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 ontogenesis of vasopressin receptors in the rat collecting duct was studied by measuring the binding of [1-(beta-mercapto-beta,beta-cyclopentamethylenepropionic acid),2-O-methyltyrosine,4-threonine,8-ornithine,9-125I-tyrosylamide+ ++]-vasotocin (125I-d(CH2)5[Tyr(Me)2,Thr4,Tyr-NH(9)2]-OVT) to isolated cortical collecting ducts (CCD), outer medullary collecting ducts (OMCD) and inner medullary collecting ducts (IMCD) microdissected from collagenase-treated kidneys of 2- to 34-day-old rats and adult animals. The stereospecificity for recognition of a series of seven vasopressin structural analogues by CCD and OMCD receptors reveals that the labeled binding sites identified in 11- to 16-day-old and adult rats are homologous respectively and contain a major population of V2 type and a minor population of V1a type of vasopressin receptors. At all postnatal stages examined, the receptor density (expressed as 10(-18) mol radioligand bound per square millimeter tubular outer surface area) decreases gradually from the CCD to the IMCD. For the three segments, the numbers of receptors detected remained constant during the first 2 weeks after birth and increased sharply after 20 days to reach the corresponding adult levels during the fifth week.
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PMID:Postnatal ontogenesis of vasopressin receptors in the rat collecting duct. 138 71

Hydrolysis of arginine into urea and ornithine (Orn) was observed to take place in several segments of the rat nephron including cortical and medullary pars recta of the proximal tubule (PST) and collecting duct (CD). This work was now extended to the adult mouse and rabbit. Representative nephron segments, obtained by microdissection of collagenase-treated kidneys, were incubated with L-[guanido-14C]arginine (216 microM). Addition of urease produced 14CO2 + 2 NH3 from the newly formed urea released in the incubate. 14CO2 was trapped in KOH and counted. In both species, as well as in the rat, the PST was the site of the highest urea + Orn production, with an intensity increasing from cortex to medulla. For other nephron segments, the pattern was not similar in all species. Significant production of urea + Orn was observed in the proximal convoluted tubule and the medullary thick ascending limb in the rabbit, but not in the CD of either the rabbit or the mouse. The functional significance of this urea + Orn production remains unclear. The total amount of urea generated intrarenally by this reaction does not seem sufficient to play a significant role in the urinary concentrating mechanism. It may be assumed that Orn could be further metabolized to polyamines and play a role in maintaining cell integrity and function in the PST, especially in its medullary part, exposed to hypertonicity and poor oxygen supply.
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PMID:Localization of urea and ornithine production along mouse and rabbit nephrons: functional significance. 144 76

The stimulation of alpha-1 adrenergic receptors in the mammalian nephron increases sodium reabsorption. In this study, alpha-1 adrenergic receptors in the inner medullary collecting duct (IMCD) cells were examined by radioligand binding technique. The IMCD cells were prepared from the rabbit kidney by incubating the inner medullary slices with collagenase and treating the isolated cells with hypotonic solution to lyse cells other than IMCD cells. The equilibrium binding of [3H]prazosin to IMCD cell homogenate was measured after incubation for 30 min at 25 degrees C in the absence (total binding) and the presence (nonspecific binding) of 100 microM phentolamine. The specific binding (the difference between total and nonspecific binding) of [3H]prazosin was saturable with a Bmax of 30 fmol/mg of protein and Kd of 0.9 nM. The displacement of [3H]prazosin binding to IMCD cells by adrenergic antagonists and agonists displayed the order of potency: beta-4-hydroxyphenyl-ethyl-amino-tetralone greater than phentolamine greater than naphazoline greater than epinephrine greater than yohimbine greater than norepinephrine greater than phenylephrine greater than propranolol. Because IMCD cells in the kidney have a hypertonic environment, the specific binding of [3H] prazosin to IMCD cells was also measured in a buffer that was made hypertonic (1200 mOsmol/kg of water) with NaCl and urea, the major solutes of the renal medulla. The hyperosmolality increased the Kd of [3H]prazosin to 5.2 mM without a change in its Bmax.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alpha-1 adrenergic receptors in renal medullary collecting duct cells. 168 13

