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)

Renal micropuncture and microdissection techniques with ultramicro fluid analysis have been applied to evaluate single nephron function in the skate, Raja erinacea. We have divided the skate nephron into three proximal tubular segments (PTS I-III), three distal coilings (DC I-III), and a countercurrent loop system located between the proximal segments and the distal coilings. The collecting duct is the principal site of urinary dilution. Following exposure of the fish to 75% seawater for about 24 hours, the sodium concentration difference between the end collecting duct lumen and plasma is decreased sufficiently to account for the urinary dilution. The principal site for magnesium, phosphate and sulphate secretion appears to be PTS II. This segment is located on the ventral surface of the kidney. PTS II is also the main nephron site for reabsorption of sodium and chloride in excess of water.
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PMID:Renal tubule ion transport and collecting duct function in the elasmobranch little skate, Raja erinacea. 85 Jan 20

The stop-flow technique was used in dogs to determine the site of entry of urinary prostaglandins (PG) into tubular fluid. The proximal tubule was localized by the peak (U/PPAH)/(U/PIn) and the distal tubule and collecting duct by the peak U/PIn and the minimum (U/PNa)/(U/PIn). The peak of prostaglandin E (PGE) concentration was located 4.8+/-0.8 (SEM) ml distal to the proximal tubule and 4.6+/-0.8 (SEM) ml proximal to the distal nephron. At its peak, PGE was concentrated 6.3-fold over baseline, whereas inulin was concentrated 1.4-fold at its peak. The height of the PGE peak but not its location was increased by an i.v. infusion of angiotensin II at 20 ng/kg of body wt per min. Indomethacin abolished the PG peak. In a single experiment, prostaglandin F2alpha (PGF2alpha) exhibited an excretion pattern similar to PGE. These data indicate that the site of entry of PG into tubular fluid is most likely in the loop of Henle. This is consistent with the hypothesis that PG synthesized in the medulla can be transported to the cortex via tubular fluid. Whether PG in the tubular fluid can influence renal function remains to be determined.
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PMID:Urinary prostaglandins: site of entry into renal tubular fluid. 85 73

The effects of acute bilateral ureteral obstruction (BUO) of 18-h duration on deep nephron and collecting duct function were studied by micropuncture in 11 weanling rats. After release of BUO glomerular filtration rate was reduced (178+/-15 vs. 1,343+/-119 mul/min per g kidney weight in shams), while urine flow was increased averaging 17.5+/-1.3 vs. 6.8+/-0.72 mul/min per g kidney weight in controls. There was a marked increase in the absolute and fractional excretion of Na. Single nephron glomerular filtration rate of deep nephrons was reduced in the BUO group, mean 19.4+/-3.5 vs. 77.0+/-7.7 nl/min per g kidney weight in shams. Single nephron glomerular filtration rate of superficial nephrons fell to the same extent after relief of BUO. Mean tubular fluid to plasma inulin ratio of fluid from Henle's loop was 2.46+/-0.20 after relief of BUO vs. 8.23+/-0.85 in shams. This suggested a reduction in the reabsorption of Na and water before the bend of the loop of Henle, most likely in both the proximal tubule and descending limb. Fluid osmolality was depressed due to a decline in both Na and nonelectrolyte solute content. After release of BUO the percentage of filtered water remaining in the collecting duct (CD) at the base of the papilla was greater than in controls (13.3+/-2.0 and 1.72+/-0.01%, respectively) but fell significantly by the tip of the papilla to 7.92+/-1.12 vs. 1.17+/-0.02% in controls. These results indicate that water was reabsorbed along the terminal CD after relief of ureteral obstruction. In fact, a greater fraction was reabsorbed in this segment after release of BUO (5.37+/-1.58%) than after sham operation (0.55+/-0.15%). Similar changes were seen in Na excretion. Thus alterations in deep nephron function appear to contribute to the natriuresis and diuresis which follow release of BUO while terminal CD function in this model appears intact.
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PMID:Effects of acute bilateral ureteral obstruction on deep nephron and terminal collecting duct function in the young rat. 86 2

Prolactin was shown to activate adenylate cyclase in broken cellular enzyme preparations from rat renal medulla. Likewise, vasopresin was effective on this enzyme system. Parathyroid hormone was similarly active in the renal cortex. The simultaneous administration of vasopressin and prolactin to medullary kidney slices did not result in an additive effect in stimulating medullary adenyl cyclase. Audioradiographic techniques revealed a selective and prolonged localization of intravenously injected 125I-prolactin to the thick limb of the loop of Henle, the distal tubule and the collecting duct. It is concluded that prolactin activates medullary adenylate cyclase, and may do so by occupying ADH receptors.
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PMID:Prolactin-induced stimulation of rat renal adenylate cyclase and autoradiographic localization to the distal nephron. 86 55

