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Query: UNIPROT:P41181 (collecting duct)
 5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rat cortical collecting duct (CCD) exhibits high rates of NaCl reabsorption when stimulated by mineralocorticoid and antidiuretic hormone (ADH). The present study was undertaken to determine if there is significant transcellular Cl- movement across the principal cells of the rat CCD. CCDs were dissected from kidneys of rats that had been injected with deoxycorticosterone (5 mg, i.m.) 2-9 days prior to the experiment. The ducts were perfused in vitro with identical perfusing and bathing solutions, except that 200 pmol.l-1 ADH was added to the bathing solutions. The basolateral membrane voltage (PDbl) of principal cells was -77 +/- 1 mV and the luminal membrane voltage (PD1) was -68 +/- 1 mV (mean +/- SEM, n = 124). Separate impalements with single-barrelled Cl(-)-selective microelectrodes gave an apparent intracellular Cl- activity of principal cells of 17 +/- 2 mmol.l-1. Transepithelial PD and PDbl were unaffected by luminal furosemide, hydrochlorothiazide (HCT), 4-acetamido-4-isothiocyanostilbene2,2-disulphonic acid, (SITS), or the Cl- channel blocker 5-nitro-2-(3-phenylpropylamino)-benzoic acid (NPPB); bath addition of SITS or the Cl- channel blocker diphenylamino-2-carboxylic acid; or replacement of bath HCO3- by Cl-. The intracellular Cl- activity (a(cell)Cl) also remained unchanged with the addition of HCT, SITS or the Cl- channel blockers to either the perfusing or bathing solutions, or with replacement of the bathing solution HCO3-.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Principal cells of cortical collecting ducts of the rat are not a route of transepithelial Cl- transport. 227 16

Ochratoxin A (OTA) is a widespread nephrotoxin which causes porcine nephropathy and is supposed to have caused the human Balkan endemic nephropathy. We performed experiments in vivo and in vitro to elucidate the mechanism of OTA action in renal epithelium. Application of OTA to male Wistar rats [1.25 mumol/(kg.day)] for 6 days led to a reduction of glomerular filtration rate (to 63% of control), an increased fractional water (194% of control), Na+ (199% of control), K+ (147% of control) and Cl- (270% of control) excretion and an increased dependence of the osmole clearance on urine flow. Acute application of OTA to rats (3 mumol/kg) increased urinary pH from 6.0 +/- 0.2 to 6.6 +/- 0.1 and urinary NaCl excretion, but decreased titratable acid excretion to 47% of control. As these in vivo findings may be the result of an action of OTA beyond the proximal tubule ("postproximal") we investigated the effect of OTA on cultured Madin-Darby canine kidney (MDCK) cells, regarded as a model of collecting duct epithelium. In confluent monolayers formed by MDCK cells OTA reduced the number of domes in a dose-dependent manner and impaired the formation of a transepithelial Cl- gradient. Electrophysiological measurements in giant MDCK cells revealed that OTA blocks fractional anion conductance of the plasma membrane with an IC50 value of 30 +/- 5 nmol/l, unmasking OTA as a naturally occurring anion conductance blocker about 20-times more effective than the most potent synthetic blocker 5-nitro-2-(3-phenylpropyl-amino) benzoic acid (NPPB) (IC50 = 600 +/- 50 nmol/l).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ochratoxin A impairs "postproximal" nephron function in vivo and blocks plasma membrane anion conductance in Madin-Darby canine kidney cells in vitro. 813 57

On isolated inner medullary collecting duct (IMCD) cells of the rat kidney the capability of osmoregulatory adaptation was investigated in vitro. IMCD cells were isolated by differential centrifugation at 600 mOsm (268 mM NaCl) and subsequently exposed to hypotonic buffers (300 mOsm, 118 mM NaCl). The alterations of ion content and cell volume following this change in extracellular osmolarity were studied by electron probe microanalysis and determination of intracellular water. After swelling within 40 seconds to 152 +/- 15% of control (P < 0.001; N = 9) cell volume was restored after 15 minutes. This regulatory volume decrease (RVD) was observed irrespective whether extracellular osmolarity was changed by using NaCl or mannitol as the major osmolyte. During RVD the cells lost sodium (48 +/- 11%) and chloride (14 +/- 5%), and the potassium content remained nearly unchanged. Correspondingly, sodium and chloride concentrations were progressively lowered, whereas the potassium concentration changed only transiently. RVD was diminished by 10(-4) M NPPB, 10(-3) M SITS and in the absence of HCO3-. Twenty millimoles of ouabain or 5 mM barium also inhibited RVD with little additive effect. A total of 10(-3) M amiloride and 10(-4) M bumetanide showed no effect on the hypoosmotic volume response. The experiments show that in isolated IMCD cells exposed to hypotonic conditions, rapid reversible changes in cell volume and sustained alterations in cell inorganic ion content occur, and thereby transmembrane sodium and potassium gradients are maintained. Since the loss in inorganic electrolytes does not account for RVD, the major part of volume regulation seems to occur via changes in organic osmolytes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ion content and cell volume in isolated collecting duct cells: effect of hypotonicity. 823 Oct 23

