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1.
Wei H  Mei YA  Sun JT  Zhou HQ  Zhang ZH 《Cell research》2003,13(1):21-28
Swelling-activated Cl^- currents,I(Cl,swell),were measured during hyposmotic shock in white Leghorn embryonic chick heart cells using the whole-cell recording of patch-clamp technique.Genistein,an inhibitor of protein tyrosine kinase(PTK),suppressed I(Cl,swell).Under isosmotic condition phorbol 12-myristate 13-actetate(PMA),and activator of PKC,elicited the Cl^- current similar to that in hyposmotic solution,whereas hyposmotic shock did not elicit I(Cl,swell) in chelerythrine chloride(an inhibitor of PKC)-treated cells,Confocal microscopy experiments using FITC-phalloidin as a fluorescent label of F-actin showed that the actin network was moved from cortical region of the cell to the center after hyposmotic shock as compared with the image under isosmotic condition,When the cells were treated with cytochalasin B(CB)or cytochalasin D(CD)under isosmotic condition the disruption of the F-actin integrity was observed,and I(C,l,swell). The results suggested that the role of PTK,probably receptor tyrosine kinase,for regulation of I(Cl,swell) appeared to be at upstream site related to the role of F-actin.Then PKC signal pathway was activated somehow and finally change in the polymerization state of cytoskeleton led to activate the swelling-activated Cl^- channels.These results demonstrate clearly that PTK,PKC and F-actin are important factors for regulation of I(Cl,swell),in embryonic chick heart cells as compared with often controversial results reported in different cell types.  相似文献   

2.
Whole-cell currents in mouse zygotes were measured using the patch-clamp technique in whole-cell mode. Upon exposure to hypotonic medium, patch-clamped zygotes increased in volume and developed a large swelling-activated current. The swelling-activated current was blocked by Cl- channel blockers, and the magnitude of the current and reversal potential were dependent on the Cl- gradient. Thus, the swelling-activated current had the properties of a current mediated by anion channels. However, in addition to being permeable to Cl- and I- (with I- having the greater permeability), there was also a significant swelling-activated conductance to aspartate and taurine, indicating that the swelling-activated channels in zygotes conduct not only inorganic anions but organic osmolytes as well. This swelling-activated anion and organic osmolyte pathway likely underlies the ability of zygotes to recover from an increase in volume, and it may function to regulate intracellular amino acid concentrations.  相似文献   

3.
We have used the whole-cell patch clamp recording technique to characterize a swelling-activated chloride current in guinea pig atrial and ventricular myocytes and to compare the electrophysiological and pharmacological properties of this current with the isoprenaline- activated chloride current in the same cell types. Osmotic swelling of guinea pig cardiac myocytes caused activation of an outwardly rectifying, anion-selective current with a conductance and permeability sequence of I- approximately NO3- > Br- > Cl- > Asp-. This current was inhibited by tamoxifen, 4,4''-diisothiocyano-stilbene-2,2''-disulphonate and anthracene-9-carboxylic acid, in decreasing order of potency. The isoprenaline-activated anion current, like the swelling-activated current, had a higher permeability to I- relative to Cl-, but it had a markedly reduced conductance for I- compared to Cl-. The isoprenaline- activated current was insensitive to inhibition by tamoxifen, 4,4''- diisothiocyanostilbene-2,2''-disulphonate and anthracene-9-carboxylic acid. The swelling-activated current could be elicited in > 90% atrial myocytes studied but only 34% ventricular myocytes. Conversely, the isoprenaline-activated current was elicited in < 10% atrial myocytes and > 90% ventricular myocytes. In those ventricular myocytes where it was possible to elicit swelling-activated and isoprenaline-activated currents simultaneously, the currents retained the same distinguishing characteristics as when they were elicited in isolation. Thus, while guinea pig atrial cells appear to preferentially express swelling- activated chloride channels and guinea pig ventricular myocytes preferentially express isoprenaline-activated chloride channels, the presence of these two channel types are not necessarily mutually exclusive. This raises the possibility that there may be coordinated regulation of the expression of different Cl- channels within the heart.  相似文献   