Microelectrode studies have shown that the basolateral membrane of the principal cells (PC) of the rabbit cortical collecting duct (CCD) contains Cl(-)-conductive pathways. To determine the properties of single Cl- channels we prepared the basolateral membrane for patch clamping by incubating the CCD in collagenase and/or tearing the basement membrane with a fine needle. When high concentrations of collagenase were used, only a small nonselective channel was observed. In low concentrations or the absence of collagenase, however, we identified a Cl- channel (g46) in both cell-attached and excised patches. The Cl- channel gated rapidly between three equally spaced substates of 0 (S0), 23 (S1), and 46 pS (S2) and slowly between states C (inactive) and S0. The conductance of each substate was not voltage dependent between pipette potentials from -60 to +60 mV (cell attached). The probability that the channel gated from C to S0 increased with hyperpolarizing potentials, but the probability that g46 was in substate S0 increased with depolarizing patch potentials. This channel was similar to that described by Miller for the nonexcitable membrane of the electric organ of Torpedo californica. Because g46 was the most frequently observed basolateral membrane channel and was voltage dependent at physiological potentials, it is probably the channel responsible for the dominant Cl- conductance of PC.
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PMID:Double-barreled chloride channels of collecting duct basolateral membrane. 169 17

A method for studying the in vivo accumulation of inorganic mercury along the nephron of Sprague-Dawley rats pretreated with a radiolabelled 0.66 mumol/kg dose of mercuric chloride is described in this article. Forth-eight hr after rats received the radiolabelled dose of mercuric chloride intravenously the kidneys of the animals were perfused in situ with a collagenase solution in order to dissect and isolate various readily assessable segments of the nephron and collecting duct. Three different categories of tubular segments were isolated; proximal convoluted tubules, proximal straight tubules and combined segments of the distal nephron and collecting duct. A group of isolated tubular segments were measured in length, drawn up and placed in counting tubes, and placed in a gamma counter for the determination of the content of inorganic mercury that accumulated in them during the 48 hr subsequent to the administration of the dose of mercuric chloride. In a separate set of animals, the intrarenal distribution of inorganic mercury was determined 48 hr after the intravenous dose of mercuric chloride was administered. Inorganic mercury accumulated mainly in the renal cortex and outer stripe of the outer medulla. In addition, the concentration of inorganic mercury in the outer stripe of the outer medulla was twice that in the cortex. The findings obtained with the isolated tubular segments revealed that most of the accumulated inorganic mercury in the kidneys of the rats was in the proximal tubule.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Method for studying the in vivo accumulation of inorganic mercury in segments of the nephron in the kidneys of rats treated with mercuric chloride. 194 26

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

We have developed an in vitro model of human papillary collecting duct cells isolated from cadaver kidneys using methods similar to those we previously reported for the isolation of human proximal tubule cells. To date we have isolated papillary collecting duct cells from 100 normal human kidneys. Papillae were dissected and digested in Cellgro containing 400 U/ml collagenase. Cells were plated on fibronectin-coated culture flasks at a density of 10(4) live cells/ml in Cellgro supplemented with insulin and 10% fetal bovine serum. Confluent monolayers, which were able to withstand 600 mOSM for 8 h, were obtained within 10 to 15 d. Cells of primary isolates and first passages exhibited epithelial cell ultrastructure including cell junctions, microvilli, and cilia. A dark-brown reaction product was observed in these cells when stained by the immunoperoxidase method with peroxidase-labeled peanut lectin (Arachis hypogaea), which binds specifically to human distal tubule and collecting duct cells. These cells were negative for Factor-VIII (a marker for endothelial cells) and gamma-glutamyltransferase (a marker for proximal tubule cells). High activities of the glycolytic enzyme pyruvate kinase and arginine vasopressin-stimulated cAMP production in these cells are consistent with a distal nephron origin. The results indicate that human collecting duct cells can be isolated and cultured to provide an in vitro system to probe pathogenetic mechanisms of potential nephrotoxins.
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PMID:Characterization of an in vitro system of human renal papillary collecting duct cells. 216 26