The chloride conductance of inner medullary collecting duct cells (mIMCD-3 cell line) has been investigated using the whole cell configuration of the patch clamp technique. Seventy-seven percent of cells were chloride selective when measured with a NaCl-rich bathing solution and a TEACl-rich pipette solution. Seventy-five percent of chloride-selective cells (90/144) had whole cell currents which exhibited an outwardly-rectifying (OR) current-voltage (I/V) relationship, while the remaining cells exhibited a linear (L) I/V relationship. The properties of the OR and L chloride currents were distinct. OR currents (mean current densities at +/- 60 mV of 66 +/- 5 pA/pF and 44 +/- 3 pA/pF), were time- and voltage-independent with an anion selectivity (from calculated permeability ratios) of SCN- (2.3), NO3- (1.8), ClO4- (1.7), Br- (1.7), I- (1.6), Cl- (1.0), HCO3- (0.5), gluconate- (0.2). Bath additions of NPPB, flufenamate, glibenclamide (all 100 microM) and DIDS (500 microM) produced varying degrees of block of OR currents with NPPB being the most potent (IC50 of approximately 50 microM) while DIDS was the least effective. Linear chloride currents had similar current densities to the OR chloride currents and were also time- and voltage-independent. The anion selectivity sequence was SCN- (2.5), NO3- (1.9), Br- (1.4), I- (1.1), Cl- (1.0), ClO4- (0.5), HCO3- (0.5), gluconate- (0.3). In contrast to the OR conductance, glibenclamide was the most potent and DIDS the least potent blocker of L currents. An IC50 of > 100 microM was observed for NPPB block. Neither OR of L chloride currents were affected by acutely or chronically increased intracellular cAMP and were not affected when intracellular Ca2+ levels were increased or decreased. The molecular identity and physiological role of OR and linear currents in mIMCD-3 cells are discussed.
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PMID:Characterization of whole cell chloride conductances in a mouse inner medullary collecting duct cell line mIMCD-3. 882 25

In the present study we used whole-cell patch clamp recordings to investigate swelling-activated Cl-currents (ICl-swell) in M-1 mouse cortical collecting duct (CCD) cells. Hypotonic cell swelling reversibly increased the whole-cell Cl- conductance by about 30-fold. The I-V relationship was outwardly-rectifying and ICl-swell displayed a characteristic voltage-dependence with relatively fast inactivation upon large depolarizing and slow activation upon hyperpolarizing voltage steps. Reversal potential measurements revealed a selectivity sequence SCN- > I- > Br- > Cl- > > gluconate. ICl-swell was inhibited by tamoxifen, NPPB (5-nitro-2(3-phenylpropylamino)-benzoate), DIDS (4,4'-diisothiocyanostilbene-2,2'-disulphonic acid), flufenamic acid, niflumic acid, and glibenclamide, in descending order of potency. Extracellular cAMP had no significant effect. ICl-swell was Ca2+ independent, but current activation depended on the presence of a high-energy gamma-phosphate group from intracellular ATP or ATP gamma S. Moreover, it depended on the presence of intracellular Mg2+ and was inhibited by staurosporine, which indicates that a phosphorylation step is involved in channel activation. Increasing the cytosolic Ca2+ concentration by using ionomycin stimulated Cl- currents with a voltage dependence different from that of ICl-swell. Analysis of whole-cell current records during early onset of ICl-swell and during final recovery revealed discontinuous step-like changes of the whole-cell current level which were not observed under nonswelling conditions. A single-channel I-V curve constructed using the smallest resolvable current transitions detected at various holding potentials and revealed a slope conductance of 55, 15, and 8 pS at +120, 0, and -120 mV, respectively. The larger current steps observed in these recordings had about 2, 3, or 4 times the size of the putative single-channel current amplitude, suggesting a coordinated gating of several individual channels or channel subunits. In conclusion we have functionally characterized ICl-swell in M-1 CCD cells and have identified the underlying single channels in whole-cell current recordings.
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PMID:Cell swelling activates ATP-dependent voltage-gated chloride channels in M-1 mouse cortical collecting duct cells. 888 62

