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 have studied sodium retention during volume expansion in rats with autologous immune complex nephropathy (AICN), a model of nephrotic syndrome (NS) in which GFR after volume expansion was not different from that in adjuvant-injected controls (C). AICN rats developed heavy proteinuria (298 +/- 27 vs. less than 10 mg/day), hypoalbuminemia (2.14 +/- 0.15 vs. 3.08 +/- 0.12 g/100 ml) and hypercholesterolemia (181 +/- 22 vs. 58 +/- 4 mg/100 ml). After saline, there were no significant differences in blood pressure (119 +/- 2 vs. 114 +/- 2 mm Hg), renal plasma flow (4.9 +/- 0.41 vs. 4.1 +/- 0.28 ml/min), inulin clearance (1.37 +/- 0.06 vs. 1.55 +/- 0.10 ml/min), or SNGFR (47 +/- 2 vs. 53 +/- 4 nl/min). Sodium excretion, however, was significantly lower in NS rats (4.7 +/- 1.1 vs. 9.2 +/- 1.2 muEq/min). Proximal sodium reabsorption was decreased in NS rats (35 +/- 2 vs. 41 +/- 2%, 2.5 +/- 0.2 vs. 3.3 +/- 0.2 nEq/min). Sodium delivery into the loop, however, was equal in NS and C, since the slightly lower filtered load in NS rats offset the depression in proximal reabsorption. Sodium reabsorption by the loop and by the distal convoluted tubules were equal in NS and C. Thus, sodium delivered into the cortical collecting ducts was the same in both groups (0.33 +/- 0.17 vs. 0.34 +/- 0.07 nEq/min; 4.5 +/- 0.6% of filtered sodium vs. 4.4 +/- 0.3%). The percent of filtered sodium excreted in the urine, however, was significantly lower in the NS rats, 2.18 +/- 0.48% vs. 4.0 +/- 0.58%. We conclude that antinatriuresis in this model of NS is determined beyond the superficial late distal convoluted tubule. The inability to excrete the sodium load during volume expansion is due to either enhanced reabsorption by the collecting duct or to abnormal function in deep nephrons.
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PMID:Renal sodium retention during volume expansion in experimental nephrotic syndrome. 75 Jun 93

Experimental nephrotic syndrome results in sodium retention, reflecting, at least in part, an intrinsic defect in renal sodium handling in the distal nephron. We studied the relationships among plasma atrial natriuretic peptide (ANP) concentration, sodium excretion (UNaV), and urinary cyclic GMP excretion (UcGMPV) in vivo, and the responsiveness of isolated glomeruli and inner medullary collecting duct (IMCD) cells to ANP in vitro, in rats with adriamycin nephrosis (6-7 mg/kg body weight, intravenously). 3-5 wk after injection, rats were proteinuric and had a blunted natriuretic response to intravenous infusion of isotonic saline, 2% body weight given over 5 min. 30 min after onset of the infusion, plasma ANP concentrations were elevated in normals and were even higher in nephrotics. Despite this, nephrotic animals had a reduced rate of UcGMPV after the saline infusion, and accumulation of cGMP by isolated glomeruli and IMCD cells from nephrotic rats after incubation with ANP was significantly reduced compared to normals. This difference was not related to differences in binding of 125I-ANP to IMCD cells, but was abolished when cGMP accumulation was measured in the presence of 10(-3) M isobutylmethylxanthine or zaprinast (M&B 22,948), two different inhibitors of cyclic nucleotide phosphodiesterases (PDEs). Infusion of zaprinast (10 micrograms/min) into one renal artery of nephrotic rats normalized both the natriuretic response to volume expansion and the increase in UcGMPV from the infused, but not the contralateral, kidney. These results show that, in adriamycin nephrosis, blunted volume expansion natriuresis is associated with renal resistance to ANP, demonstrated both in vivo and in target tissues in vitro. The resistance does not appear related to a defect in binding of the peptide, but is blocked by PDE inhibitors, suggesting that enhanced cGMP-PDE activity may account for resistance to the natriuretic actions of ANP observed in vivo. This defect may represent the intrinsic sodium transport abnormality linked to sodium retention in nephrotic syndrome.
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PMID:Cellular basis for blunted volume expansion natriuresis in experimental nephrotic syndrome. 132 96

