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)

Free-flow micropuncture and in situ microperfusion techniques were used to define the site of action and relative effect of MK447 [2-aminomethyl-4-(1,1-dimethylethyl)-6-iodophenol hydrochloride] vs. furosemide in the rat kidney. MK447 was administered i.v. at 5 mg/kg/hr. Infusion of this drug had little effect on proximal tubule reabsorption of water, Na+ and K+. In contrast, reabsorption of these constituents by the loop of Henle was significantly reduced. There was a tendency for water and Na+ reabsorption to rise and for K+ secretion to fall along the distal tubule. These latter effects can be explained by the contributions of an increased distal flow rate and increased tubule fluid K+ concentration. Net addition of K+ beyond the distal tubule was observed. This may be due to effect of the drug on the collecting duct system or juxtamedullary nephrons. The effects of MK447 and furosemide on loop of Henle reabsorption were compared in microperfusion experiments. Furosemide reduced Na+, K+ and water reabsorption by the loop, whereas MK447 had no effect. A 6-bromophenol sulfate ester of MK447 significantly reduced loop reabsorption. From these observations, we conclude that MK447 affects water and electrolyte reabsorption by the loop of Henle and beyond the superficial late distal tubule. The fact that a potential metabolite, but not MK447, significantly reduced reabsorption by the in situ, perfused loop of Henle supports the hypothesis that the p.o. and i.v. effects of MK447 are dependent on metabolism.
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PMID:Micropuncture evaluation of the site of action of 2-aminomethyl-4-(1,1-dimethylethyl)-6-iodophenol hydrochloride (MK447) in the rat kidney. 199 96

The present in vitro microperfusion study examined whether chlorpropamide (CPM) has a direct effect on hydraulic conductivity (Lp x 10(-6) cm/atm.sec) and 14C-urea permeability (Pu x 10(-5) cm/sec) in the middle and distal inner medullary collecting duct (IMCD) obtained from acutely water-loaded Wistar rats and rats homozygous for diabetes insipidus (DI). CPM (10(-4) M) added to the bath fluid increased the Lp in the water-loaded Wistar rats from -0.05 +/- 0.13 to 6.25 +/- 0.74 (p less than 0.01) and in the DI rats from 0.05 +/- 0.01 to 5.95 +/- 0.84 (p less than 0.01), but had no effect when it was added to the perfusate. CPM stimulated Lp in a dose-dependent manner with the threshold effect at 10(-6) M. However, the addition of CPM (10(-4) M) to submaximal concentration of VP in the bath fluid did not increase the Lp. Furthermore, CPM was unable to block the inhibitory action of PGE2 on the vasopressin (VP)-stimulated Lp. On the contrary, PGE2 blocked the CPM-stimulated Lp. CPM (10(-4) M) in the peritubular fluid was able to cause a significant rise of the Pu from 13.5 +/- 0.8 to 17.3 +/- 1.0 reversibly, which represented 16% of maximum stimulated effect produced by 50 microU/ml of VP. Thus, pharmacological doses of CPM added to the peritubular side have a direct effect on terminal IMCD increasing water and urea permeability in the absence of VP, but this drug does not potentiate the VP-stimulated water transport in the IMCD. Our results were unable to confirm the hypothesis that CPM potentiates the VP-antidiuresis by the inhibition of PGE2 action in the rat IMCD.
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PMID:Effect of chlorpropamide on water and urea transport in the inner medullary collecting duct. 200 36

Large vacuoles form in the renal collecting duct following the onset of antidiuretic hormone (ADH)-stimulated water reabsorption. The aim of the present study was to test two alternative hypotheses regarding the origins of these structures: (1) the vacuoles constitute basilar, extracellular spaces that dilate as water flows through these spaces from cells into the peritubular compartment; or (2) the vacuoles represent intracellular, endocytic compartments that dilate during water reabsorption due to enhanced fluid phase endocytosis. Fluorescence-digital imaging microscopy was used to visualize the uptake into vacuoles of a hydrophilic fluorochrome (6 methoxy-N-[3 sulfopropyl] quinolinium) whose fluorescence is markedly quenched by halides. During their formation, most vacuoles (67%) accumulated the fluorochrome from the peritubular bath and trapped the dye well after (greater than 60 min) washing it from the bath. The spatial pattern of fluorescence within individual vacuoles indicated that the dye was trapped within these structures as a fluid-phase marker and was not bound to the vacuole margins. The fluorescence of dye trapped within vacuoles was virtually unaltered by changes in peritubular Cl- or Br- concentration that elicit dramatic quenching of dye-fluorescence in bulk solution, as expected if there exists a high diffusion resistance between the interiors of these structures and the peritubular space. These results indicate that most ADH-induced vacuoles represent endocytic compartments that are not directly connected to the extracellular space.
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PMID:Diffusion resistances between ADH-induced vacuoles and the extracellular space in rabbit collecting duct: evidence that most vacuoles are intracellular, endocytic compartments. 200 48

