Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 greater than 40-fold range of voluntary salt intake in humans requires corresponding adjustments in renal excretion to maintain balance. Although many mechanisms have been implicated in the regulation of salt output by the kidney, surprisingly little consideration has been given to their quantitative significance and possible interaction. This survey summarizes the effects of changes in glomerular filtration rate, proximal peritubular physical factors, and plasma concentrations of aldosterone and atrial natriuretic factor (ANF), singly and in combination, on the level of salt excretion. Contrary to expectation, even large increases in filtration or decreases in proximal reabsorption have only minor natriuretic effects, due to constancy of fractional reabsorption in downstream nephron segments. Lack of aldosterone release increases salt excretion as much or more than the upstream mechanisms, whereas ANF-induced inhibition of reabsorption in the medullary collecting duct has the largest effect. It may be concluded, therefore, that the potency of these natriuretic factors increases with distance along the nephron, even though each is operating on a progressively small tubular load. However, none of the mechanisms, in isolation, is sufficient to explain salt balance over the range of voluntary intake. Combination of factors demonstrates synergism rather than simple additivity, resulting in more than enough reserve capacity for salt excretion.
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PMID:Renal regulation of salt balance: a primer for non-purists. 220 3

Ample evidence suggests that Ca2+ antagonists like nitrendipine are capable of inducing mild diuresis and natriuresis in states predisposing to natriuresis, although there is disagreement on common possible sites or mechanisms of action. To clarify this situation, clearance, micropuncture, and microperfusion studies were undertaken on rats to establish whether nitrendipine inhibits sodium and fluid reabsorption in strict hydropenia, and if so, in which nephron segments this occurs. The clearance studies failed to show any specific effect on glomerular filtration rate, urine flow, or sodium excretion; mean arterial blood pressure was, however, dose-dependently depressed. Single nephron filtration rate, measured in the distal tubule, was also not altered, but fractional salt and water reabsorption up to that site were modestly reduced. Since microperfusion studies failed to show any inhibition of thick ascending limb transport, this implies a proximal inhibitory action, a conclusion confirmed by proximal microperfusion studies. Thus, in strict hydropenia, nitrendipine inhibits proximal salt and water reabsorption, but the increased distal load is completely compensated by distal tubular and collecting duct mechanisms such that urinary electrolyte excretion is unaltered.
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PMID:The site of action of nitrendipine in the rat kidney. 244 Nov 79

We demonstrated the distribution pattern of ecto-5'-nucleotidase (5'-Nu) in rat kidney by enzymatic activity (lead salt precipitation) and by immunohistochemistry with a polyclonal antibody raised in rabbits. Enzyme activity was found in the brush border of the proximal tubule, highest in the P1 segments with decreasing intensity in the P2 segments and weakest in P3 segments in the medullary rays of the cortex. The P3 segments of the outer stripe showed slightly higher activity. Activity was also apparent in the intercalated cells in the connecting tubule and collecting duct, whereas all other tubular and glomerular structures were negative. Activity in peritubular and perivascular connective tissue was highest in the cortical labyrinth, weak or absent in the medullary rays of the cortex, and entirely absent in the medulla. The distribution of the antigen was fully congruent with that of the enzyme activity. With respect to the role of adenosine in regulation of renal blood flow and glomerular filtration rate, the distribution of 5'-Nu in the cortical interstitium may be particularly significant. The possibility of nucleotide cleavage at the brush-border membranes may be important for salvage of nucleotides from the tubular lumen.
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PMID:Ecto-5'-nucleotidase: localization in rat kidney by light microscopic histochemical and immunohistochemical methods. 253 3

To evaluate the role of increased thick ascending limb Na+-K+-ATPase activity in rats undergoing hypertonic salt loading, the following groups of rats were studied: 1) control rats, 2) rats receiving an oral hypertonic Na load for 7 days, and 3) rats receiving the same oral Na load as in group 2 plus a daily injection of 10 mg/100 g of furosemide ip for 7 days. Salt loading (group 2) was associated with increased glomerular filtration rate (GFR) and hence an increased filtered load of sodium. Plasma aldosterone levels were markedly decreased. Na+-K+-ATPase was unchanged in the proximal tubule [convoluted (PC) and straight (PS)], increased in the thick ascending limb of Henle's loop [outer medullary (OMTAL) and cortical (CTAL)] and decreased in the distal nephron [distal convoluted tubule (DCT) and cortical collecting duct (CCD)]. The renal corticomedullary gradient of solutes was markedly increased in the salt-loaded group. Salt loading plus furosemide for 7 days (group 3) was associated with severe dehydration and hypernatremia. GFR as well as plasma aldosterone levels were unchanged compared with control. Na+-K+-ATPase was significantly increased in the proximal tubule (PC and PS), markedly decreased in the thick ascending limb of Henle's loop (OMTAL and CTAL), increased in the DCT and unchanged in the CCD. The increase in the corticomedullary gradient caused by salt loading per se was abolished by treatment of salt-loaded rats with furosemide. These results indicate that treatment with furosemide prevents the preservation of water balance and of normal body fluid tonicity in rats undergoing hypertonic Na loading.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of thick ascending limb Na+-K+-ATPase activity in salt-loaded rats by furosemide. 253 44

