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 collecting duct system is a major site of ammonia addition to the tubule fluid. To study the mechanisms involved, we measured total ammonia and total CO2 transport in isolated, perfused cortical collecting ducts (CCD) from deoxycorticosterone-(DOC) treated rabbits. Perfusate and bath solutions contained 25 meq/liter HCO3 and 4 mM total ammonia. Net fluid transport was not significantly different from zero. Net secretion of total CO2 occurred in all tubules (mean collected concentration, 44.2 mM). Despite bicarbonate secretion, there was net secretion of total ammonia (mean collected concentration, 6.4 mM). There was no detectable ammonia addition to the collected fluid when ammonia was excluded from the perfusate and bath, ruling out a major contribution from synthesis. Ouabain did not significantly affect net transport of total ammonia or total CO2. To test the hypothesis that an acid pH disequilibrium may lower the luminal pH enough to drive ammonia secretion by nonionic diffusion, we perfused CCD from DOC-treated rabbits with carbonic anhydrase (CA) (0.1 mg/ml). Without CA, there was net total ammonia secretion (-2.2 pmol X min-1 X mm-1) and net total CO2 secretion (-16.6 pmol X min-1 X mm-1). Luminal CA converted the net total ammonia secretion to net absorption (1.0 pmol X min-1 X mm-1) while the bicarbonate secretion persisted (-11.2 pmol X min X mm-1). We conclude that total ammonia secretion in these tubules occurs primarily by diffusion of NH3 and is dependent on a luminal acid pH disequilibrium.
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PMID:Mechanism of ammonia secretion by cortical collecting ducts of rabbits. 609 87

Eighty-four male white leghorn chickens were killed by CO2 gas to determine the type, rate, and sequence of postmortem microscopic changes in the kidneys of dry and wet intact carcasses. They were held at 29 or 18 C with 50% relative humidity for different times postmortem. Microscopic postmortem changes in the different segments of the nephron underwent a different rate and sequence of cellular changes. Cellular changes occurred earlier at 29 C than at 18 C and earlier in chickens not wetted with detergent solution. The decrease in body temperature of wetted chickens over dry chickens was significant (P less than 0.05). The proximal convoluted tubule (PCT) underwent the earliest postmortem changes, followed by the distal convoluted tubule (DCT), collecting tubule (CT), medullary loop (ML), medullary collecting duct (MCD), and glomerulus. The PCT, DCT, and thin and thick segments of the ML underwent a sequential nuclear change of chromatin margination, progressive shrinkage, pyknosis, karyorrhexis, and karyolysis. Nuclei were pyknotic if cytoplasmic changes were severe. Primary karyorrhexis was the predominant feature of collecting tubules and ducts. As early as one hour after death, some PCT cells of all kidney sections were pyknotic, emphasizing that immediate tissue fixation was necessary for critical evaluation. By 9 and 18 hr postmortem, PCT of dry and wet chickens, respectively, held at 29 C had pyknotic and karyorrhectic nuclei with slight karyolysis and moderate to marked cytoplasmolysis that extended until 36 hr. At this time, DCT were hardly distinguishable because of loss of basophilia. Karyorrhectic nuclei were already evident in collecting tubules and ducts. At 48 hr postmortem, all tubular cells were non-nucleated with homogeneous, acidophilic cytoplasm. Basement membranes no longer stained with periodic acid-Schiff (PAS). Erythrocytes were pyknotic with unstained cytoplasm. Pyknotic glomeruli were first observed at 9 hr postmortem in dry chickens and 12 hr in wet chickens. Histologic appearance of dry chickens at 9 hr and wet chickens at 18 hr when held at 29 C was similar to that of dry chickens at 12 hr and wet chickens at 24 hr when held at 18 C, with minor differences in some tubular changes. At 18 C, pyknotic glomeruli appeared by 6 hr in dry chickens and 24 hr in wet chickens. Widespread bacterial invasion was noted at 72 hr in dry chickens and at 96 hr in wet chickens.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Microscopic postmortem changes in kidneys of the domestic fowl. 620 7