Thirty minutes after indomethacin (10 mg/kg, iv), a prostaglandin synthesis inhibitor, had been given to 10 rats, the Na concentration in renal papilla averaged 349 mEq/kg H2O, whereas it averaged only 181 in 14 "non-indomethacin" control rats (P less than 0.0001). Papillary plasma flow was closely similar in both groups. In a subsequent study, eight "indomethacin" rats had the same papillary flow as seven non-indomethacin rats but had a papillary Na concentration of 358 vs. 185 in the non-indomethacin controls (P less than 0.0001). In nine more rats, indomethacin increased Cl concentration in papillas by 66% (P less than 0.0001), while Na concentration increased 60% (P less than 0.0001). In eight other rats, micropuncture indicated that indomethacin does not greatly alter delivery of fluid out of late proximal tubule. Meclofenamate, another inhibitor, increased papillary Na just as much as indomethacin. Papillary urea is not changed with indomethacin. Thus, papillary Na concentration was almost twice as high in indomethacin rats, despite similar papillary plasma flow and late proximal flow. Apparently, inhibiting prostaglandin synthesis is associated with either a great increase in Na or Cl "pumping" or a great decrease in Na or Cl "leak" in either collecting duct or ascending limb, or in both. The collecting duct and papillary interstitial cells both synthesize prostaglandins, which seem to have a profound effect on medullary net Na transport.
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PMID:Evidence that prostaglandin synthesis inhibitors increase the concentration of sodium and chloride in rat renal medulla. 87 Feb 22

After adrenal enucleation, rats have an impaired ability to excrete a salt load because of enhanced collecting duct reabsorption. This antinatriuretic effect, thought to be secondary to a mineralocorticoid-like substance secreted by the enucleate gland, can be reversed by treatment with spironolactone or dexamethasone. To define the renal mechanisms involved in this drug-induced natriuresis we have utilized clearance and micropuncture techniques in enucleate saline-expanded rats that were treated with either spironolactone (S) or dexamethasone (D), or were untreated (U). Sodium excretion was clearly increased after S, 13.9, and D, 19.3 mueq/min vs. u, 5.9 mueq/min. The mechanisms of this natriuresis, however, were dissimilar. Spironolactone-treated rats were not different from untreated rats except with regard to function beyond the superficial late distal tubule, where U rats reabsorbed over 50% of the delivered sodium. In the S group 38% of the excreted sodium was added along this tubular locus, 5.2% of the filtered sodium reaching the late distal tubule and 7.3% appearing in the urine. These data demonstrate that the natriuresis after S is secondary to the net addition of sodium beyond the superficial late distal tubule. Spironolactone may work by inhibiting a mineralocorticoid-like product of the enucleate gland and, thereby, eliminate the sodium-retaining effect of this product. The natriuresis after D, however, can be explained solely on the basis of a markedly increased filtered load of sodium traversing the nephron.
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PMID:Natriuresis after adrenal enucleation: effect of spironolactone and dexamethasone. 87 25

1. Antidiuretic hormone (ADH) was infused into normal male rats at a rate of 60 muu./min. 100 g body wt., to maintain an effectively constant maximal circulating level. Four groups of rats were used; they were water-loaded by receiving together with the ADH, I.V. infusions of hypotonic dextrose (2.5 g/100 ml.) at different rates (1.0, 4.5, 9.0 and 12 ml./hr, respectively), over an infusion period of 4 hr.2. Urine flow rate increased in all groups, the rate and extent of the increase being related to the volume rate of infusion. The differences in urine flow rates between the four groups were due almost entirely to increases in free water clearance, with no consistent differences in osmolal clearance between the groups. At the end of the 4 hr infusion period, osmolal clearances were closely similar in the four groups.3. Papillary and medullary tissue solute concentrations were progressively reduced at the higher rates of infusion. The changes were due to small increases in the water content, together with a profound decrease in urea concentration and a smaller decrease in sodium concentration. However, papillary osmolality was consistently higher than urine osmolality at the three highest rates of dextrose infusion.4. As urine flow rate increased, there was a progressive reduction in the degree of osmotic equilibration between the final urine and the papillary tip. For urea, however, the degree of equilibration remained high.5. It is concluded that, in the rat, the rate of flow per se, along the collecting duct, is an important determinant of final urine concentration; even if there is an osmotic driving force for water re-absorption in the renal medulla, and the collecting duct walls are permeable to water, osmotic equilibration is restricted by tubular flow rate.
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PMID:Collecting duct dlow rate as a determinant of equilibration between urine and renal papilla in the rat in the presence of a maximal antidiuretic hormone concentration. 90 5

