Nystatin as a probe for investigating the electrical properties of a tight epithelium.

Lewis, Simon A.; Eaton, Douglas C.; Clausen, Chris; Diamond, Jared M.

doi:10.1085/jgp.70.4.427

Cited by 162 publications

(117 citation statements)

References 18 publications

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“…In the first phase the TEV hyperpolarized, the conductance and I sc increased, and the C T increased to ϳ100% over starting values ( Figure 4A). Because ion transport across the apical membrane of the umbrella cell is the primary contributor to transepithelial conductance (Lewis et al, 1977), and because C T increased, the changes we observed in phase 1 likely reflected increased ion transport and membrane traffic at the apical plasma membrane domain of the umbrella cells. During the second phase of outward bowing the C T , I sc , and TEV rapidly reversed course ( Figure 4A).…”

Section: Umbrella Cell Electrophysiological Properties Are Sensitive mentioning

confidence: 83%

Distinct Apical and Basolateral Membrane Requirements for Stretch-induced Membrane Traffic at the Apical Surface of Bladder Umbrella Cells

Khandelwal²,

Apodaca

2009

MBoC

127

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Epithelial cells respond to mechanical stimuli by increasing exocytosis, endocytosis, and ion transport, but how these processes are initiated and coordinated and the mechanotransduction pathways involved are not well understood. We observed that in response to a dynamic mechanical environment, increased apical membrane tension, but not pressure, stimulated apical membrane exocytosis and ion transport in bladder umbrella cells. The exocytic response was independent of temperature but required the cytoskeleton and the activity of a nonselective cation channel and the epithelial sodium channel. The subsequent increase in basolateral membrane tension had the opposite effect and triggered the compensatory endocytosis of added apical membrane, which was modulated by opening of basolateral K ؉ channels. Our results indicate that during the dynamic processes of bladder filling and voiding apical membrane dynamics depend on sequential and coordinated mechanotransduction events at both membrane domains of the umbrella cell.

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Section: Umbrella Cell Electrophysiological Properties Are Sensitive mentioning

confidence: 83%

Distinct Apical and Basolateral Membrane Requirements for Stretch-induced Membrane Traffic at the Apical Surface of Bladder Umbrella Cells

Khandelwal²,

Apodaca

2009

MBoC

127

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“…Indeed, recent work has shown that ENaC can be rapidly controlled via changes in internal [Na ϩ ] and [Cl Ϫ ] (8,22), and it is very unlikely that such ionic control of G Na ϩ (8,22) would be detected in studies of basolaterally permeabilized cells. In this experimental situation, transient changes in internal ionic composition may occur as apical conductances are activated, but the relatively large volume of the external solution implies that such changes would be rapidly compensated for by ions entering/leaving the cytoplasm via the permeabilized membrane (21). The present estimates of G Na ϩ were thus made under relatively constant ionic conditions.…”

Section: Discussionmentioning

confidence: 99%

“…These compounds form pores in cholesterol-containing membranes that are permeable to Na ϩ , K ϩ , and Cl Ϫ but not to divalent cations or highermolecular-weight substances and thus allow experimental control over the cytoplasmic [Na ϩ ], [K ϩ ], and [Cl Ϫ ], whereas intracellular Ca 2ϩ is regulated by the normal, physiological mechanisms. Because the pores formed by amphotericin B have a higher Cl Ϫ conductance than do those formed by nystatin (13,21), the former compound was used to make measurements of GClϪ.…”

Section: Isolation and Culture Of Rat Fetal Distal Lung Epithelial Cementioning

confidence: 99%

“…Basolateral [Cl Ϫ ] was thus raised to 49 mM by isosmotically replacing gluconate without affectQuantification of Na ϩ pump capacity. The method used to determine the capacity of the basolateral Na ϩ pump is described elsewhere (21,36), and so only brief details are presented here. Epithelial monolayers were mounted in Ussing chambers, bathed with the standard physiological solution (i.e., high Na ϩ ), and treated with apical amiloride (10 M) to block the Na ϩ channels in this membrane, which was then permeabilized using nystatin (75 M).…”

Section: Isolation and Culture Of Rat Fetal Distal Lung Epithelial Cementioning

confidence: 99%

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β-Adrenoceptor-mediated control of apical membrane conductive properties in fetal distal lung epithelia