6 children with idiopathic nephrotic syndrome were investigated during clinical relapse to examine the interrelation between distal urinary acidification and urinary sodium excretion. Blood and urine studies were initiated 4 h after completion of ammonium chloride loading, prior to and following the intravenous administration of furosemide. Values for plasma bicarbonate before and after furosemide administration were not significantly different. In the control periods, when urinary sodium excretion was very low, a defect in urinary acidification was demonstrated (UPH: 6.09 +/- (SD) 0.27; UTAV and UNH4V: 12.6 +/- 3.1 and 36.4 +/- 15.8 mumol/min/1.73 m2, respectively.) Following furosemide-induced natriuresis UPH fell to 4.81 +/- 0.25 (p less than 0.0005), and UTA2V and UNH4V increased to 46.3 +/- 15.8 and 125.6 +/- 49.5 mumol/min/1.73 m2, respectively (p less than 0.002). No overall correlation existed between urinary acidity, both considered as hydrogen ion concentration and as hydrogen ion excretion, and rate of urinary sodium excretion; but significant correlations were present between hydrogen ion concentration in the urine and both UC1V-UNAV (r = 0.38, p less than 0.05), and UC1V - (UNaV + UKV) (r = 0.64, p less than 0.01). These results indicate that the defect in distal urinary acidification observed in nephrotic syndrome is probably due to decreased delivery of sodium to the distal nephron. The enhanced secretion of hydrogen ion observed after furosemide administration may be related both to increased sodium delivery and to greater sodium than chloride reabsorption in the collecting duct.
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PMID:Defect in urinary acidification in nephrotic syndrome and its correction by furosemide. 716 8

We examined renal sodium handling in rats with Hymann nephritis (HEN), an immunologically mediated model of nephrotic syndrome. Rats were studied 9-14 days following i.p. injection of anti-Fx1A antiserum. We previously demonstrated that HEN had a blunted volume expansion natriuresis (2% body weight isotonic saline infused over 5 min), excreting sodium at only half the rate of normal controls (CTL) despite similar increase in plasma atrial natriuretic peptide (ANP) concentration. Urinary excretion of cGMP accumulation by isolate glomeruli and inner medullary collecting duct (IMCD) cells in response to increasing concentration of ANP, and RNP (also called urodilatin). Results (fmol/mg prot/10 min) are means +/- SEM: [table: see text]. Basal accumulation of cGMP was not different among the groups, HEN rats hd reduced cGMP accumulation in response to ANP, and RNP. In binding studies using 125I-ANP, no difference in either density or affinity was found between CTL and HEN rats. Thus, there is a renal resistance to ANP in rats with HEN, which can be extended to other agents acting through the cGMP pathway. This resistance is not due to impaired binding of ANP, but to impaired accumulation of cGMP in responsive tissues, reflecting perhaps increased cGMP catabolism by phosphodiesterase. Such an observation may account for the altered sodium handling in nephrotic rats.
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PMID:[Resistance to the action of atrial natriuretic peptide and urodilatin in Heymann nephritis in vitro]. 775 73

Na-K-ATPase is an ubiquitous enzyme involved in the tubular reabsorption process. Na-K-ATPase is specifically controlled in each nephron segment. Sodium retention is one of the main features of the nephrotic syndrome. Hypervolemia is found in most of the nephrotic syndromes in adults, suggesting a primary renal origin. In the puromycin-induced nephrotic syndrome in rats, the collecting duct is the site of sodium retention. We have shown that Na-K-ATPase activity is specifically enhanced in collecting ducts from rats with puromycin-induced nephrotic syndrome. The stimulation of Na-K-ATPase activity was independent of aldosterone and endogenous inhibitors of the Na-K-ATPase, suggesting a primary paracrin or cellular mechanism. We have demonstrated that two different isoforms of the Na-K-ATPase are coexpressed all along the rat nephron. In the puromycin-induced nephrotic syndrome, the activity of one isoform is specifically enhanced. These results demonstrate that the different isoforms of the Na-K-ATPase can be individually controlled.
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PMID:[Role of tubular Na-K-ATPase in nephrotic syndrome induced by puromycin in the rat]. 798 51

