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1

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Properties of the luminal membrane of isolated perfused rat pancreatic ducts (1988)

Novak, I. ; Greger, R.

Springer

Pflügers Archiv 411 (1988), S. 546-553

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ISSN: 1432-2013

Keywords: Pancreas ; Isolated perfused ducts ; Luminal membrane ; Cl− conductance ; Cl−/HCO 3 − antiport ; cAMP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The aim of the present study was to investigate by what transport mechanism does HCO 3 − cross the luminal membrane of pancreatic duct cells, and how do the cells respond to stimulation with dibytyryl cyclic AMP (db-cAMP). For this purpose a newly developed preparation of isolated and perfused intra-and interlobular ducts of rat pancreas was used. Responses of the epithelium to inhibitors and agonists were monitored by electrophysiological techniques. Addition of HCO 3 − /CO2 to the bath side of nonstimulated ducts depolarized the PD across the basolateral membrane (PDbl) by about 9mV, as also observed in a previous study [21]. This HCO 3 − effect was abolished by Cl− channel blockers or SITS infused into the lumen of the duct: i. e. 5-nitro-2-(3-phenylpropylamino)-benzoic acid (NPPB, 10−5 M) hyperpolarized PDbl by 8.2±1.6 mV (n=13); 3′,5-dichlorodiphenylamine-2-carboxylic acid (DCl-DPC, 10−5 M) hyperpolarized PDbl by 10.3±1.7 mV (n=10); and SITS hyperpolarized PDbl by 7.8±0.9 mV (n=4). Stimulation of the ducts with dbcAMP in the presence of bath HCO 3 − /CO2 resulted in depolarization of PDbl, the ductal lumen became more negative and the fractional resistance of the luminal membrane decreased. Together with forskolin (10−6 M), db-cAMP (10−4 M) caused a fast depolarization of PDbl by 33.8±2.5 mV (n=6). When db-cAMP (5×10−4 M) was given alone in the presence of bath HCO 3 − /CO2, PDbl depolarized by 25.3±4.2 mV (n=10). In the absence of exogenous HCO 3 − , db-cAMP also depolarized PDbl by 24.7±3.0 mV (n=10). The present data suggest that in the luminal membrane of pancreatic duct cells there is a Cl− conductance in parallel with a Cl−/HCO 3 − antiport. Dibutyryl cyclic AMP increases the Cl− conductance of the luminal membrane. Taking together our present results, and the recent data obtained for the basolateral membrane [21], a tentative model for pancreatic HCO 3 − transport is proposed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00582376

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2

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Transmitter-induced changes of the membrane voltage of HT29 cells (1992)

Lohrmann, E. ; Cabantchik, Z. I. ; Greger, R.

Springer

Pflügers Archiv 421 (1992), S. 224-229

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ISSN: 1432-2013

Keywords: Cl− conductance ; HT29 ; P2 receptor ; Colon ; Cl− secretion ; cAMP

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The colonic carcinoma cell line HT29 was used to examine the influence of agonists increasing cytosolic cAMP and Ca2+ activity on the conductances and the cell membrane voltage (V m). HT29 cells were grown on glass cover-slips. Cells were impaled by microelectrodes 4–10 days after seeding, when they had formed large plaques. In 181 impalements V m was −51±1 mV. An increase in bath K+ concentration from 3.6 mmol/l to 18.6 mmol/l or 0.5 mmol/l Ba2+ depolarized the cells by 10±1 mV (n=49) or by 9±2 mV (n=3), respectively. A decrease of bath Cl− concentration from 145 to 30 mmol/l depolarized the cells by 11±1 mV (n=24). Agents increasing intracellular cAMP such as isobutylmethylxanthine (0.1 mmol/l), forskolin (10 μmol/l) or isoprenaline (10 μmol/l) depolarized the cells by 6±1 (n=13), 15±3 (n=5) and 6±2 (n=3) mV, respectively. In hypoosmolar solutions (225 mosmol/l) cells depolarized by 9±1 mV (n=6). Purine and pyrimidine nucleotides depolarized the cells dose-dependently with the following potency sequence: UTP 〉 ATP 〉 ITP 〉 GTP 〉 TIP 〉 CTP = 0. The depolarization by ATP was stronger than that by ADP and adenosine. The muscarinic agonist carbachol led to a sustained depolarization by 27±6 mV (n=5) at 0.1 mmol/l, and to a transient depolarization by 12±4 mV (n=5) at 10 μmol/l. Neurotensin depolarized with a half-maximal effect at around 5 nmol/l. The depolarization induced by nucleotides and neurotensin was transient and followed by a hyperpolarization. We confirm that HT29 cells possess Cl−- and K+-conductive pathways. The Cl− conductance is regulated by intracellular cAMP level, cytosolic Ca2+ activity, and cell swelling. The K+ conductance in HT29 cells is regulated by intracellular Ca2+ activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374831

