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1

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Chloride secretion by canine tracheal epithelium: III. Membrane resistances and electromotive forces (1983)

Welsh, Michael J. ; Smith, Phillip L. ; Frizzell, Raymond A.

Springer

The journal of membrane biology 71 (1983), S. 209-218

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ISSN: 1432-1424

Keywords: tracheal epithelium ; Cl secretion ; electrophysiology ; equivalent electrical circuit ; epinephrine

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary We used intracellular microelectrode techniques and equivalent electrical circuit analysis to examine the changes in individual membrane resistances and electromotive forces that accompany stimulation of Cl secretion across canine tracheal epithelium. Tissues were pretreated with indomethacin (10−6 m, mucosal solution) to reduce basel Cl secretion rate. Subsequent addition of epinephrine (10−6 m, submucosal solution) increased the rate of electrogenic Cl secretion as indicated by an increase in the short-circuit current (I sc) and decrease in the transepithelial resistance (R t ). The reduction inR t was due to decreases in bothR a andR b (the resistances of the apical and basolateral cell membranes, respectively). At the apical membrane, a nearly 10-fold decrease inR a was accompanied by reversal of the electromotive force (E a ) from +11±9 mV to −31±3 mV. Variations in Cl secretion rate induced by indomethacin and epinephrine disclosed a direct relation betweenR a andE a . In the presence of indomethacinR a was high andE a was consistent with the chemical potential difference for Na across the apical membrane (ca. +60 mV), reflecting the predominance of Na absorption across indomethacin-treated tissues. In the presence of epinephrine,R a was low andE a was consistent with the chemical potential difference for Cl across this barrier (−31 mV), reflecting the dominance of Cl secretion across epinephrine-treated tissues. These findings suggest that the conversion from absorption to secretion primarily involves a secretogogue-induced decrease in apical membrane resistance to Cl. At the basolateral membrane, epinephrine decreasedR b threefold without markedly altering the electromotive force across this barrier (E b ). To the extent thatR b andE b represent the resistance and chemical potential difference for K diffusion across the basolateral membrane, the inverse relation betweenR b andI sc suggests that stimulation is associated with increased basolateral membrane K permeability without marked changes in intracellular K activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01875462

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2

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Ion transport by primary cultures of canine tracheal epithelium: Methodology, morphology, and electrophysiology (1985)

Welsh, Michael J.

Springer

The journal of membrane biology 88 (1985), S. 149-163

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ISSN: 1432-1424

Keywords: chloride ; secretion ; epithelium ; trachea ; cultured cells ; electrophysiology ; airways

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Canine tracheal epithelial cells were isolated by enzymatic and mechanical dispersion and cultured on permeable supports. The cells formed confluent monolayers and retained most of the morphologic characteristics of the intact epithelium, including apical microvilli, apical tight junctions, and a moderately interdigitated lateral intercellular space. The cells also retained the functional properties of the epithelium. The monolayer responded to addition of isoproterenol with the characteristic changes in cellular electrical properties expected for stimulation of Cl secretion: isoproterenol increased transepithelial voltage, depolarized apical membrane voltage, and decreased both transepithelial resistance and the ratio of apical-to-basolateral membrane resistance. Examination of the cellular response to ion substitutions and inhibitors of Cl secretion indicate that the cultured monolayers retain the same cellular mechanisms of ion transport as the intact epithelium. Thus, primary cultures of tracheal epithelium may provide a useful preparation for future studies of the mechanism and regulation of Cl secretion by airway epithelia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01868429

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3

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Adrenergic regulation of ion transport by primary cultures of canine tracheal epithelium: Cellular electrophysiology (1986)

Welsh, Michael J.

