomycin (100 microM) or inhibition of protein kinase C with 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (10 microM) did not. Pertussis toxin (PT) treatment completely blocked the dopamine-stimulated PGE2 production but not the arachidonic acid-stimulated PGE2 production. These results suggest that dopamine, acting through the DA2K receptor, may be an important regulator of PGE2 production in IMCD cells. Furthermore, our results are most consistent with either a direct interaction of the DA2K receptor with PLA2 through a PT-sensitive G protein or an indirect interaction with PLA2 through mobilization of intracellular calcium.
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PMID:Prostaglandin E2 production in rat IMCD cells. I. Stimulation by dopamine. 183 85

Dopamine (DA), a catecholamine produced in the kidney, is a renal vasodilator and natriuretic substance, but its action at dopamine-1 (DA-1), dopamine-2 (DA-2) and alpha- and beta-adrenergic receptors limits its effectiveness as a heuristic tool and pharmacologic agent. We have studied the effects of highly selective DA-1 and DA-2 receptor agonists and antagonists in normal human subjects and experimental animals to determine the precise physiological role of renal dopamine at DA-1 and DA-2 receptors within the kidney. We studied fenoldopam, a selective DA-1 agonist, in normal human subjects in metabolic balances at high (300 mEq/day) and low (10 mEq/day) sodium (Na) intake. Selective DA-1 receptor stimulation during high Na intake resulted in renal vasodilation, natriuresis and diuresis in a sustained manner for 3 hours. The natriuresis was mediated by a reduction in Na reabsorption at both proximal and distal tubular sites. In contrast, during low Na intake, DA-1 receptor stimulation did not engender a natriuretic or diuretic response. Thus, sodium depletion may inhibit the function of renal tubular cells in response to DA-1 stimulation. DA-1 receptors are present in the medial layer of the renal vasculature, proximal tubule and cortical collecting duct; DA-2 receptors are localized to the glomerulus, the renal nerves surrounding renal blood vessels and possibly the renal vascular endothelium. We have performed studies in conscious dogs with indwelling renal arterial catheters to identify the physiological role of renal DA to DA-1 and DA-2 receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dopamine-1 and dopamine-2 mechanisms in the control of renal function. 197 44

Dopamine (DA), via DA-1 receptors, regulates Na+ transport in the kidneys. Dopamine is synthesized from L-DOPA in the proximal tubule and presumably secreted as an autocrine/paracrine substance to stimulate DA-1 receptors localized on proximal tubular cells. We have previously reported the presence of DA-1 receptors in renal cortical homogenates and on the isolated proximal tubule of the rat and rabbit, consistent with the dopamine autocrine/paracrine model. We have localized DA-1 receptors in the proximal straight tubule of the rabbit, and in the cortical collecting duct of the rabbit and rat, but not in the distal collecting tubule or the cortical thick ascending loop of Henle. The presence of functional DA-1 receptors has been substantiated by the coexistence of DA-1 agonist-stimulated adenylate cyclase activity in the same nephron segments in which DA-r receptors have been found. Increased concentrations of intrarenal dopamine induced by dopamine-beta-hydroxylase inhibition with SKF-102698 caused a down regulation of proximal tubular DA-1 receptors and almost complete ablation of DA-1 agonist stimulated adenylate cyclase activity. Thus, dopamine may play a role in the regulation of DA-1 receptors and their linkage with adenylate cyclase. Since alterations in the renal dopaminergic system have been measured in some forms of experimental hypertension, we studied DA-1 receptors and their coupling to adenylate cyclase in the spontaneously hypertensive rat (SHR).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A renal dopamine-1 receptor defect in two genetic models of hypertension. 197 47

Significant proximal tubular responses to exogenous dopamine require 0.1 to 10 mumol/L concentrations but endogenous peritubular dopamine and DOPA concentrations are in the picomolar to nanomolar range. Dopamine concentration approaches micromolar levels within proximal tubular cells and their brush borders, as a result of DOPA decarboxylation and secretion, and in collecting duct fluid, as a result of tubular fluid absorption. Thus dopamine probably acts either within the proximal tubule cell or brush border or from the collecting tubular lumen. DOPA and Na+ uptake are coupled; dopamine uptake is linked to intracellular electrical potential and its secretion to H+ counter-transport; therefore alterations in proximal tubular Na+ and H+ transport influence dopamine excretion. Haloperidol and SCH 23390 block dopamine excretion, therefore dopamine antagonists may inhibit tubular dopamine responses by lowering intracellular dopamine concentration as well as by receptor blockade. Evidence for an intracellular site of dopamine action can be deduced from the inhibitory effect of DOPA on oxygen consumption and 86Rb uptake in proximal tubule cells. We have confirmed these findings in isolated proximal tubule cells but not in proximal tubule fragments. The discrepant responses may be due to the fact that isolated cells loose their polarity while tubule fragments remain polarized. Dopamine inhibition of proximal tubular Na+, K(+)-ATPase is not reproduced by single dopamine agonists or inhibited by dopamine antagonists. Dopamine effects which are not linked to known dopamine receptors may be the result of redox cycling. Micromolar dopamine oxidizes sulfhydryl groups which may modify enzyme structure and activate protein kinase C.
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PMID:Functional effects of proximal tubular dopamine production. 220 Apr 36