Several theories have been advanced to explain the elevation in urinary PCO2 during bicarbonate loading and include: (a) H+ secretion, (b) countercurrent system for CO2, (c) the "ampholyte" properties of bicarbonate, and (d) mixing of urine of disparate bicarbonate and butter concentrations. In this study microelectrodes were used to measure in situ and equilibrium pH (pHis and pHeq) and PCO2 in control and bicarbonate loaded rats before and after infusion of carbonic anhydrase. The disequilibrium pH method (pHdq = pHis - pHeq) was used to demonstrate H+ secretion. Control rats excreting an acid urine (pH = 6.04 +/- 0.06) failed to display a significant disequilibrium pH at the base (BCD), or tip (TCD) of the papillary collecting duct. Urine pH (7.54 +/- 0.12), and urine to blood (U-B) PCO2 increased significantly during NaHCO3 loading while PCO2 at the BCD and TCD also increased (95 +/- 4 and 122 +/- 4). Furthermore, an acid disequilibrium pH was present at both the BCD and TCD (-0.42 +/- 0.04 and -0.36 +/- 0.03) and was obliterated by carbonic anhydrase. Comparison of the PCO2 in the BCD or TCD with the adjacent vasa recta revealed similar values (r = 0.97). It is concluded that H+ secretion by the collecting duct into bicarbonate containing fluid with delayed dehydration of H2CO3, is the most likely determinant of the U-B PCO2 in alkaline urine. Similar values for PCO2 in the collecting duct and the adjacent vasa recta suggests trapping of CO2 in the medullary countercurrent system. The rise in PCO2 occurs both along the collecting duct and after exit from the papilla.
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PMID:Hydrogen ion secretion by the collecting duct as a determinant of the urine to blood PCO2 gradient in alkaline urine. 627 13

The purpose of this study was to determine and compare pH, PCO2, and fractional bicarbonate delivery in both superficial and juxtamedullary nephrons by microelectrode techniques and microcalorimetry in the rat in vivo in order to define more clearly the role of deeper nephron segments in urinary acidification. Values for pH and total CO2 concentration ([tCO2]) at the bend of Henle's loop (LOH) (7.39 +/- 0.04 units and 20.5 +/- 1.5 mM) were significantly greater and the PCO2 was significantly less (36.6 +/- 1.5 mmHg) than values for these same parameters in the superficial late proximal tubule (LPT) (6.78 +/- 0.03 units, 8.1 +/- 1.2 mM, and 63.2 +/- 1.0 mmHg, P less than 0.001). The fraction of filtered bicarbonate delivered to the LPT and LOH did not differ, however (12.2 +/- 2.5 vs. 9.0 +/- 0.8%). The pH and PCO2 values in the late distal tubule (6.59 +/- 0.04 units and 64.0 +/- 1.3 mmHg) were significantly greater than at the base (6.24 +/- 0.07 units and 34.5 +/- 1.5 mmHg) and tip (6.12 +/- 0.03 units and 35.2 +/- 1.2 mmHg) of the papillary collecting duct. The [tCO2] in the LOH and an adjacent vasa recta was compared and did not differ significantly (20.5 +/- 1.5 vs. 21.2 +/- 1.3 mM, P greater than 0.05). In summary, we have demonstrated significant alkalinization of tubule fluid in the deep LOH as a result of water abstraction and CO2 diffusion from the nephron. Our results suggest that a spontaneous disequilibrium pH may not exist in the LOH. Furthermore, similar values for [tCO2] in vasa recta and the LOH suggest that passive HCO-3 reabsorption in the thin ascending limb of Henle would be unlikely and does not contribute to the "loop" component of bicarbonate reabsorption.
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PMID:Comparison of acidification parameters in superficial and deep nephrons of the rat. 640 28