Springer

The journal of membrane biology 91 (1986), S. 121-128

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ISSN: 1432-1424

Keywords: tracheal epithelium ; adrenergic agents ; chloride secretion ; chloride conductance ; potassium conductance ; electrophysiology

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary We examined the effect of adrenergic agents on the cellular electrical properties of primary cultures of canine tracheal epithelium. Both isoproterenol and epinephrine stimulated Cl secretion, as evidenced by an increase in transepithelial voltage and a fall in transepithelial resistance. Moreover, both agents appear to increase the conductance of apical and basolateral membranes. However, the pattern of response was different. Isoproterenol initially depolarized apical voltage Ψ a and decreased the fractional resistance of the apical membranef R. These changes are consistent with an initial increase in apical Cl conductance. In contrast, epinephrine acutely hyperpolarized Ψ a and increasedf R, changes consistent with an initial increase in basolateral K conductance. Following the acute effect of epinephrine, Ψ a depolarized andf R decreased to values not significantly different from those observed with isoproterenol. The acute increase in basolateral K conductance produced by epinephrine appeared to result from stimulation of α adrenergic receptors because it was reproduced by addition of the α agonist phenylephrine, and blocked by the α antagonist phentolamine. The ability of prazosin but not yohimbine to block the acute epinephrine-induced increase in K permeability indicates the presence of α1 adrenergic receptors. The acute α adrenergic-induced increase in basolateral K conductance may be mediated by an increase in cell Ca because the response was mimicked by addition of the Ca ionophore A23187. In contrast, the response to isoproterenol was similar to that observed with addition of 8-bromo-cAMP and theophylline. These results indicate that both β and α adrenergic agents mediate the ion transport processes in canine tracheal epithelium. β adrenergic agents have their primary effect on the apical Cl conductance, probably via an increase in cAMP. α adrenergic agents exert their primary effect on the basolateral K conductance, possibly via an increase in cell Ca.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01925789

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4

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Inhibition of chloride secretion by furosemide in canine tracheal epithelium (1983)

Welsh, Michael J.

Springer

The journal of membrane biology 71 (1983), S. 219-226

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ISSN: 1432-1424

Keywords: tracheal epithelium ; furosemide ; Cl secretion ; electrophysiology ; loop diuretic ; equivalent electrical circuit

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Furosemide inhibits Cl transport in a variety of epithelial and nonepithelial cells. To examine the mechanism of Cl secretion in canine tracheal epithelium, the effect of furosemide on transepithelial ion fluxes, membrane resistances, and electromotive forces was determined using intracellular microelectrodes and an equivalent electrical circuit analysis. There were six main observations: First, furosemide was only effective when added to the submucosal solution. Second, inhibition by furosemide (10−3 m) was specific for Cl secretion with no effect on Na absorption. Third, furosemide produced a half-maximal inhibition of Cl secretion at a concentration of 7×10−6 m. A Hill plot yielded a slope not different from unity, suggesting a one-for-one interaction of furosemide with the Cl transport process. Fourth, despite complete inhibition of Cl secretion, furosemide produced only small changes in transepithelial and apical membrane resistance, indicating that the primary effect was not an inhibition of Cl exit from the cell across the apical membrane. Fifth, basolateral membrane resistance and electromotive force were not altered by furosemide. This finding suggested that the effect of furosemide at the basolateral membrane was on an electrically neutral Cl entry process. Sixth, calculation of the intracellular Cl concentration from the electromotive force across the apical membrane indicated that furosemide decreased intracellular Cl concentration by 50%, consistent with an inhibition of Cl entry into the cell. These results indicate that Cl enters the epithelial cell via an electrically neutral process at the basolateral membrane and that furosemide selectively inhibits that process, resulting in a decreased intracellular Cl concentration and a decrease in the driving force for Cl exit across the apical membrane.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01875463

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5

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Anthracene-9-carboxylic acid inhibits an apical membrane, chloride conductance in canine tracheal epithelium (1984)

Welsh, Michael J.

Springer

The journal of membrane biology 78 (1984), S. 61-71

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ISSN: 1432-1424

Keywords: tracheal epithelium ; Cl secretion ; anthracene-9-carboxylic acid ; Cl permeability ; electrophysiology