Medullary collecting duct function was studied using the in vivo microcatheterization technique in three groups of rats receiving amiloride, hydrochlorothiazide, or both diuretics. In each group of animals, atrial natriuretic factor (ANF99-126) was given in the second phase of the experiment. The combination of amiloride and hydrochlorothiazide resulted in a more marked natriuresis than either diuretic given as a single agent. Sodium reabsorption in the medullary collecting duct, as a fraction of the delivered load, was reduced from 64% (amiloride) and 69% (hydrochlorothiazide) to 29% (amiloride and hydrochlorothiazide). Atrial natriuretic factor reduced collecting duct sodium reabsorption when added to amiloride or hydrochlorothiazide to 23% and to 41%, respectively, but had no additional effect when given with amiloride and hydrochlorothiazide. Potassium excretion with amiloride and hydrochlorothiazide was intermediate between amiloride or hydrochlorothiazide given as single agents. With the diuretic combination, potassium transport showed no significant reabsorption or secretion along the medullary collecting duct, amiloride was associated with potassium reabsorption, and hydrochlorothiazide was associated with potassium secretion in the duct. The results confirm the importance of the medullary collecting duct as a site of diuretic action. The known additive effects of amiloride and hydrochlorothiazide on sodium excretion and the opposing effects of these agents on potassium excretion occur, to a major degree, in the medullary collecting duct. Furthermore, the additive effects of amiloride and ANF indicate that blocking of amiloride-sensitive sodium channels is not the only mechanism of action of ANF on duct salt transport in vivo.
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PMID:Interaction of amiloride and hydrochlorothiazide with atrial natriuretic factor in the medullary collecting duct. 297 Aug 86

Inasmuch as atrial natriuretic factor (ANF) is apparently involved causally in the renal response to acute hypervolemia, it became of interest to study cellular mechanisms of release and renal tubular action. To study release mechanisms, freshly excised rat heart atria were incubated in vitro. Activation of the cellular adenylate cyclase system by either beta-adrenergic stimulation or the vasopressin analog deamino-8-D-arginine vasopressin did not result in ANF release. By contrast, activation of the polyphosphoinositide system by alpha-adrenergic stimulation or stimulation of the V1-type vasopressin receptors, and by a calcium ionophore or active phorbol ester, significantly increased natriuretic activity in the medium and reduced it in tissue. It is concluded, therefore, that activation of this latter system is the mechanism for ANF secretion from atrial myocytes. To test the effect of ANF on tubular transport in the medullary collecting duct, microcatheterization was used in rats before and during i.v. infusion of synthetic atrial peptide (23 amino acids). It was found that tubular delivery of salt to this part of the nephron was increased, and that reabsorption in the duct itself was reduced. In control experiments, increased delivery was associated with proportionately increased reabsorption, which demonstrated glomerulotubular balance in the nephron segment under normal conditions. The natriuretic effect of ANF, therefore, was not caused solely by enhanced tubular load, but included specific inhibition of duct sodium reabsorption as an essential feature of the renal response.
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PMID:Mechanisms of release and renal tubular action of atrial natriuretic factor. 301 20

There is evidence that atrial natriuretic factor (ANF) has an action in the inner medullary collecting duct. In addition, the prehypertensive Dahl salt-sensitive (S) rat has an intrinsic tendency toward less natriuresis than the Dahl salt-resistant (R) rat has when challenged with ANF. To test the hypothesis that renal papillary collecting tubule cells from prehypertensive S rats might be genetically less responsive to ANF, S and R cells were grown in culture and studied for responsiveness to ANF by measurement of cyclic nucleotide responses. There was a concentration-dependent effect of ANF on renal papillary collecting tubule cell synthesis of intracellular cyclic guanosine 3',5'-monophosphate (cGMP) in both strains. However, the S cells were hyporesponsive compared with the R cells (p less than 0.002, by analysis of variance). Likewise, in response to Na nitroprusside, the S cells were hyporesponsive compared with the R cells as measured by intracellular cGMP accumulation (p less than 0.03, by analysis of variance). Arginine vasopressin stimulated intracellular cAMP equally in both strains. Also, ANF equally enhanced intracellular cGMP in glomerular mesangial cells from S and R rats, indicating possible specificity of the reduced responsiveness to ANF to the distal nephron of S rats. Plasma ANF levels had a slight tendency to be higher in prehypertensive S rats than in R rats (p = 0.088, by t test). These results suggest that the papillary collecting duct of Dahl S and R rats may differ in guanylate cyclase activity. This difference may partially explain the impaired natriuretic responses of S rats and could represent a factor contributing to the development of salt-sensitive hypertension.
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PMID:Papillary collecting tubule responsiveness to atrial natriuretic factor in Dahl rats. 303