The present study was carried out to examine the effect of chronic dietary protein restriction on renal water handling in the rat. During hypotonic saline infusion, the malnourished rats showed a lower free-water clearance, corrected by inulin clearance (7.2 +/- 0.4%), than normal rats (13.6 +/- 2.5%, p less than 0.051), although the fractional distal delivery of sodium did not differ from normal. Throughout hypertonic saline diuresis the free-water reabsorption (TcCH20) corrected by inulin clearance was lower in malnourished rats (6.62 +/- 0.64%) than in control animals (9.25 +/- 0.62, p less than 0.05). Moreover, when TcH20 was referred to the osmolar clearance, malnourished animals showed lower values than normal. These results suggest a defect in NaCl transport in the thick ascending limb of Henle. In vitro measurements of diffusional water permeability (PDW) in the inner medullary collecting duct (IMCD) obtained from malnourished rats showed an increase from 40.0 +/- 5.4 x 10(5) cm/s to 71.3 +/- 5.4 x 10(5) cm/s by adding maximum effective concentration (50 microU/ml) of arginine vasopressin (VP) to the bath. These values were not different from the PDW observed in the IMCD of normal rats. In another series of microperfusion experiments, the hydraulic conductivity in IMCD of malnourished rats measured also in the presence of maximum effective concentration of VP was 29.7 +/- 3.4 x 10(-6) cm/atm/s, a mean value not significantly different from that observed in the IMCD of normal rats (35.2 +/- 4.3 x 10(-6) cm/atm/s).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal concentrating defect in protein malnutrition: the role of the thick ascending limb of Henle and inner medullary collecting duct. 202 Mar 42

Urinary osmotic concentration capacity during renal ontogeny is subject to changes of medullary cytoarchitecture and of segmental epithelial transport characteristics. Osmotic equilibrium between interstitial and tubular fluid of the terminal nephron segment in response to vasopressin is an absolute essential of maximal urinary osmotic concentration. The regulation of osmotic water permeability (Pf) in this terminal epithelial segment during ontogenetic differentiation has not been documented. The inner medullary collecting duct (IMCD), the terminal 40% of total segmental length, was dissected at two stages of postnatal ontogenetic differentiation from immature (days 7-15) and from mature (days 33-37) rat kidneys and perfused in vitro. Pf (micron/s) was measured (bath hyperosmotic) in the absence and presence of arginine vasopressin (AVP, 230 pM). Basal Pf was 32.3 +/- 4.03 (n = 26) in the immature IMCD (IMCDi) and 111.5 +/- 20.6 (n = 15) in the mature segment (IMCDm). AVP increased Pf in IMCDi from 46.4 +/- 10.5 to 102 +/- 25.7 micron/s, whereas in IMCDm the AVP-dependent change of Pf was from 104.2 +/- 41.2 to 693 +/- 176 micron/s. AVP (2,300 pM) did not further increase Pf in IMCDi. Forskolin (50 microM) changed Pf in IMCDi from 34.9 +/- 6.3 to 104.1 +/- 16 micron/s; the corresponding change in IMCDm was from 150 +/- 32 to 985.8 +/- 133 micron/s. An analogue of adenosine 3',5'-cyclic monophosphate (cAMP; 10(-3) M) increased Pf in IMCDi from 35.5 +/- 11.4 to 138.5 +/- 32.6 and in IMCDm from 79.6 +/- 32.3 to 702.2 +/- 283 micron/s.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of osmotic water permeability during differentiation of inner medullary collecting duct. 203 57

Inner surfaces and fracture faces of rabbit kidney tissue were investigated with high-resolution scanning electron microscopy using two different cryopreparation techniques: (i) for the observation of fracture faces, cryofixed tissue was fractured and coated in a cryopreparation chamber dedicated to SEM, vacuum transferred onto a cold stage and observed in the frozen-hydrated state; (ii) for the observation of inner surfaces of the nephron, water was removed after freezing and fracturing by freeze substitution and critical-point drying of the tissue. By both methods, macromolecular structures such as intramembranous particles on fracture faces and particles on inner surfaces were imaged. The latter method was used to investigate in more detail surface structures of cells in the cortical collecting duct. These studies revealed a heterogeneity of intercalated cells not described thus far.
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PMID:High-resolution scanning electron microscopy of frozen-hydrated and freeze-substituted kidney tissue. 203 40