The present experiments were designed to localize the sites of carbonic anhydrase-independent bicarbonate reabsorption in the rat kidney and to examine some of its mechanisms. Young Munich-Wistar rats were studied using standard cortical and papillary free-flow micropuncture techniques. Total CO2 (tCO2) was determined using microcalorimetry. In control rats both superficial and juxtamedullary proximal nephrons reabsorbed approximately 95% of the filtered load of bicarbonate. The administration of acetazolamide (20 mg/kg body weight [bw]/h) decreased proximal reabsorption to 65.6% of the filtered load in superficial nephrons (32% was reabsorbed by the proximal convoluted tubule while 31.7% was reabsorbed by the loop segment), and to 38.4% in juxtamedullary nephrons. Absolute reabsorption of bicarbonate was also significantly higher in superficial than in juxtamedullary nephrons after administration of acetazolamide (727 +/- 82 vs. 346 +/- 126 pmol/min; P less than 0.05). The infusion of amiloride (2.5 mg/kg bw/h) to acetazolamide-treated rats increased the fractional excretion of bicarbonate as compared with animals treated with acetazolamide alone (34.9 +/- 1.9 vs. 42.9 +/- 2.1%; P less than 0.01), and induced net addition of bicarbonate between the superficial early distal tubule and the final urine (34.8 +/- 3.0 vs. 42.9 +/- 2.1%; P less than 0.05). Amiloride at this dose did not affect proximal water or bicarbonate transport; our studies localize its site of action to the terminal nephron. Vasa recta (VR) plasma and loop of Henle (LH) tubular fluid tCO2 were determined in control and acetazolamide-treated rats in order to identify possible driving forces for carbonic anhydrase-independent bicarbonate reabsorption in the rat papilla. Control animals showed a tCO2 gradient favoring secretion (LH tCO2, 7.4 +/- 1.7 mM vs. VR tCO2, 19.1 +/- 2.3 mM; P less than 0.005). Acetazolamide administration reversed this chemical concentration gradient, inducing a driving force favoring reabsorption of bicarbonate (LH tCO2, 27.0 +/- 1.4 mM vs. VR tCO2, 20.4 +/- 1.0 mM; P less than 0.005). Our study shows that in addition to the superficial proximal convoluted tubule, the loop segment and the collecting duct show acetazolamide-insensitive bicarbonate reabsorption. No internephron heterogeneity for bicarbonate transport was found in controls. The infusion of acetazolamide, however, induced significant internephron heterogeneity for bicarbonate reabsorption, with superficial nephrons reabsorbing a higher fractional and absolute load of bicarbonate than juxtamedullary nephrons. We think that the net addition of bicarbonate induced by amiloride is secondary to inhibition of voltage-dependent, carbonic anhydrase-independent bicarbonate reabsorption at the level of the collecting duct, which uncovers a greater delivery of carbonate from deeper nephrons to the collecting duct. Finally, our results suggest that carbonic anhydrase-independent bicarbonate reabsorption is partly passive, driven by favorable chemical gradients in the papillary tubular structures, and partly voltage-dependent, in the collecting duct.
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PMID:Internephron heterogeneity for carbonic anhydrase-independent bicarbonate reabsorption in the rat. 642 64

The collecting duct of the mammalian kidney is involved in urine acidification. Recent studies in the turtle bladder suggest that hydrogen ion secretion in response to elevated CO2 is regulated by insertion of hydrogen pumps into the luminal membrane of the mitochondria-rich cells. Because intercalated cells of the collecting duct are structurally similar to mitochondria-rich cells of the amphibian bladder, we studied the rat outer medullary collecting duct (OMCD) during respiratory acidosis to determine whether changes compatible with hydrogen ion secretion occur in the intercalated cells. Rats were studied during normal acid-base conditions and after 4-5 h of respiratory acidosis. After collection of physiologic data, the kidneys were fixed by in vivo perfusion and processed for electron microscopy. No changes were observed in the principal cells of the OMCD. Morphometric analysis revealed a significant increase in the surface density of the apical plasma membrane and a decrease in the number of tubulovesicular profiles in the apical region of the intercalated cells throughout the OMCD with respiratory acidosis. There were no changes in surface density of the basolateral membrane. These findings suggest that in response to respiratory acidosis there is transport of membrane from the tubulovesicular membrane compartment to the apical plasma membrane of the intercalated cells.
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PMID:Cellular response to acute respiratory acidosis in rat medullary collecting duct. 666 Feb 92