4.
We examined whether the increase in endothelial albumin permeability induced by alpha-thrombin is dependent on extracellular Ca2+ influx. Permeability of 125I-albumin across confluent monolayers of cultured bovine pulmonary artery endothelial cells was measured before and after the addition of 0.1 microM alpha-thrombin. In the presence of normal extracellular Ca2+ concentration ([Ca2+]o, 1000 microM), alpha-thrombin produced a 175 +/- 10% increase in 125I-albumin permeability. At lower [Ca2+]o (100, 10, 1, or less than 1 microM), alpha-thrombin caused a 140% increase in permeability (P less than 0.005). LaCl3 (1 mM), which competes for Ca2+ entry, blunted 38% of the increase in permeability. Preloading endothelial monolayers with quin2 to buffer cytosolic Ca2+ (Cai2+) produced a dose-dependent inhibition of the increase in 125I-albumin permeability. Preincubation with nifedipine or verapamil was ineffective in reducing the thrombin-induced permeability increase. A 60 mM K+ isosmotic solution did not alter base-line endothelial permeability. alpha-Thrombin increased [Ca2+]i in a dose-dependent manner and the 45Ca2+ influx rate. Extracellular medium containing 60 mM K+ did not increase 45Ca2+ influx, and nifedipine did not block the rise in 45Ca2+ influx caused by alpha-thrombin. Ca2+ flux into endothelial cells induced by alpha-thrombin does not occur through voltage-sensitive channels but may involve receptor-operated channels. In conclusion, the increase in endothelial albumin permeability caused by alpha-thrombin is dependent on Ca2+ influx and intracellular Ca2+ mobilization.  相似文献   

5.
The present study was designed to observe the properties of swelling-activated chloride channel (ICl.swell) in mouse cardiac myocytes using patch clamp techniques. In whole-cell recordings, hypotonic solution activated a chloride current that exhibited outward rectification, weak voltage-dependent inactivation, and anion selectivity with permeability sequence of I- > Br- > Cl-. The current was sensitive to Cl- channel blockers tamoxifen, NPPB and DIDS. In single-channel recordings, cell swelling activated a single channel current which showed outward rectification with open probability of 0.76 +/- 0.08 and conductance of 38.1 +/- 2.5 pS at +100 mV under [Cl-] symmetrical condition. I-V relation revealed the reversal potential as expected for a Cl(-)-selective channel. These results suggested that in mouse cardiac myocytes, swelling-activated, outward rectifying chloride channel with a single channel conductance of 38.1 +/- 2.5 pS (at +100 mV under [Cl-] symmetrical condition) underlies the volume regulatory Cl- channel.  相似文献   

6.
The ion selectivity of swelling-activated Cl- currents has been investigated in three different human epithelial cell lines, two derived from the airway epithelium (9HTEo- and CFNPE9o-) and one from a colon carcinoma (T84). The relative permeability of volume-sensitive currents with respect to Cl- is: I- (1.19) greater than NO3- (1.07) approximately Br-(1.05) greater than Cl-(1.0) greater than F-(0.5) approximately HCO3-(0.48) greater than isethionate(0.28) greater than aspartate (0.14) approximately gluconate(0.13) approximately SO4(2-)(0.12). This type of ion selectivity is similar to that described for depolarization-activated outwardly rectifying Cl- channels found in epithelial cells.  相似文献   