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3

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cAMP-dependent activation of small-conductance Cl− channels in HT29 colon carcinoma cells (1992)

Kunzelmann, K. ; Grolik, M. ; Kubitz, R. ; [et al.]

Springer

Pflügers Archiv 421 (1992), S. 230-237

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ISSN: 1432-2013

Keywords: Cl− channels ; HT29 ; Isoproterenol ; α2 receptor ; cAMP ; Cell-attached nystatin ; Patch clamp

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The present study was performed to examine the conductance properties in the colon carcinoma cell line HT29 and the activation of Cl− channels by cAMP. A modified cell-attached nystatin patch-clamp technique was used, allowing for the simultaneous recording of the cell membrane potential (PD) and the conductance properties of the cell-attached membrane. In resting cells, PD was −56±0.4 mV (n=294). Changing the respective ion concentrations in the bath indicate that these cells possess a dominating K+ conductance and a smaller Cl− conductance. A significant non-selective cation conductance, which could not be inhibited by amiloride, was only observed in cells examined early after plating. The K+ conductance was reversibly inhibited by 1–5 mmol/l Ba2+. Stimulation of the cells by the secretagogues isoproterenol and vasointestinal polypeptide (VIP) depolarized PD and induced a Cl− conductance. Similar results were obtained with compounds increasing cytosolic cAMP: forskolin, 3-isobutyl-1-methylxanthine, cholera toxin and 8-bromoadenosine cyclic 3′,5′-monophosphate (8-Br-cAMP). VIP (1 nmol/l, n=10) and isoproterenol (1 umol/l, n=12) depolarized the cells dose-dependently and reversibly by 12±2 mV and 13±2 mV. The maximal depolarization was reached after some 20 s. The depolarization was due to increases in the fractional Cl− conductance. Simultaneously the conductance of the cellattached membrane increased from 155±31 pS to 253±40 pS (VIP, n=4) and from 170±43 pS to 268±56 pS (isoproterenol, n=11), reflecting the gating of Cl− channels in the cell-attached membrane. 5-Nitro-2-(3-phenylpropylamino)-benzoate (1 μmol/l) was without significant effects in resting and in forskolin-stimulated HT29 cells. The agonist-induced conductance increase of the cell-attached nystatin patches was not paralleled by the appearance of detectable single-channel events in these membranes. These data suggest activation of small, non-resolvable Cl− channels by cAMP.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374832

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4

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cAMP and Ca2+ act co-operatively on the Cl− conductance of HT29 cells (1992)

Allert, N. ; Leipziger, J. ; Greger, R.