The maximal hydrolytic activity of Na-K-ATPase is specifically increased in the cortical collecting duct (CCD) of rats with puromycin-induced nephrotic syndrome (NS). This stimulation is independent of aldosterone and of endogenous ouabain-like substance. To investigate the mechanism responsible for this change, we compared the maximal Na-K-ATPase hydrolytic activity, the ouabain sensitive 86Rb influx, the specific [3H]ouabain binding, and the sensitivity of Na-K-ATPase to ouabain in the CCD of control rats and of rats given an intraperitoneal injection of puromycin 7 d before study. Both Na-K-ATPase activity and ouabain-sensitive 86Rb influx increased two-fold in rats with NS (ATPase activity: 34.1 +/- 2.1 vs. 18.0 +/- 0.7 pmol.mm-1 x min-1 +/- SE, n = 6, P < 0.001; Rb influx: 14.4 +/- 0.7 vs. 7.4 +/- 0.4 peq.min-1 +/- SE, n = 6, P < 0.001) whereas specific [3H]ouabain binding decreased in rats with NS (6.9 +/- 0.7 vs. 9.0 +/- 0.6 fmol.mm-1 +/- SE, n = 6, P < 0.005). Therefore, the maximal turnover rate of Na-K-ATPase increased over twofold in rats with NS (5,053 +/- 361 vs. 2,043 +/- 124 cycles.min-1 +/- SE, n = 6, P < 0.001). Analysis of the curves of inhibition of Na-K-ATPase by ouabain showed the presence of two Na-K-ATPase populations in both control and NS rats: a highly sensitive population (apparent Ki: 1.4 x 10(-6) M and 0.9 x 10(-6) M) and a less sensitive moiety (apparent Ki: 2.6 x 10(-4) M and 1.1 x 10(-4) M). The enhancement of Na-K-ATPase activity observed in the CCD of rats with NS was entirely due to the stimulation of the population of Na-K-ATPase with low ouabain sensitivity. These results suggest that a dysregulation of this subclass of Na-K-ATPase might be the primary cause of sodium retention in this model of nephrotic syndrome.
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PMID:Mechanism of enhanced Na-K-ATPase activity in cortical collecting duct from rats with nephrotic syndrome. 838 83

Experimental nephrotic syndrome is characterized by abnormal sodium metabolism, reflected in a blunted natriuretic response both to volume expansion and to infused atrial natriuretic peptide (ANP). The studies presented here examined the relationships among plasma ANP concentration and urinary sodium (VNaV) and cyclic GMP excretion (UcGMPV) in vivo, and the responsiveness of isolated glomeruil and inner medullary collecting duct (IMCD) cells to ANP and urodilatin (renal natriuretic peptide; RNP) in vitro in rats with Heymann nephritis, an immunologically mediated model of nephrotic syndrome. Nine to 14 days after Ip injection of anti-Fx1A antiserum, rats were proteinuric and had a blunted natriuretic response to intravenous infusion of isotonic saline (2% body weight, given over 5 min). Thirty min after the onset of the infusion, plasma ANP concentration was increased to the same extent in both normal and nephritic rats, compared with their respective hydropenic controls. Despite this increase, UcGMPV was significantly less in nephritic rats after the saline infusion. Accumulation of cGMP by isolated glomeruil and IMCD cells from nephritic rats after incubation with ANP and RNP was also significantly reduced, compared with normal rats. This difference was not related to differences in either density or affinity of renal ANP receptors, but was abolished when accumulation of cGMP was measured in the presence of 10(-3) M isobutylmethylxanthine or Zaprinast, two different inhibitors of cyclic nucleotide phosphodiesterases (PDE). Infusion of Zaprinast into one renal artery in nephritic rats normalized both the natriuretic response to volume expansion and the increase in UcGMPV from the infused, but not the contralateral, kidney. Furthermore, cGMP-PDE activity was increased in IMCD cell homogenates from nephritic compared with normal rats (388 +/- 32 versus 198 +/- 93 pmol/min per mg protein, P < 0.03). These results indicate that blunted volume expansion natriuresis accompanied by cellular resistance to ANP in vitro occurs in an immunologic model of renal injury. The resistance is not related to an alteration in ANP release or binding to its renal receptors, but is suppressed by PDE inhibitors and is associated with increased renal cGMP. PDE activity, thus suggesting that enhanced cGMP-PDE activity may account for resistance to the natriuretic actions of ANP observed in vivo. This defect may represent the intrinsic sodium transport abnormality linked to sodium retention in nephrotic syndrome.
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PMID:Phosphodiesterase inhibitors correct resistance to natriuretic peptides in rats with Heymann Nephritis. 872 92