7.
Chloride channels activated by osmotic stress in T lymphocytes   总被引:17,自引:5,他引:12  
We have used whole-cell and perforated-patch recording techniques to characterize volume-sensitive Cl- channels in T and B lymphocytes. Positive transmembrane osmotic pressure (intracellular osmolality > extracellular osmolality) triggers the slow induction of a Cl- conductance. Membrane stretch caused by cellular swelling may underlie the activation mechanism, as moderate suction applied to the pipette interior can reversibly oppose the induction of Cl- current by an osmotic stimulus. Intracellular ATP is required for sustaining the Cl- current. With ATP-free internal solutions, the inducibility of Cl- current declines within minutes of whole-cell recording, while in whole- cell recordings with ATP or in perforated-patch experiments, the current can be activated for at least 30 min. The channels are anion selective with a permeability sequence of I- > SCN- > NO3-, Br- > Cl- > MeSO3- > acetate, propionate > ascorbate > aspartate and gluconate. GCl does not show voltage- and time-dependent gating behavior at potentials between -100 and +100 mV, but exhibits moderate outward rectification in symmetrical Cl- solutions. Fluctuation analysis indicates a unitary chord conductance of approximately 2 pS at -80 mV in the presence of symmetrical 160 mM Cl-. The relationship of mean current to current variance during the osmotic activation of Cl- current implies that each cell contains on the order of 10(4) activatable Cl- channels, making it the most abundant ion channel in lymphocytes yet described. The current is blocked in a voltage-dependent manner by DIDS and SITS (Ki = 17 and 89 microM, respectively, at +40 mV), the degree of blockade increasing with membrane depolarization. The biophysical and pharmacological properties of this Cl- channel are consistent with a role in triggering volume regulation in lymphocytes exposed to hyposmotic conditions.  相似文献   

8.
C Mulle  D Choquet  H Korn  J P Changeux 《Neuron》1992,8(1):135-143
The Ca2+ permeability of a nicotinic acetylcholine receptor (nAChR) in the rat CNS was determined using both current and fluorescence measurements on medial habenula neurons. The elementary slope conductance of the nAChR channel was 11 pS in pure external Ca2+ (100 mM) and 42 pS in standard solution. Ca2+ influx through nAChRs resulted in the rise of cytosolic Ca2+ concentration ([Ca2+]i) to the micromolar range. This increase was maximal under voltage conditions (below -50 mV) in which Ca2+ influx through voltage-activated channels was minimal. Ca2+ influx through nAChRs directly activated a Ca(2+)-dependent Cl- conductance. In addition, it caused a decrease in the GABAA response that outlasted the rise in [Ca2+]i. These results underscore the physiological significance of Ca2+ influx through nAChR channel in the CNS.  相似文献   

9.
The theory of Na+ recirculation for isosmotic fluid absorption follows logically from Hertz's convection-diffusion equation applied to the exit of water and solutes from the lateral intercellular space. Experimental evidence is discussed indicating Na+ recirculation based upon the following approaches: (i) An isotope tracer method in small intestine. Simultaneous measurement of water flow and ion transport in toad skin epithelium demonstrating, (ii) occasional hyposmotic absorbates, and (iii) reduced fluid absorption in the presence of serosal bumetanide. (iv) Studies of the metabolic cost of net Na+ absorption demonstrating an efficiency that is lower than the 18 Na+ per O2 consumed given by the stoichiometry of the Na+/K+-pump. Mathematical modeling predicts a significant range of observations such as isosmotic transport, hyposmotic transport, solvent drag, anomalous solvent drag, the residual hydraulic permeability in proximal tubule of AQP1(-/-) mice, the adverse relationship between hydraulic permeability and the concentration difference needed to reverse transepithelial water flow, and in a non-contradictory way the wide range of metabolic efficiencies from above to below 18 Na+/O2. Certain types of observations are poorly or not at all reproduced by the model. It is discussed that such lack of agreement between model and experiment is due to cellular regulations of ion permeabilities that are not incorporated in the modeling. Clarification of these problems requires further experimental studies.  相似文献   