Springer

Pflügers Archiv 421 (1992), S. 403-405

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ISSN: 1432-2013

Keywords: HT29 ; CFPAC-1 ; Cl− Secretion ; cAMP ; ATP ; Neurotensin

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Previous studies in HT29 cells have revealed that the Cl− channels induced by cAMP or by increasing cytosolic Ca2+, e.g. by addition of ATP, and by hypotonic cell swelling share in common all examined properties, such as ion selectivity and blocker sensitivity. In addition, it was shown that conductances induced by either pathway were not additive. Therefore all three pathways apparently act on the same type of small conductance Cl− channel. In CFPAC-1 cells the general properties of the Cl− conductance were identical. However, the cAMP response was absent. In both cell types the Ca2+-mediated conductance response was transient. Here we examine the kinetics of the conductance increases induced by neurotensin (NT, 10−8 mol/l) or ATP (10−5 mol/l) in HT29 and CFPAC-1 cells using the slow (nystatin) or fast whole cell patch clamp technique, and we ask whether cAMP influences these kinetics. In the continuous presence of NT the conductance response in both cell types was very transient. It collapsed with a time constant (τ) of 39 (30–56 s) in HT29 and of 33 (27–41 s) in CFPAC-1 cells. The ATP response was also transient with a τ of 49 (42–57 s) in HT29 cells and 102 (77–152 s) in CFPAC-1 cells. Pre-treatment by membrane permeable cAMP (10−3 mol/l) enhanced the baseline conductance in HT29 but not in CFPAC-1 cells. Furthermore, the ATP- and NT-induced conductance increases became significantly less transient in HT29 but not in CFPAC-1 cells. In the former cells τ was enhanced significantly to 207 (154–316 s) after ATP and to 1.533 (1004-∞ s) after NT. In CFPAC-1 cells the transient nature of the conductance response persisted. These data indicate that cAMP and Ca2+ co-operate in HT29- but not in CFPAC-1-cells. In the former cells the transient conductance response is converted into a more stable response by cAMP. In CFPAC-1 cells the cAMP-mechanism is not functioning. Therefore, all Ca2+-mediated conductance responses are only very transient.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374233

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5

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Small-conductance chloride channels induced by cAMP, Ca2+, and hypotonicity in HT29 cells: ion selectivity, additivity and stilbene sensitivity (1992)

Kubitz, R. ; Warth, R. ; Allert, N. ; [et al.]

Springer

Pflügers Archiv 421 (1992), S. 447-454

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ISSN: 1432-2013

Keywords: HT29 ; Cl−secretion ; Small-conductance ; Cl− channels ; cAMP ; ATP ; CFTR ; Patch clamp ; Nystatin method

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Previous studies in HT29 cells utilizing the cellattached nystatin (CAN) method [Greger R, Kunzelmann K (1991) Pflügers Arch 419:209–211] have revealed that the Cl− channels induced by cAMP or by increasing cytosolic Ca2+, e.g. by addition of ATP, and by hypotonic cell swelling share in common their conductance, which was so small in our studies [Kunzelmann et al. (1992) Pflügers Arch (in press)] that we could not resolve it at the single-channel level. This prompted the question whether these Cl− conductances can be distinguished in terms of their ion selectivity and sensitivity towards inhibitors. Whether these pathways are additive or not was also examined. The present study utilized the whole-cell patch-clamp and the CAN methods. A total of 160 patches were studied. In whole-cell patches 8-(4-chlorophenylthio)-cAMP (cAMP, 0.1±1 mmol/l) induced a significant depolarization by 5 mV and a twofold increase in conductance (G) from 6.2±1.5 nS to 11.7±3.2 nS (n=15). Total replacement of Cl− by Br− and I− in cAMP-treated cells hyperpolarized the membrane voltage (V) significantly from −35±2.8 to −39±3.4 and −45± 3.3 mV respectively, but had no detectable effect on G, which was 11.9±3.3 nS in the case of Br− and 11.8± 3.3 nS in the case of I−. Hence, the permselectivity of the cAMP pathway was I−〉Br−〉Cl−, but the conductances for these anions were all indistinguishable. For ATP at 10–100 μmol/l the depolarization was least with I−: from −41±1.1 to −36±2.4mV, intermediate for Br− to −25±1.6 mV, and largest for Cl− to −20±1.8 mV (n=18). ATP increased G from 3.4±0.3 nS to 12.9±2.8 nS (Cl−), to 12.9±2.8 nS (Br−) and to 12.9±2.7 (I−) (n=18). These data indicate that the ATP-induced anion channel has a permeability sequence of I−〉Br−〉Cl−. The conductance for all three anions was identical. Hypotonic cell swelling by 160 mosmol/l induced a depolarization that was smallest for I−, from −42±4 to −32±2.1 mV, intermediate for Br−: −29±1.8mV, and similar for Cl−: −28±2 mV (n=20). G was increased from 2.8±0.8 nS to 15±2.5nS in the case of Cl−, to 15±2.5 nS for Br− and to 16±2.6 nS for I− (n=20). Therefore, all three pathways are indistinguishable with respect to their anion selectivity. All three pathways are insensitive towards low concentrations of 4-nitro-2-(3-phenylpropylamino)benzoate, but are all blocked by 4,4′-diisothiocyanatostilbene-2,2′-disulphonic acid, with a half-maximal inhibition around 0.6 mmol/l. Finally, the possible additivity was examined in three permutations. ATP (0.1 mmol/l) alone (n=14) had a slightly but not significantly larger effect on conductance than the combination of ATP and cAMP (1 mmol/l, n=14) and the combination of ATP and hypotonicity (193 mosmol/l, n=13). Similarly, the effects of hypotonicity and cAMP (n=11) were not additive. These data indicate that all three pathways share common properties. Hence, it is suggested that all three pathways converge on the same small Cl− channel.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00370255