Experimental and clinical evidence support the assumption that eicosanoids affect the morphological development and the functional behaviour of the kidney during the intra-uterine and newborn periods. Inhibition of prostaglandin (PG) synthesis in the pregnant rhesus monkey resulted in renal hypoplasia in the offspring. The plasma levels of PGs are high in the newborn. Production of PGE2 by the cortical collecting duct was found to be similar in newborn and adult rabbit but the affinity of the renal tissue of the newborn for this eicosanoid was higher than that of the renal tissue of the adult rat. Based on findings in adult animals this would be expected to blunt the effect of antidiuretic hormone and account, in part, for the limited ability of the newborn to concentrate the urine. Yet, administration to unanaesthetized newborn rats of acetaminophen, a drug that inhibits the synthesis of PGE2 and thromboxane B2, blocked, rather than enhanced, the increment in urine osmolality produced by 1 h of water deprivation. The effect was absent in weaning and adult rats. A similar experimental manoeuvre increased sodium excretion in newborn but not in weaning or adult rats. Age-related differences are also evident with regard to side effects of PG synthesis inhibition.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of eicosanoids on the water and sodium balance of the neonate. 208 66

The renal response to changes in hydration includes variation in intracellular sorbitol, a major inner medullary osmolyte. To examine the mechanism for changes in net sorbitol production, we measured activities of enzymes regulating sorbitol production (aldose reductase) and degradation (sorbitol dehydrogenase) in untreated, water diuretic, and antidiuretic (water restriction and/or vasopressin administration) rats. Collecting duct segments dissected from collagenase-treated kidneys of Sprague-Dawley rats were divided into outer medullary and three distinct inner medullary regions. Aldose reductase activity increased during antidiuresis and decreased during diuresis. In contrast, sorbitol dehydrogenase activity was very low during antidiuresis and increased during diuresis. These changes in enzyme activity were found after 3 days, but not after 1 day, of water diuresis/antidiuresis. Enzyme activity changed only in the deepest 50% of the inner medullary collecting duct. Thus, there is coordinated regulation of aldose reductase and sorbitol dehydrogenase activities so that (a) during water diuresis, aldose reductase activity decreases while sorbitol dehydrogenase activity increases; and (b) during antidiuresis (water restriction and/or vasopressin administration), aldose reductase activity increases while sorbitol dehydrogenase activity remains low. We conclude that long-term osmoregulation in response to physiologic stimuli involves both aldose reductase and sorbitol dehydrogenase activities in rat terminal inner medullary collecting duct segments.
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PMID:Coordinated response of renal medullary enzymes regulating net sorbitol production in diuresis and antidiuresis. 212 8

ANP stimulates a profound natriuresis and diuresis by a series of concerted actions along the nephron, including stimulation of glomerular filtration and inhibition of net salt and water reabsorption in the cortical and inner medullary collecting ducts. Several actions of ANP contribute to its natriuretic and diuretic effects in the collecting duct. These include reductions in aldosterone secretion, increases in hydrostatic pressures opposing Na+ reabsorption, possible stimulation of medullary washout, and direct inhibition of salt and water transport. In both CCD and IMCD, ANP antagonizes the hydroosmotic actions of vasopressin, which leads to diuresis. The mechanisms by which ANP inhibits response to vasopressin remain unclear, although in IMCD, cGMP can duplicate the response to ANP. In CCD, ANP can inhibit Na+ reabsorption via cGMP; the transport pathway regulated by ANP is unknown. In IMCD, ANP acting via cGMP inhibits a conductive Na+ or cation channel, which appears to be on the luminal membrane.
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PMID:Renal actions of atrial natriuretic peptide: regulation of collecting duct sodium and water transport. 213 59

The present study evaluated the role of changes in renal interstitial hydrostatic pressure (RIHP) in the natriuretic response to atriopeptin III (AP III). In control animals, infusion of AP III (100 ng.kg-1.min-1 iv) increased fractional excretion of sodium, potassium, lithium, and water while glomerular filtration rate and renal blood flow were unaltered. The natriuretic response to AP III was associated with a significant elevation in RIHP from 5.6 +/- 0.8 to 8.1 +/- 1.0 mmHg. In rats pretreated with amiloride (1 mg/kg) to block sodium transport in the collecting duct, basal sodium excretion was elevated, but infusion of AP III still increased RIHP and the fractional excretion of sodium, water, and lithium by the same amount as was observed in the control animals. Removal of the renal capsule completely blocked the rise in interstitial pressure in the renal cortex in amiloride-treated rats, but it did not eliminate the elevation in sodium, water, and lithium excretion produced by AP III. To determine whether changes in renal medullary interstitial pressure could play a role in the residual natriuretic response to AP III in these animals, cortical and medullary interstitial pressure were simultaneously measured in rats with a decapsulated kidney. In this group, AP III increased renal medullary interstitial pressure, while cortical interstitial pressure was unaltered. These results are consistent with the view that changes in renal medullary hemodynamics and RIHP contribute to the natriuretic effect of atrial natriuretic peptide by elevating distal delivery of sodium from deep nephrons.
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PMID:Role of renal interstitial hydrostatic pressure in natriuretic response to ANP. 214 68


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