10.
We investigated the role of taurine in cell homeostasis and characterized the taurine transport pathway in cultured kidney cells (A6). The taurine concentration in A6 cells varies with the osmolarity of the culture medium, suggesting that taurine participates in cell osmolarity. Under isosmotic conditions, 14C-taurine efflux through the apical membranes (aJtaur) was 6-7 times lower than that through the basolateral membranes (bJtaur). Under hyposmotic conditions, aJtaur remained almost unchanged. On the contrary, bJtaur increased 8 times in comparison with isosmotic conditions. In hyposmotic conditions, bJtaur was inhibited by 500 microM DIDS, 50 microM NPPB, 10 microM of the two oxonol derivatives DISBAC(2)3 and WW-791, and 100 microM ketoconazole. Conversely, 100 microM 1,9-dideoxyforskolin, 10 microM tamoxifen, 100 microM niflumic acid and 50 microM verapamil had no inhibitory effects. Cell volume regulation upon hyposmotic stress was also found to be inhibited by DISBAC(2)3 (K0.5 of 5+/-1 microM) and by ketoconazole. Nystatin was used to permeabilize the apical membranes with the aim to further characterize bJtaur. 14C-taurine transepithelial fluxes in nystatin-treated cells were found to be linear over taurine concentrations ranging from 3.5 microM to 35 mM. Clamping the transepithelial voltage at positive values (serosal side) slightly stimulated the 14C-taurine transport. Similar time courses of 14C-taurine, 36Cl and 86Rb transepithelial fluxes were found under osmotic stimulation followed by DIDS inhibition in nystatin-treated cells. In whole cell patch-clamp experiments, DISBAC(2)3 application resulted in a strong and reversible decrease of the global Cl- current which was stimulated by hyposmotic stress. Our study indicates that taurine participates in the control of A6 cell osmolarity and that the transporting taurine pathway (efflux) is on the basolateral membranes. In addition to usual chloride channel blockers, oxonol was found to be a potent blocker of the taurine transport and of the swelling-activated chloride current. Using a pharmacological approach, we could not distinguish between a common or different pathway for Cl- and taurine.  相似文献   

11.
12.
P2Y receptor regulation of anion secretion was investigated in porcine endometrial gland (PEG) epithelial cells. P2Y2, P2Y4, and P2Y6 receptors were detected in monolayers of PEG cells and immunocytochemistry indicated that P2Y4 receptors were located in the apical membrane. Apical membrane current measurements showed that Ca2+-dependent and PKC-dependent Cl- channels were activated following treatment with uridine triphosphate (UTP) (5 microM). Current-voltage relationships comparing calcium-dependent and PKC-dependent UTP responses under biionic conditions showed significant differences in selectivity between Cl-)and I- for the PKC-dependent conductance (P(I)/P(Cl) = 0.76), but not for Ca2+-dependent conductance (PI/P(Cl) = 1.02). The I-/Cl- permeability ratio for the PKC-dependent conductance was identical to that measured for 8-cpt cAMP. Furthermore, PKC stimulation using phorbol 12-myristate 13-acetate (PMA) activated an apical membrane Cl- conductance that was blocked by the CFTR selective inhibitor, CFTRinh-172. CFTR silencing, accomplished by stable expression of small hairpin RNAs (shRNA), blocked the PKC-activated conductance associated with UTP stimulation and provided definitive evidence of a role for CFTR in anion secretion. CFTR activation increased the initial magnitude of Cl- secretion, and provided a more sustained secretory response compared to conditions where only Ca2+-activated Cl- channels were activated by UTP. Measurements of [cAMP]i following UTP and PMA stimulation were not significantly different than untreated controls. Thus, these results demonstrate that UTP and PMA activation of CFTR occurs independently of increases in intracellular cAMP and extend the findings of earlier studies of CFTR regulation by PKC in Xenopus oocytes to a mammalian anion secreting epithelium.  相似文献   