To determine whether chloride-depletion metabolic alkalosis (CDA) can be corrected by provision of chloride without volume expansion or intranephronal redistribution of fluid reabsorption, CDA was produced in Sprague-Dawley rats by peritoneal dialysis against 0.15 M NaHCO3; controls (CON) were dialyzed against Ringer's bicarbonate. Animals were infused with isotonic solutions containing the same Cl and total CO2 (tCO2) concentrations as in postdialysis plasma at rates shown to be associated with slight but stable volume contraction. During the subsequent 6 h, serum Cl and tCO2 concentrations remained stable and normal in CON and corrected towards normal in CDA; urinary chloride excretion was less and bicarbonate excretion greater than those in CON during this period. Micropuncture and microinjection studies were performed in the 3rd h after dialysis. Plasma volumes determined by 125I-albumin were not different. Inulin clearance and fractional chloride excretion were lower (P less than 0.05) in CDA. Superficial nephron glomerular filtration rate determined from distal puncture sites was lower (P less than 0.02) in CDA (27.9 +/- 2.3 nl/min) compared with that in CON (37.9 +/- 2.6). Fractional fluid and chloride reabsorption in the proximal convoluted tubule and within the loop segment did not differ. Fractional chloride delivery to the early distal convolution did not differ but that out of this segment was less (P less than 0.01) in group CDA. Urinary recovery of 36Cl injected into the collecting duct segment was lower (P less than 0.01) in CDA (CON 74 +/- 3; CDA 34 +/- 4%). These data show that CDA can be corrected by the provision of chloride without volume expansion or alterations in the intranephronal distribution of fluid reabsorption. Enhanced chloride reabsorption in the collecting duct segment, and possibly in the distal convoluted tubule, contributes importantly to this correction.
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PMID:Segmental chloride and fluid handling during correction of chloride-depletion alkalosis without volume expansion in the rat. 669 Apr 86

To directly characterize acidification by the collecting duct, we developed pH and PCO2 microelectrodes suitable for microcatheterization of the inner medullary collecting duct (IMCD). In saline-infused control rats apparent in situ pH fell significantly along the IMCD, from 5.95 at 60% length to 5.49 at the papilla tip. Luminal PCO2 averaged 34 +/- 1 mmHg and PD averaged +3 mV. In rats acutely infused with 0.1 N HCl, apparent in situ pH also decreased significantly from 5.56 to 5.28, PD averaged +2 mV, and luminal PCO2 31 +/- 1 mmHg. The luminal PCO2 of HCl-infused rats was significantly less than controls and both levels were significantly below arterial PCO2. Corroborating the in situ pH profiles, equilibrium pH measured on collected IMCD samples also decreased significantly with percent length. In samples measured in situ and at equilibrium, a small but significant acid disequilibrium pH ws seen in both groups. We interpret these results to indicate that the IMCD actively participates in distal acidification. It is proposed that acidification by the IMCD is predominantly mediated by hydrogen ion secretion which simultaneously acidifies luminal fluid and generates a cellular sink for CO2, thereby inducing an acid disequilibrium pH by two mechanisms.
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PMID:pH and PCO2 profiles of the rat inner medullary collecting duct. 679 82

The present study was designed to characterize bicarbonate (total CO2) reabsorption in the papillary collecting duct of the kidney of the Munich-Wistar rat when total CO2 delivery to this segment was increased by the systemic infusion of a bicarbonate-rich solution. Additional studies examined the effect of the systemic administration of acetazolamide, a carbonic anhydrase inhibitor, on total CO2 reabsorption. Employing free-flow micropuncture techniques, tubular fluid samples were obtained from the base and tip of the exposed papilla and subsequently analyzed for total CO2 and inulin. Total CO2 reabsorption increased in a linear fashion, approximating 34% of that delivered to the base, as total CO2 delivery increased from 3 to 20% of the filtered load. When examined at comparable absolute rates of total CO2 delivery (mumol/min) to the papillary collecting duct, acetazolamide administration resulted in marked inhibition of total CO2 reabsorption. The results of these studies suggest that the papillary collecting duct of the rat kidney possesses a significant capacity for reabsorption of total CO2 and that this reabsorption is diminished by the administration of acetazolamide.
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PMID:Bicarbonate reabsorption in the papillary collecting duct: effect of acetazolamide. 680 6

The acidification of the urine within the distal tubule of Amphiuma means was studied with micropuncture techniques. Antimony microelectrodes calibrated in vivo were used for measuring the intratubular pH and samples were taken for the determination of Na+- and Cl- -concentrations and for determining buffer lines within the HCO-3-CO2 buffer system. The TF/P Na+ was used as a relative length determinator and a significant acidification along the length of the tubule was found. The pH in the tubule was more acid than samples equilibrated at blood PCO2. This disequilibrium can be described in terms of an imbalance within the Henderson-Hasselbach formula or/and as a PCO2-gradient across the tubular wall. The calculated PCO2-gradient was found to be correlated to the arterial PCO2 and the acidification to the arterial pH. The greatest pH-gradient is generated in the collecting duct and in the bladder.
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PMID:Acidification in the distal tubule of the Amphiuma kidney. 688 Jul 93


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