Regulation of urea transport by vasopressin in inner medullary collecting duct (IMCD) cells is thought to be important for the urinary concentrating mechanism. Isolated tubule perfusion studies suggest the existence of a saturable urea carrier. We have measured 14C-urea efflux in IMCD cells which were freshly isolated and grown in primary culture. Cells were isolated from rat papilla by collagenase digestion and hypotonic shock. In suspended cells, 14C-urea efflux (Jurea) from loaded cells was exponential with time constant 59 +/- 3 sec (SEM, n = 6, 23 degrees C). Jurea had an activation energy of 4.1 kcal/mole and was inhibited 42 +/- 7% by 0.25 mM phloretin and 30-40% by the high affinity urea analogues dimethylurea and phenylurea. Jurea was increased 40-60% by addition of vasopressin (10(-8) M) or 8-bromo-cAMP (1 mM); stimulated Jurea was inhibited 55 +/- 8% by the kinase A inhibitor H-8. Phorbol esters and epidermal growth factor did not alter Jurea. IMCD cells grown in primary culture were homogeneous in appearance with greater than fivefold stimulation of cAMP by vasopressin. The exponential time constant for urea efflux was 610 +/- 20 sec (n = 3). Jurea was not altered by vasopressin, cAMP or phloretin. Another function of in vivo IMCD cells, vasopressin-dependent formation of endosomes containing water channels, was absent in the cultured cells. These results demonstrate presence of a urea transporter on suspended IMCD cells which is activated by cAMP and inhibited by phloretin and urea analogues. The urea transporter and its regulation by cAMP, and cAMP-dependent apical membrane endocytosis, are lost after growth in primary culture.
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PMID:Urea transport in freshly isolated and cultured cells from rat inner medullary collecting duct. 217 46

Intrarenal administration of cholinergic agents produces diuresis. However, neither cholinergic innervation or specific cholinergic receptors have been shown to be present in the kidney. Recently, we have demonstrated that carbachol, a cholinergic agent, stimulates phosphoinositide hydrolysis in the inner medullary collecting duct (IMCD) cells. The effect was blocked by atropine (a cholinergic antagonist), suggesting that phosphoinositide hydrolysis occurs through the interaction of carbachol with specific cholinergic receptors in these cells. Therefore, we examined the cholinergic receptors in IMCD cells by measurement of radioligand binding of a cholinergic receptor antagonist, I-quinuclidinyl (phenyl-4-3H)benzilate([3H]QNB). The IMCD cells were prepared from rabbit kidneys by incubating the inner medullary slices with collagenase and treating the isolated cells with hypotonic solution to lyse cells other than IMCD cells. Binding of [3H]QNB to IMCD cells was measured at 37 degrees C for 60 min in the absence (total binding) and the presence (nonspecific binding) of 100 microM atropine (a muscarinic receptor antagonist). The specific binding (the difference between total and nonspecific binding) of [3H]QNB to IMCD cells was saturable with a Bmax (maximum binding sites) of 27.5 fmol/mg of protein and Kd (dissociation constant) of 0.27 nM. Atropine, but not hexamethonium (a nicotinic antagonist), was able to displace [3H]QNB from IMCD cells with a Ki of 0.1 microM. It is, therefore, concluded that specific high affinity muscarinic receptors are present in IMCD cells. These receptors may play a role in producing the pharmacologic actions of cholinergic agents on the kidney.
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PMID:Cholinergic receptors in renal medullary collecting duct cells. 253 24

Recently, we have demonstrated that carbachol, a cholinergic agonist, stimulates the hydrolysis of phosphoinositides (PI) in the inner medullary (IM) slices from the rabbit kidney. In order to localize the effects of carbachol in the IM, we measured PI hydrolysis in IM collecting duct (CD) cells which form approximately 50% of the IM and play an important role in determining the final composition of the urine. The IMCD cells were prepared from IM slices of the rabbit kidney by treatment with collagenase followed by addition of water to lyse the cells other than IMCD cells. To measure PI hydrolysis, the IMCD cells were incubated with [3H]inositol for its incorporation into PI before measurement of inositol phosphates (IP) released and accumulated in the presence of LiCl which prevents the dephosphorylation of IP. Carbachol (1 mM) produced greater than 16-fold increase in the release of IP (from 1.53 +/- 1.34% in control to 26.26 +/- 4.59% in drug-treated) in the isolated IMCD cells. The effect was concentration-dependent with an EC50 (50% maximum effective concentration) of 4 microM carbachol. Carbachol-stimulated PI hydrolysis was blocked completely by 1 microM atropine, a muscarinic antagonist, and not by 1 microM hexamethonium, a nicotinic antagonist. The nicotinic agonist, 1,1-dimethyl-4-phenylpiperazinium iodide (1 mM), had no significant effect on PI hydrolysis in the IMCD cells. We conclude that the stimulation of PI hydrolysis by cholinergic agents in the IMCD cells occurs through their interaction with muscarinic receptors and this process may play a role in the diuretic and natriuretic effects of these agents.
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PMID:Cholinergic stimulation of phosphoinositide hydrolysis in renal medullary collecting duct cells. 253 9


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