13.
The localization of several GTP-binding regulatory proteins in teh apical membrane of intestinal epithelial cells has prompted us to investigate a possible role for G-proteins as modulators of apical Cl- channels. In membrane vesicles isolated from rat small intestine or human HT29-cl.19A colon carcinoma cells, the entrapment of guanosine 5'-O-(3-thiophosphate (GTP gamma S) led to a large increase in Cl- conductance, as evidenced by an increased 125I- uptake and faster SPQ quenching. The enhancement was observed in the presence, but not in the absence of the K+ ionophore valinomycin, indicating that the increased Cl- permeability is not secondary to the opening of K+ channels. The effect of GTP gamma S was counteracted by guanosine 5'-O-(2-thiophosphate (GDP beta S) and appeared to be independent of cytosolic messengers, including ATP, cAMP, and Ca2+, suggesting that protein phosphorylation and/or phospholipase C activation is not involved. Patch clamp analysis of apical membrane patches of HT29-cl.19A colonocytes revealed a GTP gamma S-activated, inwardly rectifying, anion-selective channel with a unitary conductance of 20 +/- 4 pS. No spontaneous channel openings were observed in the absence of GTP gamma S, while the open time probability (Po) increases dramatically to 0.81 +/- 0.09 upon addition with GTP gamma S. Since the electrophysiological characteristics and regulatory properties of this channel are markedly different from those of the more widely studied cAMP/protein kinase A-operated channel, we propose the existence of a separate Cl(-)-selective ion channel in the apical border of intestinal epithelial cells. Our results suggest an alternative regulatory pathway in transepithelial salt transport and a possible site for anomalous channel regulation as observed in cystic fibrosis patients.  相似文献   

14.
Amino acids play a role as osmolytes during the regulatory volume decrease subsequent to hyposmotic swelling, but less is known about its role when swelling occurs in isosmotic conditions. In this work we examined the efflux of labelled GABA, taurine and glutamate (traced as D-aspartate) from the chick retina, after isosmotic swelling evoked by KCl-containing solutions, and compared its features to those in hyposmotic swelling. In both conditions, GABA and taurine efflux were more sensitive to swelling than glutamate, as assessed by the activation threshold and the amount released. The amino acid efflux in hyposmotic media was decreased by DIDS, tamoxifen and NPPB, agents acting as Cl channels blockers, which also inhibit the osmosensitive Cl efflux. The component associated with swelling in the KCl-stimulated efflux was assessed by the reduction observed when Cl is replaced by an impermeant anion, or by the influence of hyperosmotic media. GABA and taurine efflux exhibited a large swelling-dependent component, which was lower for D-aspartate. This component was markedly decreased by NPPB, but this was due to an effect of the blocker preventing swelling. These results suggest that the influx of Cl, acting as K counterion, which is responsible for cell swelling, occurs through a pathway sensitive to NPPB, similarly to that activated by hyposmolarity. This finding may be of interest in studies aiming at preventing the cell edema which occurs in a number of pathologies.  相似文献   

15.
Li J  Wang MH  Wang L  Tian Y  Duan YQ  Luo HY  Hu XW  Hescheler J  Tang M 《生理学报》2008,60(2):181-188
本文旨在探讨低渗和高渗内环境对心肌收缩性的影响及机制.取Sprague-Dawley(SD)大鼠左心室乳头状肌,在电刺激引起兴奋的条件下,分别记录在低渗、等渗和高渗灌流液中肌条的收缩力;同样条件下观察在低渗、等渗和高渗灌流液中加入渗透压敏感蛋白瞬时感受器电位离子通道家族香草素受体亚家族IV型(transient receptor potential vanilloid 4,TRPV4)的拮抗剂和激动剂后肌条收缩力的变化.结果显示:(1)与等渗(310 mOsm/L)时心肌收缩力相比,渗透压为290、270和230 mOsm/L时心肌收缩力分别增加11.5%、21.5%、25.O%(P<0.05);渗透压为350、370、390 mOsm/L时心肌收缩力分别降低16.0%、23.7%、55.2%(P<0.05).(2)在低渗液(270 mOsm/L)中加入TRPV4拮抗剂钌红(ruthenium red,RR),低渗对心肌收缩力的增强作用被抑制36%(P<0.01);在高渗液(390 mOsm/L)中加入RR,高渗对心肌收缩力的抑制作用增加56.1%(P<0.01).(3)在等渗液中(310 mOsm/L)加入TRPV4激动剂4-α-佛波醇-12,13-二癸酸(4-α-phorbol-12,13-didecanoate,4 α-PDD),心肌收缩力没有改变;在高渗液中(390 mOsm/L)加入4α-PDD,高渗对心肌收缩力的抑制作用增加27.1%(P<0.01).以上结果提示,TRPV4参与渗透压引起的心肌收缩力变化.  相似文献   