To further characterize the hypotonicity-activated efflux pathways for the organic osmolytes taurine and myo-inositol in inner medullary collecting duct (IMCD) cells tracer fluxes of taurine and myo-inositol were investigated. The time course of activation of both fluxes after exposure of cells isolated at 600 mosm to a hypotonic medium (300 mosm by omission of sucrose) was identical with a major increase of release within the first 10 min. All 'anion channel blockers' employed proved to be strong inhibitors of both fluxes. Inhibition of myo-inositol efflux by 0.5 mM NPPB and 0.1 mM dideoxyforskolin was not significantly different from that of taurine efflux (87.7 +/- 11.4 compared to 94.6 +/- 4.6% and 98.8 +/- 2.0 compared to 95.9 +/- 3.7%). However, SITS (0.5 and 0.01 mM), DIDS (0.5 and 0.01 mM), and niflumic acid (0.5 mM) inhibited myo-inositol efflux more strongly than taurine efflux. The respective values were 65.4 +/- 4 vs. 42.9 +/- 3.6% for 0.01 mM SITS, 65.7 +/- 4.2 vs. 45.8 +/- 2.0% for 0.01 mM DIDS, and 79.5 +/- 3.5 vs. 54.2 +/- 2.5% for 0.5 mM niflumic acid. Taurine as well as myo-inositol efflux were decreased to a similar extent by 10 mM extracellular ATP (26.9 +/- 6.3 vs. 29.8 +/- 17.7% inhibition), by 10 mM extracellular cAMP (52.8 +/- 9.8 vs. 60.1 +/- 17.2% inhibition) and by reduction of the intracellular ATP content employing 2-deoxy-D-glucose (31.9 +/- 5.9 vs. 40.4 +/- 13.6% inhibition). In polarized primary cell cultures taurine and myo-inositol were released during a hypotonic shock primarily across the basal-lateral membrane, the ratio of basolateral versus apical efflux was 4.1 for taurine and 3.9 for myo-inositol. Apical fluxes were more sensitive to 0.01 mM SITS or DIDS; this was particularly evident for apical myo-inositol efflux which was inhibited by 0.01 mM SITS by 84.1 +/- 5.9% compared to 43.5 +/- 13.1% inhibition of the basolateral efflux. Thus, taurine and myo-inositol efflux show to a great extent a similar cellular distribution, intracellular regulation and pharmacological inhibition profile. This similarity suggests that the two osmolytes share an efflux pathway that might be identical with the swelling-activated taurine conductance described previously. Additional minor pathways can, however, not be excluded.
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PMID:Hypotonicity-activated efflux of taurine and myo-inositol in rat inner medullary collecting duct cells: evidence for a major common pathway. 899 43

The presence of an electrogenic H+-ATPase has been described in the late distal tubule, a segment which contains intercalated cells. The present paper studies the electrogenicity of this transport mechanism, which has been demonstrated in turtle bladder and in cortical collecting duct. Transepithelial PD (Vt) was measured by means of Ling-Gerard microelectrodes in late distal tubule of rat renal cortex during in vivo microperfusion. The tubules were perfused with electrolyte solutions to which 2 x 10(-7) M bafilomycin or 4.6 x 10(-8) M concanamycin were added. No significant increase in lumen-negative Vt upon perfusion with these inhibitors as compared to control, was observed as well as when 10(-3) m amiloride, 10(-5) M benzamil or 3 mM Ba2+ were perfused alone or in combination. The effect of an inhibition of electrogenic H+ secretion, i.e., increase in lumen-negative Vt by 2-4 mV, was observed only when Cl- channels were blocked by 10(-5) M 5-nitro-2-(3-phenylpropylamino) benzoic acid (NPPB). This blocker also reduced the rate of bicarbonate reabsorption in this segment from 1.21 +/- 0.14 (n = 8) to 0.62 +/- 0.03 (8) nmol.cm-2.sec-1 as determined by stationary microperfusion and pH measurement by ion-exchange resin microelectrodes. These results indicate that: (i) the participation of the vacuolar H+ ATPase in the establishment of cortical late distal tubule Vt is minor in physiological conditions, but can be demonstrated after blocking Cl- channels, thus suggesting a shunting effect of this anion; and, (ii) the rate of H+ secretion in this segment is reduced by a Cl- channel blocker, supporting coupling of H+-ATPase with Cl- transport.
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PMID:Role of Cl- in electrogenic H+ secretion by cortical distal tubule. 915 60