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The cAMP-regulated and 293B-inhibited K+ conductance of rat colonic crypt base cells (1996)

Warth, R. ; Riedemann, N. ; Bleich, M. ; [et al.]

Springer

Pflügers Archiv 432 (1996), S. 81-88

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ISSN: 1432-2013

Keywords: Key words Cl ; secretion ; K+ channel ; cAMP ; Exocrine secretion ; Chromanol ; Colonic crypt

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We have shown previously that secretagogues acting via the second messenger adenosine 3′,5′-cyclic monophosphate (cAMP) activate, besides their marked effect on the luminal Cl− conductance, a K+ conductance in the basolateral membrane of colonic crypt cells. This conductance is blocked by the chromanol 293B. This K+ conductance is examined here in more detail in cell-attached (c.a.) and cell-excised (c.e.) patch- clamp studies. Addition of forskolin (5 μmol/l) to the bath led to the activation of very small-conductance (probably 〈 3 pS) K+ channels in c.a. patches (n = 54). These channels were reversibly inhibited by the addition of 0.1 mmol/l of 293B to the bath (n = 21). Noise analysis revealed that these channels had fast kinetics and produced a Lorentzian noise component with a corner frequency ( f c) of 308 ± 10 Hz (n = 30). The current/voltage curves of this noise indicated that the underlying ion channels were K+ selective. 293B reduced the power density of the noise (S o) to 46 ± 8.7% of its control value and shifted f c from 291 ± 26 to 468 ± 54 Hz (n = 8). In c.e. patches from cells previously stimulated by forskolin, the same type of current persisted in 3 out of 18 experiments when the bath solution was a cytosolic-type solution without adenosine 5′-triphosphate (ATP) (CYT). In 15 experiments the addition of ATP (1 mmol/l) to CYT solution was necessary to induce or augment channel activity. In six experiments excision was performed into CYT + ATP solution and channel activity persisted. 293B exerted a reversible inhibitory effect. The channel activity was reduced by 5 mmol/l Ba2+ and was completely absent when K+ in the bath was replaced by Na+. These data suggest that forskolin activates a K+ channel of very small conductance which can be inhibited directly and reversibly by 293B.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050108

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7

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Small and intermediate conductance chloride channels in HT29 cells (1993)

Hansen, C. P. ; Roch, B. ; Kunzelmann, K. ; [et al.]

Springer

Pflügers Archiv 424 (1993), S. 456-464

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ISSN: 1432-2013

Keywords: Cl− channels ; Cl− secretion ; HT29 ; Ca2+ ; cAMP ; Protein kinase A ; Cytosolic inhibitor ; Cystic fibrosis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Recently, it has been shown that intermediate conductance outwardly rectifying chloride channels (ICOR) are blocked by cytosolic inhibitor (C. I.) found in the cytosol of human placenta and epithelial cells. C. I. also reduced the baseline current in excised membrane patches of HT29 cells. In the present study, this effect of C. I. was characterized further. Heat treated human placental cytosol was extracted in organic solvents and dissolved in different electrolyte solutions. It is shown that the reduction of baseline conductance (g o) is caused by inhibition of small non-resolvable channels, which are impermeable to Na+ and SO4 2−, but permeable to Cl−. The regulation of these small Cl−-conducting channels (g o) and of ICOR was examined further. First, no activating effects of protein kinase A (PKA) on the open probability (P o) of the ICOR or on the go) were observed. The Po of the ICOR was reduced by 22% in a Ca2+-free solution. g o was insensitive to changes in the Ca2+ activity. The effects of C. I. from a cystic fibrosis (CF) placenta and the CF pancreatic duct cell line CFPAC-1 were compared with the effects of corresponding control cytosols, and no significant differences between CF and control cytosols were found. We conclude that the excised patches of HT29 cells contain ICOR and small non-resolvable Cl−-conducting channels which are similarly inhibited by C. I. Apart from a weak effect of Ca2+ on the ICOR, g o and the ICOR do not seem to be directly controlled by Ca2+ or PKA. C. I. of normal and CF epithelia have a similar inhibitory potency on Cl− channels.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00374908