Dopamine decreases tubular sodium reabsorption, attributed in part to Na-K-ATPase inhibition in the proximal convoluted tubule (PCT). Because the final regulation of sodium excretion occurs in the collecting duct, where specific dopamine DA1 binding sites have been demonstrated, we examined the effects of dopamine, as well as of DA1 and DA2 receptor agonists on Na-K-ATPase activity and on the number of units in Madin-Darby canine kidney (MDCK) cells, which retain differentiated properties of the renal cortical collecting tubule epithelium. Dopamine (10(-5) M) inhibited pump activity (by 50%) and reduced the number of units. This effect was reproduced by the DA1 agonist SKF 38393, which inhibited pump activity in a dose- and time-dependent manner (maximum, 10(-5) M). The DA2 agonist quinpirole hydrochloride was without effect, either alone or in combination with SKF 38393. Inhibition of pump activity by dopamine was totally abolished by H7 (100 microM), an inhibitor of protein kinase (PK), but partially by 2',5'-dideoxy-adenosine (DDA) and H4, respective inhibitors of cAMP production and PKA, which suggests that the dopamine effect on Na-K-ATPase activity may be linked to activation of both PKC and PKA. In these cells, amiloride addition during preincubation did not alter the effect of dopamine on Na-K-ATPase activity; in contrast, furosemide increased further the inhibitory effect of dopamine on the enzyme activity. Monensin addition (10(-3) M) reversed the inhibitory effect of dopamine after a 30-min preincubation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanisms of dopamine effects on Na-K-ATPase activity in Madin-Darby canine kidney (MDCK) epithelial cells. 754 25

Dopamine inhibits Na+ and water reabsorption in the rat cortical collecting duct (CCD) in the presence of arginine vasopressin (AVP). This inhibition appears to involve the D4 dopamine receptor isoform, which inhibits cAMP production; however, the D1A receptor, which stimulates cAMP production, is also expressed in the CCD. To discriminate between these opposing effects, we measured cAMP production in intact CCD segments. The basal rate of cAMP production ranged from 6.5 to 10 fmol/mm of tubule length over a 7-min incubation period, and it was unaffected by either dopamine or the D1A-specific agonist fenoldopam. AVP increased cAMP production to the range of 85-153 fmol . mm-1 . 7 min-1. Whereas neither 0.1 nor 1.0 microM fenoldopam affected AVP-dependent cAMP production, dopamine reduced it in a dose-dependent manner, achieving a maximum inhibition of 50% at 10 microM. This effect was reversed by the D4 receptor antagonist clozapine but not by pimozide or spiperone (antagonists of D2 and D3 receptors) or by calphostin C or chelerythrine (inhibitors of protein kinase C). We conclude that dopamine inhibits transepithelial Na+ transport and osmotic water permeability in the presence of AVP by inhibition of cAMP production, which is mediated by the D4 receptor isoform linked via the inhibitory G protein Gi.
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PMID:Dopamine inhibits vasopressin-dependent cAMP production in the rat cortical collecting duct. 968 5

We compared the effects of dopamine and norepinephrine on vasopressin (AVP)-stimulated increases in osmotic water permeability (Pf) and cAMP accumulation in the rat inner medullary collecting duct (IMCD). Both dopamine and norepinephrine inhibited AVP-induced Pf and cAMP accumulation in a concentration-dependent manner; however, norepinephrine was approximately 100-fold more potent than dopamine. The effects of dopamine on Pf were antagonized by the selective alpha(2)-adrenoceptor antagonist, rauwolscine (10 nM--1 microM). Clozapine (10 microM), a dopamine D(4) receptor antagonist with significant activity at adrenergic receptors, partially attenuated both dopamine and norepinephrine-induced decreases in AVP-stimulated Pf. Dopamine-induced inhibition of AVP-dependent cAMP levels was antagonized by the alpha(2)-adrenoceptor antagonists, rauwolscine, idazoxan, and yohimbine, but not by the dopamine receptor antagonists, spiperone, SCH-23390, or raclopride. Clozapine (1--10 microM) inhibited the effects of both dopamine and norepinephrine on AVP-stimulated cAMP levels. We conclude that the inhibitory effects of dopamine on AVP-induced Pf and cAMP accumulation in the rat IMCD are mediated via alpha(2)-adrenoceptors.
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PMID:Dopamine inhibits vasopressin action in the rat inner medullary collecting duct via alpha(2)-adrenoceptors. 1150 96


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