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Canine tracheal epithelium secretes Cl from the submucosal to the mucosal surface via an electrogenic transport process that appears to apply to a wide variety of secretory epithelia. Cl exit across the apical membrane is thought to be a passive, electrically conductive process. To examine the cellular mechanism of Cl secretion we studied the effect of anthracene-9-carboxylic acid (9-AC), an agent known to inhibit the Cl conductance of muscle membrane. When added to the mucosal solution, 9-AC rapidly and reversibly decreases short-circuit current and transepithelial conductance, reflecting a reduction in electrogenic Cl secretion. The inhibition is concentration-dependent and 9-AC does not appear to compete with Cl for the transport process. The decrease in current and conductance results from a decrease in the net and both unidirectional transepithelial Cl fluxes without substantial alterations of Na fluxes. Furthermore, 9-AC specifically inhibits a Cl conductance: tissues bathed in Cl-free solutions showed no response to 9-AC. Likewise, when the rate of secretion and Cl conductance were minimized with indomethacin, addition of 9-AC did not alter transepithelial conductance. In contrast, neither removal of Na from the media nor blockade of the apical Na conductance with amiloride prevented a 9-AC-induced decrease in transepithelial conductance. We also found that the effect of 9-AC is independent of transepithelial transport: 9-AC decreases transepithelial conductance despite inhibition of Cl secretion with ouabain or furosemide. Intracellular electrophysiologic techniques were used to localize the effect of 9-AC to a reduction of the electrical conductance of the apical cell membrane: 9-AC hyperpolarizes the electrical potential difference across the apical membrane and decreases its relative conductance. 9-AC also prevents the characteristic changes in the cellular electrical potential profile, transepithelial conductance, and the ratio of membrane conductances produced by a reduction in mucosal bathing solution Cl concentration. These results indicate that 9-AC inhibits Cl secretion in tracheal epithelium by blocking an electrically conductive Cl exit step in the apical cell membrane. Thus, they support a cellular model of Cl secretion in which Cl leaves the cell across a Cl permeable apical membrane driven by its electrochemical gradient.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01872533

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6

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Chloride secretion by canine tracheal epithelium: I. Role of intracellular cAMP levels (1982)

Smith, Philip L. ; Welsh, Michael J. ; Stoff, Jeffrey S. ; [et al.]

Springer

The journal of membrane biology 70 (1982), S. 217-226

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ISSN: 1432-1424

Keywords: tracheal epithelium ; cAMP ; prostaglandins ; short-circuit current ; chloride secretion ; secretogogues

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary We measured the short-circuit current (I sc) across canine tracheal epithelium and the intracellular cAMP levels of the surface epithelial cells in the same tissues to assess the role of cAMP as a mediator of electrogenic Cl secretion. Secretogogues fall into three classes: (i) epinephrine, prostaglandin (PG) E1, and theophylline increase bothI sc and cellular cAMP levels; (ii) PGF2α and calcium ionophore A23187, increaseI sc without affecting cell cAMP levels at the doses employed; and (iii) acetylcholine, histamine, and phenylephrine do not alter eitherI sc or cAMP levels. These findings indicate that: (i) increases in cAMP or Ca activity stimulate electrogenic Cl secretion by the columnar cells of the surface epithelium; (ii) cAMP mediates the effects of PGE1 and β-adrenergic agonists; (iii) a strict correlation between cAMP levels and Cl secretion rate is not apparent from spontaneous variations in these parameters or from dose-response relations ofI sc and cAMP to epinephrine concentration; and (iv) acetylcholine, histamine, and phenylephrine, agents that stimulate electrically-neutral NaCl secretion by submucosal glands, do not evoke cAMP-mediated, responses by the surface epithelium. Addition of 10−6 m indomethacin (or other prostaglandin synthesis inhibitors) to the mucosal solution decreasesI sc and cellular cAMP levels and reduces the release of PGE2 into the bathing media by 80%. Indomethacin does not interfere with the subsequent secretory response to PGE1. This suggests that endogenous prostaglandin production underlies the spontaneous secretion of Cl across canine tracheal epithelium under basal conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870564

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7

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Basolateral membrane potassium conductance is independent of sodium pump activity and membrane voltage in canine tracheal epithelium (1985)

Welsh, Michael J.