Resistance to the natriuretic action of atrial natriuretic peptide (ANP) is a hallmark of states of pathological sodium retention including congestive heart failure, cirrhosis of the liver, and nephrotic syndrome. A variety of mechanisms including reduced delivery of filtrate to ANP-sensitive sites in the inner medullary collecting duct and diminished receptor density in this tubular segment have been offered to account for this resistance. Recent studies in experimental nephrotic syndrome and in liver disease produced by ligation of the common bile duct in rats suggest that increased activity of cyclic guanosine 3',5'-monophosphate (cGMP) phosphodiesterase may be an important mediator of renal resistance to ANP. Such increased enzyme activity rapidly catabolizes the second messenger cGMP, normally formed when ANP interacts with its biologically active natriuretic peptide. A receptors, thereby leading to blunted ANP responsiveness. This increased phosphodiesterase activity offers a novel approach to the management of clinical conditions associated with sodium retention and edema formation.
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PMID:Phosphodiesterases (PDEs) hydrolyze the 3' phosphoester bond of the purine 3',5'-cyclic monophosphates, cAMP and cGMP. 876 Feb 35

Resistance to the natriuretic action of atrial natriuretic peptide (ANP) is a hallmark of states of pathological sodium retention including congestive heart failure, cirrhosis of the liver, and nephrotic syndrome. A variety of mechanisms including reduced delivery of filtrate to ANP-sensitive sites in the inner medullary collecting duct and diminished receptor density in this tubular segment have been offered to account for this resistance. Recent studies in experimental nephrotic syndrome and in liver disease produced by ligation of the common bile duct in rats suggest that increased activity of cyclic guanosine 3',5'-monophosphate (cGMP) phosphodiesterase may be an important mediator of renal resistance to ANP. Such increased enzyme activity rapidly catabolizes the second messenger cGMP, normally formed when ANP interacts with its biologically active natriuretic peptide A receptors, thereby leading to blunted ANP responsiveness. This increased phosphodiesterase activity offers a novel approach to the management of clinical conditions associated with sodium retention and edema formation.
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PMID:Phosphodiesterase activity as a mediator of renal resistance to ANP in pathological salt retention. 876 Feb 36

The aquaporins are molecular water channels that mediate transcellular water transport across water-permeable epithelia. To investigate the cause of the concentrating defect in the nephrotic syndrome, immunoblotting using membrane fractions from inner medulla was utilized to assess the level of expression of four aquaporin water channels in vehicle-treated versus puromycin aminonucleoside (PAN)-treated rats. Scanning electron microscopy demonstrating loss of glomerular foot processes and measurements of urinary protein excretion confirmed the efficacy of the PAN treatment. In rats receiving PAN, there was an increase in plasma vasopressin, without a change in plasma sodium concentration. Inner medullary tissue hypertonicity was sustained in PAN-treated rats while the urinary osmolality was low, pointing to defective osmotic equilibration across the collecting ducts in PAN-nephrosis. Among collecting duct aquaporins, there was an 87% decrease in aquaporin-2 expression and a 70% decrease in aquaporin-3 expression in the inner medulla, whereas aquaporin-4 expression was unaltered. Transmission electron microscopy of the inner medullary collecting ducts of PAN-treated rats showed normal-appearing cells. Thus, PAN-nephrosis is associated with an extensive downregulation of collecting duct water channel expression despite increased circulating vasopressin, providing an explanation for the concentrating defect associated with the nephrotic syndrome.
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PMID:Reduced renal medullary water channel expression in puromycin aminonucleoside--induced nephrotic syndrome. 901 44


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