Collett

Ramminger

Olver

et al. 2002

American Journal of Physiology-Lung Cellular and Molecular Phys

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Distal lung epithelial cells isolated from fetal rats were cultured (48 h) on permeable supports so that transepithelial ion transport could be quantified electrometrically. Unstimulated cells generated a short-circuit current (Isc) that was inhibited (ϳ80%) by apical amiloride. The current is thus due, predominantly, to the absorption of Na ϩ from the apical solution. Isoprenaline increased the amiloride-sensitive Isc about twofold. Experiments in which apical membrane Na ϩ currents were monitored in basolaterally permeabilized cells showed that this was accompanied by a rise in apical Na ϩ conductance (GNaϩ). Isoprenaline also increased apical Cl Ϫ conductance (GClϪ) by activating an anion channel species sensitive to glibenclamide but unaffected by 4,4Ј-diisothiocyanatostilbene-2,2Ј-disulfonic acid (DIDS). The isoprenaline-evoked changes in G Na ϩ and GClϪ could account for the changes in Isc observed in intact cells. Glibenclamide had no effect upon the isoprenaline-evoked stimulation of I sc or GNaϩ demonstrating that the rise in GClϪ is not essential to the stimulation of Na ϩ transport. alveolar ion transport; Ussing chambers; permeabilized epithelia THROUGHOUT FETAL LIFE the distal lung epithelia secrete fluid into the developing air spaces (31) and establish a distending pressure that is crucial to lung morphogenesis (11). However, this liquid must be removed from the lungs if the newborn infant is to breathe at birth. The absorption of this liquid occurs during the final stages of gestation and is dependent upon the active withdrawal of Na ϩ from the lung lumen, a process that can be controlled via ␤-adrenoceptors (23,30,(36)(37)(38). The means by which this control is achieved are not fully understood, but there is evidence that the process involves a rise in apical Na ϩ conductance (G Na ϩ) (15,20). It is also known that ␤-adrenoceptor agonists can increase apical Cl Ϫ conductance (G Cl Ϫ) in these cells, and it has been suggested that this may facilitate Na ϩ transport by increasing the driving force for Na ϩ entry (16,29). It is, however, difficult to see how the ionic gradients that normally prevail in epithelial cells could allow Na ϩ transport to be controlled in this way (see Refs. 20,44). To clarify the means by which ␤-adrenoceptor agonists can control Na ϩ absorption in the distal lung epithelia, we now explore the effects of isoprenaline upon the conductive properties of the apical membrane. METHODS Isolation and culture of rat fetal distal lung epithelial cells.Fetuses removed from anesthetized (3% halothane), 20-day pregnant (term ϭ 22 days) rats were immediately decapitated, and their lung tissue was collected into ice-cold, Ca 2ϩ -and Mg 2ϩ -free Hanks' balanced salt solution. The anesthetized animals were then killed (cervical dislocation/exsanguination) before regaining consciousness. The fetal lung tissue was chopped into pieces (Ͻ0.5 mm) and disaggregated using 0.2% trypsin/0.012% DNase (2 ϫ 20 min, 37°C) followed by 0.1% collagenase/0.012% DNase [15 min, 37°C, both in Dulbecco's mo...

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“…The tissue was dissected, mounted according to the procedures of , and placed between modified Ussing chambers (15 ml./chamber) which were designed to eliminate edge damage and to reduce hydrostatic gradients during micro-electrode impalements (Lewis, Eaton, Clausen & Diamond, 1977). The exposed area of tissue was 1 cm2.…”

Section: Methodsmentioning

confidence: 99%

Intracellular sodium ion activity and sodium transport in rabbit urinary bladder.

Eaton¹

1981

The Journal of Physiology

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SUMMARY1. Intracellular potentials and the intracellular activities of Na+ and K+ were examined using conventional and ion-selective micro-electrodes.2. In animals on a normal diet, the intracellular Na+ activity was 8-6 + 2-9 mM (mean + S.D.) with a mean short-circuit current of 2-8 + 09 ,uA/cm2.3. In animals on a low-Na+ diet, the intracellular Na+ activity was 185 + 9-9 mM with a short-circuit current of 4-5+13 ItA/cm2 (mean+ S.D.).4. There was a correlation between short-circuit current and intracellular Na+ activity which could be fitted by a saturating hyperbolic relationship.5. Treatment of the tissue with ouabain and amiloride produced an increase and a decrease, respectively, in the intracellular Na+ activity.6. Treatment with aldosterone produced a large increase in short-circuit current with a substantial increase in intracellular Na+ activity.7. Intracellular Na+ activity does not seem to affect apical membrane permeability directly.

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Nystatin as a probe for investigating the electrical properties of a tight epithelium.

Cited by 162 publications

References 18 publications

Distinct Apical and Basolateral Membrane Requirements for Stretch-induced Membrane Traffic at the Apical Surface of Bladder Umbrella Cells

Distinct Apical and Basolateral Membrane Requirements for Stretch-induced Membrane Traffic at the Apical Surface of Bladder Umbrella Cells

β-Adrenoceptor-mediated control of apical membrane conductive properties in fetal distal lung epithelia

Intracellular sodium ion activity and sodium transport in rabbit urinary bladder.

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