16.
Volume regulation is essential for cell function, but it is unknown which channels are involved in a regulatory volume decrease (RVD) in human gastric epithelial cells. Exposure to a hypotonic solution caused the increase in AGS cell volume, followed by the activation of a current. The reversal potential of the swelling-induced current suggested that Cl- was the primary charge carrier. The selectivity sequence for different anions was I- > Br- > Cl- > F- > gluconate. This current was inhibited by flufenamate, DIDS, tamoxifen, and 5-nitro-2-(3-phenylpropylamino)benzoate. Intracellular dialysis of three different anti-ClC-3 antibodies abolished or attenuated the Cl- current and disrupted RVD, whereas the current and RVD was unaltered by anti-ClC-2 antibody. Immunoblot studies demonstrated the presence of ClC-3 protein in Hela and AGS cells. RT-PCR analysis detected expression of ClC-3, MDR-1, and pICln mRNA in AGS cells. These results suggest a fundamental role of endogenous ClC-3 in the swelling-activated Cl- channels function and cell volume regulation in human gastric epithelial cells.  相似文献   

17.
A novel, small conductance of Cl- channel was characterized by incorporation into planar bilayers from a plasma membrane preparation of lobster walking leg nerves. Under conditions of symmetrical 100 mM NaCl, 10 mM Tris-HCl, pH 7.4, single Cl- channels exhibit rectifying current-voltage (I-V) behavior with a conductance of 19.2 +/- 0.8 pS at positive voltages and 15.1 +/- 1.6 pS in the voltage range of -40 to 0 mV. The channel exhibits a negligible permeability for Na+ compared with Cl- and displays the following sequence of anion permeability relative to Cl- as measured under near bi-ionic conditions: I- (2.7) greater than NO3- (1.8) greater than Br- (1.5) greater than Cl- (1.0) greater than CH3CO2- (0.18) greater than HCO3- (0.10) greater than gluconate (0.06) greater than F- (0.05). The unitary conductance saturates with increasing Cl- concentration in a Michaelis-Menten fashion with a Km of 100 mM and gamma max = 33 pS at positive voltage. The I-V curve is similar in 10 mM Tris or 10 mM HEPES buffer, but substitution of 100 mM NaCl with 100 mM tetraethylammonium chloride on the cis side results in increased rectification with a 40% reduction in current at negative voltages. The gating of the channel is weakly voltage dependent with an open-state probability of 0.23 at -75 mV and 0.64 at +75 mV. Channel gating is sensitive to cis pH with an increased opening probability observed for a pH change of 7.4 to 11 and nearly complete inhibition for a pH change of 7.4 to 6.0. The lobster Cl- channel is reversibly blocked by the anion transport inhibitors, SITS (4-acetamido, 4'-isothiocyanostilbene-2,2'-disulfonic acid) and NPPB (5-nitro-2-(3-phenylpropylamino)benzoic acid). Many of these characteristics are similar to those previously described for small conductance Cl- channels in various vertebrate cells, including epithelia. These functional comparisons suggest that this invertebrate Cl- channel is an evolutionary prototype of a widely distributed class of small conductance anion channels.  相似文献   