Springer

The journal of membrane biology 84 (1985), S. 25-33

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ISSN: 1432-1424

Keywords: electrophysiology ; ouabain ; membrane permeabilities ; potassium conductance ; chloride conductance

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary When secretagogues stimulate Cl secretion in canine tracheal epithelium, apical membrane Cl conductance (G a Cl ) increases, and then basolateral membrane K conductance (G b K ) increases. Conversely, inhibition ofG a Cl results in a secondary decrease inG b K . The coordination of the two membrane conductances and regulation ofG b K is critical for maintaining constant intracellular ion concentrations and transepithelial Cl secretion. The purpose of this study was to test two hypotheses about the regulation ofG b K . First, we asked whetherG b K is directly linked to the activity of the Na,K-ATPase. We found that pump activity could be dissociated from K conductance. Inhibition of the Na pump with ouabain, in nonsecreting tissues led to an increase inG b . Elevation of the bathing solution K concentration produced a similar effect. Addition of ouabain to secreting tissues did not appear to alterG b . These results indicate thatG b K does not directly parallel Na pump activity. Second, we asked whether changes inG b K are voltage dependent. We prevented secretagogue-induced depolarization of the electrical potential difference across the basolateral membrane Ψ b by clamping Ψ b at its resting value during stimulation of Cl secretion with epinephrine. Despite maintaining Ψ b constant, the typical changes in transepithelial resistance and the ratio of membrane resistances persisted. This observation indicates that depolarization is not required for the secretagogue-induced increase inG b K . In addition we examined the effect of depolarizing and hyperpolarizing Ψ b by passing transepithelial current in secreting and nonsecreting epithelia. Despite depolarizing and hyperpolarizing Ψ b within the physiologic range, we observed no significant changes in transepithelial resistance or the ratio of membrane resistance that would suggest a change inG b K . This observation indicates that changes in Ψ b are not sufficient to alterG b K . Thus,G b K appears to be regulated by factors other than membrane voltage, or direct coupling to the Na pump.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871645

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8

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Chloride secretion by canine tracheal epithelium: II. The cellular electrical potential profile (1982)

Welsh, Michael J. ; Smith, Philip L. ; Frizzell, Raymond A.

Springer

The journal of membrane biology 70 (1982), S. 227-238

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ISSN: 1432-1424

Keywords: tracheal epithelium ; microelectrodes ; membrane potentials ; membrane resistances ; chloride secretion ; secretagogues

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary We used intracellular microelectrode techniques to study the mechanisms responsible for Cl secretion by canine tracheal epithelium. Tissues were treated with indomethacin (10−6 m, added to the mucosal solution) to reduce the baseline rate of Cl secretion and then stimulated by addition of epinephrine (10−6 m) or prostaglandin E1 (10−6 m) to the submucosal solution. Three conclusions emerged from our findings: First, secretagogues enhance the rate of transepithelial Cl transport primarily by increasing apical membrane Cl permeability, since: (i) stimulation of secretion produced parallel decreases in transepithelial resistance (R t) and the membrane resistance ratioR a/Rb, whereR a andR b refer to the resistances of the apical and basolateral membranes; (ii) there was an inverse relation between the short-circuit current andR a/Rb; (iii) secretagogues depolarized the electrical potential difference across the apical membrane (ψa) and produced an equivalent hyperpolarization of the transepithelial electrical potential difference (ψ1) so that, in the steady-state, the basolateral membrane potential (ψb) was unchanged; and (iv) substitution of sulfate or gluconate for Cl in the bathing solutions prevented secretagogue-induced changes inR t, Ra/Rb, (ψa) and (ψ1). Second, Cl entry into the cell across the basolateral membrane appears to be electrically-neutral since omission of Cl from the submucosal solution had no effect on (ψb) and did not decreaseR a/Rb as would be expected if Cl entered the cell by a conductive process. Third, secretagogues decreaseR b. Approximately 20 sec after the onset of the secretory responseR a/Rb underwent a secondary increase whileR t continued to fall. The decrease inR b may reflect an increase in basolateral membrane K permeability.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870565

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9

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Antisense Approaches to the Function of Glial Cell Proteins (1992)

ELDIK, LINDA J. ; BARGER, STEVEN W. ; WELSH, MICHAEL J.

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 660 (1992), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1992.tb21074.x

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Phosphorylation-Dependent Regulation of Apical Membrane Chloride Channels in Normal and Cystic Fibrosis Airway Epithelium (1989)

WELSH, MICHAEL J. ; LI, MING ; McCANN, JOHN D. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 574 (1989), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1989.tb25131.x

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