To assess the intrinsic effects of treatment with furosemide on free-water excretion in patients with chronic renal failure, two groups of patients with and without replacement of diuretic-induced salt losses have been studied. Furosemide therapy was administered for 1 week during constant sodium intake (100 mEq/day). In neither of the groups did furosemide cause hyponatremia, while it did decrease the urine to plasma osmolality ratio, an effect lasting even when the diuretic effect was exhausted. During water diuresis, furosemide decreased the fractional sodium reabsorption in diluting segments but not the absolute rate of the free-water generation (CH2O). Presumably the expected decrease of CH2O was masked by the increased distal delivery of tubular fluid mainly due to an additional effect of the diuretic on the proximal tubule. The hypotonicity of urine after furosemide treatment may be secondary to the dissipation of medullary hypertonicity, caused by furosemide, in the condition of decreased water permeability of the collecting duct due to uremic disease.
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PMID:Effects of furosemide therapy on free-water excretion in uremic patients. 323 71

It has been proposed that medullary washout secondary to increased blood flow will limit maximal urine osmolality and reabsorption of salt and water from the inner medullary collecting duct. We have tested this prediction. The function of the inner medullary collecting duct was examined by microcatheterization. Acetylcholine was infused directly into the renal circulation, captopril was infused intravenously, and angiotensin II was infused into the renal circulation in rats which also received captopril. Medullary plasma flow rate, measured by dye-dilution in parallel experiments, was not significantly increased by acetylcholine; it was increased 30% (p less than 0.02) by systemic infusion of captopril, and was returned to control by angiotensin II. Acetylcholine increased both urine flow rate and sodium excretion (p less than 0.01, p less than 0.001, respectively), while captopril increased only sodium excretion (p less than 0.025). Angiotensin II blocked the natriuresis due to captopril. None of the treatments altered urine osmolality (p greater than 0.4 in all cases). Acetylcholine increased the loads of water, sodium, chloride, and total solute delivered to the inner medullary collecting duct. Angiotensin II reduced delivery of water and solutes compared with captopril alone. None of the treatments affected load dependency of reabsorption of water, sodium, chloride, or total solute in the inner medullary collecting duct. We conclude that there is, at most, a weak interaction between medullary blood flow and reabsorption from the inner medullary collecting duct.
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PMID:Renal medullary plasma flow rate and reabsorption of salt and water from inner medullary collecting duct. 332 70

Pregnancy in the rat is accompanied by enhanced reabsorption of salt and water throughout most, if not all, of the gestational period. Many mechanisms have been suggested but definitive answers are still awaited. The major area of controversy centres around the detection of changes at term. There is general agreement that, at least in mid-gestation, the increase in reabsorption can be attributed to increases in the proximal tubules, the loop of Henle and collecting duct. The contribution of the proximal tubule to the increased reabsorption at term is still uncertain. Enhanced salt and water reabsorption is demonstrated in distal nephron segments irrespective of the stage of gestation. Micropuncture and microperfusion experiments have identified increased reabsorption of water, sodium and chloride in the loop of Henle, but it appears that there is net addition of glucose, urea and potassium to the tubular fluid in this segment which, at least for potassium and glucose, offsets to some extent increased reabsorption by the proximal tubule. Altered renal handling of other solutes (uric acid, calcium and magnesium) also occurs throughout pregnancy but the mechanisms responsible and nephron sites involved remain to be investigated. Attempts to attribute altered reabsorption to direct renal effects of changes in maternal hormones are inconclusive. Prolactin mimics some of the pregnancy-associated increases in reabsorption following chronic administration to male and non-pregnant female rats. These effects might be due to a direct renal action of the hormone or even to the volume expansion following its dipsogenic action.
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PMID:Renal tubular function in the gravid rat. 333 Apr 87


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