The mechanism of acidification in the cortical distal tubule of mammalian kidney was analysed by "in vivo" microperfusion and using MDCK cells in culture, by electrophysiological and by cell pH microfluorescence techniques. An electrogenic effect of the vacuolar H(+)-ATPase, which has been localized to the intercalated cells of the cortical distal tubule (connecting segment and initial collecting duct) was only observed after blocking Cl- channels by NPPB. In MDCK cells, the recovery of cell pH after an acid pulse in Na(+)-free medium was also depressed by NPPB, indicating that Cl- ions have an important role in the function of H+ ATPase. The regulation by hormonal agents of distal H+ transport due to Na+/H+ exchange and to vacuolar H+ ATPase, was also studied by microperfusion and cell pH techniques. Angiotensin and vasopressin at picomolar concentrations stimulated both transport mechanisms in late distal tubule, and only Na+/H+ exchange in the early segment. In MDCK cells, cell pH recovery in the presence of Na+ was stimulated by picomolar concentrations of angiotensin and vasopressin, and inhibited by micromolar levels, both effects being reverted by micromolar ANP. Studies with specific antagonists suggest that the luminal effect of angiotensin is mediated by AT1 receptors, and of vasopressin by V1 receptors. There is evidence that cell Ca2+ may have an important regulatory role in the action of these hormones.
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PMID:Mechanisms and regulation of H+ transport in distal tubule epithelial cells. 926 82

Swelling-activated Cl(-) currents (I(Cl,swell)) have been characterized in a mouse renal inner medullary collecting duct cell line (mIMCD-K2). Currents activated by exposing the cells to hypotonicity exhibited characteristic outward rectification and time- and voltage-dependent inactivation at positive potentials and showed an anion selectivity of I(-) > Br(-) > Cl(-) > Asp(-). NPPB (100 microm) inhibited the current in a voltage independent manner, as did exposure to 10 microm tamoxifen and 500 microm niflumic acid (NFA). In contrast, DIDS (100 microm) blocked the current with a characteristic voltage dependency. These characteristics of I(Cl, swell) in mIMCD-K2 cells are essentially identical to those of heterologously expressed cardiac CLC-3. A defining feature of CLC-3 is that activation of PKC by PDBu inhibits the conductance. In mIMCD-K2 cells preincubation with PDBu (100 nm) prevented the activation of I(Cl,swell) by hypotonicity. However, PDBu inhibition of I(Cl,swell) was reversed after PDBu withdrawal, but this was refractory to subsequent PDBu inhibition. Activation of either the cystic fibrosis transmembrane conductance regulator (CFTR) or Ca(2+) activated Cl(-) conductance (CaCC), which are coexpressed in mIMCD-K2 cells prior to PDBu treatment, abolished the PDBu inhibition of I(Cl,swell). Control of I(Cl,swell) by PKC therefore depends on the physiological status of the cell. In intact mIMCD-K2 layers in Ussing chambers, forskolin stimulation of an inward short-circuit current (due to transepithelial Cl(-) secretion via apical CFTR) was inhibited by cell swelling upon hypotonic exposure at the basolateral surface. Activation of I(Cl,swell) is therefore capable of regulating transepithelial Cl(-) secretion and suggests that I(Cl,swell) is located at the basolateral membrane. PDBu exposure prior to or during hypotonic challenge was ineffective in reversing the swelling-activated inhibition of Cl(-) secretion, but tamoxifen (100 microm) abolished the hypotonic inhibition of forskolin-stimulated short-circuit current (I(sc)). RT-PCR analysis confirmed expression of mRNA for members of the CLC family, including both CLC-2 and 3, in the mIMCD-K2 cell line.
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PMID:The swelling-activated anion conductance in the mouse renal inner medullary collecting duct cell line mIMCD-K2. 1096 Jan 53

We have used perforated patch clamp and Fura-2 microfluorescence measurements to study Ca(2+)-activated Cl- currents in cultured mouse renal inner medullary collecting duct cells (mIMCD-3). The conductance was spontaneously active under resting conditions and whole cell currents were time and voltage-independent with an outwardly rectifying current-voltage relationship. The channel blockers DIDS, niflumic acid, glybenclamide and NPPB reversibly decreased the basal currents, whereas the sulfhydryl agent, DTT produced an irreversible inhibition. Increasing or decreasing extracellular calcium produced parallel changes in the size of the basal currents. Variations in external Ca2+ were associated with corresponding changes in free cytosolic Ca2+ concentration. Increasing cytosolic Ca2+ by extracellular ATP or ionomycin, further enhanced Cl- conductance, with whole cell currents displaying identical biophysical properties to the basal currents. However, the agonist-stimulated currents were now increased by DTT exposure, but still inhibited by the other channel blockers. Using RT-PCR, three distinct mRNA transcripts belonging to the CLCA family of Ca(2+)-activated Cl- channel proteins were identified, two of which represent novel sequences. Whether different channels underlie the basal and agonist-stimulated currents in mIMCD-3 cells is unclear. Our findings establish a novel link between alterations in external and internal Ca2+ and the activity of Ca(2+)-activated Cl- transport in these cells.
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PMID:Regulation of an outwardly rectifying chloride conductance in renal epithelial cells by external and internal calcium. 1128 3


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