Lithium carbonate, useful in the treatment of manic-depressive disorders, can produce nephrogenic diabetes insipidus. The drug, therefore, has been used to facilitate renal waster excretion when severe hyponatremia occurs in the syndrome of inappropriate antidiuretic hormone secretion. Symptomatic dilutional hyponatremia developed in a patient with pulmonary carcinoma whom we treated. Lithium carbonate was administered and renal sodium wasting, hypovolemia, and hypotension occurred. Hyperkalemia was also observed, and since adrenal steroid levels were not decreased, impairment of distal tubular function was suggested. Lithium carbonate blocks antidiuretic hormone effect by decreasing collecting duct cyclic adenosine monophosphate generation. These observations suggest that more generalized inhibitory effects on renal tubular function may also result from its use. An alternative drug, demeclocycline, may be preferable.
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PMID:Severe sodium depletion syndrome during lithium carbonate therapy. 93 81

Medullary collecting duct function was studied by direct microcatheterization techniques in rats undergoing postobstructive diuresis. Significant net addition of water and sodium to the duct was demonstrated during postobstructive diuresis after relief of 24-h bilateral ureteral ligation. This striking abnormality in function was associated with reduced delivery of sodium and water to the collecting duct compared to sham-operated controls. To examine the role of circulating factors in this phenomenon, another group of rats was studied that underwent 24 h of total urine reinfusion into the femoral vein. Natriuresis and diuresis were similar to the postobstructive group, but absolute collecting duct reabsorption of sodium and water was normal. The natriuresis and diuresis in rats with urine reinfusion resulted from increased delivery of fluid and sodium to the medullary collecting duct. A third group of rats was studied with 24-h unilateral ureteral ligation as well as urine reinfusion from the contralateral normal kidney. Without urine reinfusion there was no diuresis-natriuresis but with urine reinfusion the diuresis and natriuresis after relief of unilateral obstruction was similar to that after relief of bilateral obstruction. Moreover, net addition of sodium and no significant water reabsorption were demonstrated in the medullary collecting duct of such animals. The results indicate that (a) the medullary collecting duct is the critical nephron segment affected by ureteral obstruction, since postobstructive diuresis occurred despite reduced delivery of fluid from the more proximal nephron; (b) the net addition of sodium to the medullary collecting duct observed during postobstructive diuresis is probably a direct effect of obstruction, since it was found during postobstructive diuresis after relief of bilateral or unilateral ureteral ligation, but not with urine reinfusion alone; and (c) blood-borne factors are important in the development of postobstructive natriuresis and diuresis, and probably act by increasing the fraction of filtered sodium and water delivered from the proximal and distal tubule to the collecting duct.
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PMID:The role of the medullary collecting ducts in postobstructive diuresis. 93 94

The microcatheterization technique was used to study reabsorption of fluid, sodium, and potassium in the medullary collecting duct in chronically deoxycorticosterone acetate (DOCA)-treated and salt-loaded rats, as well as in normal and chronically salt-deprived (NaD) rats, before and after infusion of donor blood (33% of estimated circulating volume). Before expansion, urinary sodium excretion was highest in DOCA rats, intermediate in normal, and lowest in low salt rats. Significant collecting duct reabsorption was found in NaD, normal, and DOCA groups. In contrast to sodium, no net transport of potassium was found in any series. During intravascular expansion, increased renal excretion of fluid and sodium was observed uniformly in both DOCA and normal groups, whereas a diuretic response was found in five of seven rats, and a natriuretic response in four of seven rats of the NaD group. Natriuresis of DOCA rats was significantly greater than that of either normal or responding NaD rats. Diuresis and natriuresis in all three series were assocaited with complete inhibition of fluid and sodium reabsorption from the lumen of the medullary collecting duct, whereas such reabsorption persisted in nonresponding low salt rats. Increased sodium excretion in DOCA rats in comparison to the other two series could be explained by enhanced intratubular delivery of the ion to the medullary collecting system. I conclude that the renal response to acute blood volume expansion is due primarily to complete inhibition of both fluid and sodium reabsorption in the medullary collecting duct, but that differences in tubular delivery may modify the resulting diuresis and natriuresis.
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PMID:Collecting duct function in deoxycorticosterone acetate-escaped, normal, and salt-deprived rats. Response to hypervolemia. 93 14


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