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The effect of secretagogues on ion conductances of in vitro perfused, isolated rabbit colonic crypts (1995)

Lohrmann, E. ; Greger, R.

Springer

Pflügers Archiv 429 (1995), S. 494-502

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ISSN: 1432-2013

Keywords: Cl− secretion ; cAMP ; K+ conductance ; Cl− conductance ; Diarrhoea

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Several secretagogues were used in this study, including those which enhance intracellular cyclic adenosine monophosphate (cAMP) production, as well as others which elevate intracellular Ca2+ activity and are known to increase Cl− secretion in the intact colon and in colonic carcinoma cell lines. They were examined with respect to their effects on electrophysiological properties in isolated rabbit distal colonic crypts. Crypts were dissected manually and perfused in vitro. Transepithelial voltage (V te), transepithelial resistance (R te), membrane voltage across the basolateral membrane (V bl), and fractional basolateral membrane resistance (FR bl), were estimated. Basolateral prostaglandin E2 (PGE2, ⩾0.1 μmol/l), vasoactive intestinal peptide (VIP, 1 nmol/l) and adenosine (0.1 mmol/l) induced an initial depolarisation and a secondary partial repolarisation of (V bl). In the case of adenosine, the initial depolarization of (V bl) was by 31±2 mV (n=47).R te fell significantly from 16.4±3.6 to 14.2±3.7 Ω·cm2 (n= 6), andFR blincreased significantly from 0.11±0.02 to 0.51±0.10 (n=6). In the second phase the repolarisation of (V bl) amounted 11±2 mV (n=47) and a steadystate (V bl) of −51±2 mV (n=47) was reached.R te fell further and significantly to a steady-state value of 12.4±3.8 Ω·cm2 (n=6) andFR bl fell significantly to 0.42±0.13 (n=6). In 30% of the experiments, a transient hyperpolarisation of (V bl) by 8±2 mV (n=14) was seen during wash out of adenosine. In the presence of adenosine, but not under control conditions, lowering of luminal Cl− concentration from 120 to 32 mmol/l depolarised (V bl) significantly by 8±1 mV (n=9). Basolateral ATP and ADP (0.1 mmol/l) led to a short initial depolarisation followed by a sustained and significant hyperpolarisation by 6±2 mV (n=27) and 5±4 mV (n=8), respectively. Carbachol (CCH) hyperpolarised (V bl) in a concentration-dependent manner. At 100 μmol/l (bath) the hyperpolarisation was by 14±2 mV (n=11) andFR bl fell slightly. Neurotensin (⩾10 nmol/l), isoproterenol (⩾10 μmol/l) and uridine 5′-triphosphate (UTP, 0.1 mmol/l) had no effect. It is concluded that PGE2, VIP and adenosine upregulate sequentially a luminal Cl− conductance and a basolateral K+ conductance by increasing intracellular cAMP concentration. Ca2+ mobilising hormones such as ATP, ADP, and CCH increase the basolateral K+ conductance, while the effect on luminal Cl− conductance appears to be very limited.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00704154

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Ca2+ regulated K+ and non-selective cation channels in the basolateral membrane of rat colonic crypt base cells (1996)

Bleich, M. ; Riedemann, N. ; Warth, R. ; [et al.]