18.
Cui YF  Li L  Yu YC  Jin ZY  Li ZL  Xu WX 《生理学报》2003,55(1):96-100
利用全细胞膜片钳技术在急性分离的胃窦平滑肌细胞上记录离子电流的方法 ,探讨外源性不饱和脂肪酸是否参与低渗牵张加强毒蕈碱电流的过程。在豚鼠胃窦平滑肌细胞上膜电位被钳制在 - 2 0 0mV等渗状态时 ,5 0 μmol/L卡巴胆碱 (carbachol,CCh)引起的毒蕈碱电流 (ICCh)作为对照 ,发现低渗牵张可以使ICCh明显增加到对照的 2 2 6 0±2 1 0 %。当用含 5 μmol花生四烯酸 (arachidacid ,AA)、亚麻酸 (linoleicacid ,LA)或亚油酸 (oleicacid,OA)细胞外液灌流时 ,ICCh分别被抑制在对照的 3 8± 0 6%、3 5 2± 0 8%和 66 6± 0 6%。在这种情况下 ,低渗牵张刺激可以使ICCh分别增加到 10 6 0± 2 5 %、173 2± 6 8%和 2 2 2 1± 11 0 %。 5 μmol/LAA抑制低渗牵张增加的毒蕈碱电流 5 1 2± 3 8% ,而在等渗状态下抑制ICCh为 96 2± 1 6%。上述结果提示 ,不饱和脂肪酸中双键数目越多 ,抑制效应越强 ;但不饱和脂肪酸不参与低渗刺激加强毒蕈碱电流的过程。  相似文献   

19.
Summary Solution osmolarity is known to affect Na+ transport rates across tight epithelia but this variable has been relatively ignored in studies of cultured renal epithelia. Using electrophysiological methods to study A6 epithelial monolayers, we observed a marked effect of solution tonicity on amiloride-sensitive Na+ currents (I sc).I sc for tissues bathed in symmetrical hyposmotic (170 mOsm), isosmotic (200 mOsm), and hyperosmotic (230 or 290 mOsm) NaCl Ringer's solutions averaged 25±2, 9±2, 3±0.4, and 0.6±0.5 A/cm2, respectively. Similar results were obtained following changes in the serosal tonicity; mucosal changes did not significantly affectI sc. The changes inI sc were slow and reached steady-state within 30 min. Current fluctuation analysis measurements indicated that single-channel currents and Na+ channel blocker kinetics were similar for isosmotic and hyposmotic conditions. However, the number of conducting Na+ channels was approximately threefold higher for tissues bathed in hyposmotic solutions. No channel activity was detected during hyperosmotic conditions. The results suggest that Na+ channels in A6 epithelia are highly sensitive to relatively small changes in serosal solution tonicity. Consequently, osmotic effects may partly account for the large variability in Na+ transport rates for A6 epithelia reported in the literature.  相似文献   

20.
A large percentage (up to 70%) of 36Cl- influx in brush-border membrane vesicles from rat small intestine under equilibrium exchange conditions was found to be mediated by SITS-inhibitable anion exchange. This Cl-/anion exchange could be measured 10-15-times more sensitive by determining the uptake of trace amounts of 125I- driven by a large Cl- gradient (in greater than out) generated by passing the vesicles through an anion-exchange column. Voltage clamping of the vesicle membrane with K+ and valinomycin did not effect the chloride driven 125I- uptake, showing that the 'overshooting' I- uptake was not mediated by an electrical diffusion potential, as might be generated by the Cl- gradient in the presence of a chloride channel. The Cl-/anion exchange was further characterized in brush-border membrane vesicles from both rat ileum and jejunum by studying the inhibitory action of various anions on the Cl- driven I- uptake. NO3-, Cl-, SCN- and formate at 2 mM could inhibit Cl-/I- exchange for more than 80%. The ileal brush-border membrane vesicles displayed a clear heterogeneity with respect to the inhibitory action of SO2-(4), SITS and HCO-3 on Cl-/I- exchange. Approximately 30% of the Cl-/I- exchange was insensitive to SO2-(4) and showed a relatively low sensitivity to SITS (IC50 = 1 mM) but could be inhibited for 80% by 2 mM HCO-3. Presumably this component represents Cl-/OH- or Cl-/HCO-3 exchange. The residual 70% showed a high sensitivity to SO2-(4) (IC50 = 0.5 mM) and SITS (IC50 = 2.5 microM) but was less sensitive to HCO-3. This part of the exchange activity showed inhibition characteristics very similar to the Cl-/I- exchange in the jejunal vesicles. The latter process was also inhibited for 80% by 2 mM oxalate. As discussed in this paper both exchangers may be involved in the electroneutral transport of NaCl across the apical membrane of the small intestinal villus cell.  相似文献   

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