Springer

Pflügers Archiv 432 (1996), S. 1011-1022

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ISSN: 1432-2013

Keywords: Key words Cl ; secretion ; Carbachol ; K+ channel ; cAMP ; Exocrine secretion ; Non-selective cation channel ; Cl ; channel

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We have previously shown that a new type of K+ channel, present in the basolateral membrane of the colonic crypt base (blm), is necessary for cAMP-activated Cl- secretion. Under basal conditions, and when stimulated by carbachol (CCH) alone, this channel is absent. In the present patch clamp-study we examined the ion channels present in the blm under cell-attached and in cell-excised conditions. In cell-attached recordings with NaCl-type solution in the pipette we measured activity of a K+ channel of 16 ± 0.3 pS (n = 168). The activity of this channel was sharply increased by CCH (0.1 mmol/l, n = 26). Reduction of extracellular Ca2+ to 0.1 mmol/l (n = 34) led to a reversible reduction of activity of this small channel (SKCa). It was also inactivated by forskolin (5 μmol/l, n = 38), whilst the K+ channel noise caused by the very small K+ channel increased. Activity of non-selective cation channels (NScat) was rarely observed immediately prior to the loss of attached basolateral patches and routinely in excised patches. The NScat, with a mean conductance of 49 ± 1.0 pS (n = 96), was Ca2+ activated and required 〉10 μmol/l Ca2+ (cytosolic side = cs). It was reversibly inhibited by ATP (〈1 mmol/l, n = 13) and by 3′,5-dichloro-diphenylamine-2-carboxylate (10–100 μmol/l, n = 5). SKCa was also Ca2+ dependent in excised inside-out basolateral patches. Its activity stayed almost unaltered down to 1 μmol/l (cs) and then fell sharply to almost zero at 0.1 μmol/l Ca2+ (cs, n = 12). SKCa was inhibited by Ba2+ (n = 31) and was charybdotoxin sensitive (1 nmol/l) in outside-out basolateral patches (n = 3). Measurements of the Ca2+ activity ([Ca2+]i) in these cells using fura-2 indicated that forskolin and depolarization, induced by an increase in bath K+ concentration to 30 mmol/l, reduced [Ca2+]i markedly (n = 8–10). Hyperpolarization had the opposite effect. The present data indicate that the blm of these cells contains a small-conductance Ca2+-sensitive K+ channel. This channel is activated promptly by very small increments in [Ca2+]i and is inactivated by a fall in [Ca2+]i induced by forskolin.

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URL: http://dx.doi.org/10.1007/s004240050229

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The role of cytosolic Ca2+ in the secretion of NaCl in isolated in vitro perfused rectal gland tubules of Squalus acanthias (1998)

Warth, R. ; Thiele, I. ; Bleich, M. ; [et al.]

Springer

Pflügers Archiv 436 (1998), S. 133-140

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ISSN: 1432-2013

Keywords: Key words Cl ; secretion ; Cl ; channels ; K+ channels ; cGMP ; cAMP ; Cytosolic Ca2+ ; Exocrine secretion

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In many exocrine glands cytosolic Ca2+ ([Ca2+]i) plays a pivotal role in stimulation-secretion coupling. In the rectal gland of the dogfish Squalus acanthias this appears not to be the case and it is believed that secretion is mainly controlled by the Cl– conductance of the luminal membrane. We have examined this question in a study of isolated in vitro perfused rectal gland tubules (RGT). Three types of measurements were performed: (1) measurements of [Ca2+]i by the fura-2 technique; (2) measurements of transepithelial electrical parameters, i.e. transepithelial voltage (V te), transepithelial resistance (R te), the equivalent short-circuit current (I sc) and the voltage across the basolateral membrane (V bl), and (3) whole-cell patch-clamp measurements of cellular voltage (V m), conductance (G m) and membrane capacitance (C m). The data indicates that carbachol (CCH) increases [Ca2+]i by increasing store release and Ca2+ influx. Other agonists, producing cytosolic cAMP, also increased [Ca2+] by enhancing Ca2+ influx. CCH hyperpolarized these cells and enhanced G m significantly. The effect of CCH on V te and I sc was most marked under control conditions and disappeared in RGT otherwise stimulated by agonists that lead to cAMP production. It is concluded that [Ca2+]i plays a major role in the stimulation of NaCl secretion in RGT by enhancing the basolateral K+ conductance. cAMP-producing agonists enhance [Ca2+]i by increased Ca2+ influx. CCH releases Ca2+ from respective stores. CCH, unlike the cAMP-producing agonists, only increases basolateral K+ conductance. It modulates secretion especially under conditions in which the cAMP pathway is not fully activated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050614

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