Impermeant potential-sensitive oxonol dyes: I. Evidence for an “On-off” mechanism

George, Edwin B.; Nyirjesy, Paul; Basson, Marc D.; Эрнст, Л. К.; Pratap, Promod R.; Freedman, Jeffrey C.; Waggoner, Alan S.

doi:10.1007/bf01993984

Cited by 27 publications

(28 citation statements)

References 24 publications

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“…Unlike diBA-(5)-C 4 , WW781 is membrane impermeable (25), and therefore its effects are expected to be restricted to sites accessible from the extracellular side of the membrane. In our experiments this was confirmed by the absence of blue color inside the cells.…”

Section: Effect Of Ww781 On I Clvol In Neutrophils and Hl-60 Cellsmentioning

confidence: 99%

“…3 and 4). Because the dark blue WW781 does not cause any noticeable staining of the cells, it appears that it remains extracellular, probably because of its very polar sulfonic acid group (25), and thus inhibits by binding to a site that is accessible from the extracellular side of the membrane. This is consistent with the very small voltage dependence of inhibition, which suggests that the doubly negatively charged WW781 binds to a site that is readily accessible from the outside.…”

Section: Effects Of Nppb and Ww781mentioning

confidence: 99%

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Volume-Sensitive Chloride Channels Do Not Mediate Activation-Induced Chloride Efflux in Human Neutrophils

Pérez‐Cornejo

Arreola

Law³

et al. 2004

The Journal of Immunology

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Many agents that activate neutrophils, enabling them to adhere to venular walls at sites of inflammation, cause a rapid Cl− efflux. This Cl− efflux and the increase in the number and affinity of β2 integrin surface adhesion molecules (up-regulation) are all inhibited by ethacrynic acid and certain aminomethyl phenols. The effectiveness of the latter compounds correlates with their inhibition of swelling-activated Cl− channels (IClvol), suggesting that IClvol mediates the activator-induced Cl− efflux. To test this hypothesis, we used whole-cell patch clamp in hypotonic media to examine the effects of inhibitors of up-regulation on IClvol in neutrophils and promyelocytic leukemic HL-60 cells. Both the channel blocker 5-nitro-2-(3-phenylpropylamino)benzoic acid and [3-methyl-1-p-sulfophenyl-5-pyrazolone-(4)]-[1,3-dibutylbarbituric acid]-pentamethine oxonol (WW781), a nonpenetrating oxonol, inhibited IClvol at concentrations similar to those that inhibit β2 integrin up-regulation. However, ethacrynic acid, at the same concentration that inhibits activator-induced Cl− efflux and up-regulation, had no effect on IClvol and swelling-activated Cl− efflux, providing evidence against the involvement of IClvol in the activator-induced Cl− efflux.

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Section: Effect Of Ww781 On I Clvol In Neutrophils and Hl-60 Cellsmentioning

confidence: 99%

Section: Effects Of Nppb and Ww781mentioning

confidence: 99%

Volume-Sensitive Chloride Channels Do Not Mediate Activation-Induced Chloride Efflux in Human Neutrophils

Pérez‐Cornejo

Arreola

Law³

et al. 2004

The Journal of Immunology

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“…The oxidized cholesterol bilayer lipid membrane system for detecting optical signals is described in the previous paper (George et al (1988a). Changes (AI) in the intensity of quasimonochromatic light passing through the bottom of the oxidized cholesterol hemispherical bilayer membrane (apparatus details in George et al, 1988a) were measured during a train of 5-msec voltage steps that alternated between -50 and +50 mV.…”

Section: Methodsmentioning

confidence: 99%

“…2 and in the Table were Table measured at the wavelength where the maximum signal was obtained (630 nm for the barbituric acid derivatives and 660 nm for the thiobarbituric acid analogs). Absorption spectra were obtained as described by George et al (1988a).…”

Section: Methodsmentioning

confidence: 99%

“…First, the membranes are relatively stable in the presence of a large number of different dye analogs. Second, the spherical configuration of the oxidized cholesterol membrane developed by Dragsten and Webb (1978) provided an excellent geometry for the polarization studies of the first paper in this series (George et al, 1988a). In the present study, we have measured the potential-dependent absorption change AA of 43 analogs of WW781 associated with oxidized cholesterol bilayer lipid membranes.…”

Section: Introductionmentioning

confidence: 97%

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Impermeant potential-sensitive oxonol dyes: II. The dependence of the absorption signal on the length of alkyl substituents attached to the dye

et al. 1988

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We have measured the potential-dependent light absorption changes of 43 impermeant oxonol dyes with an oxidized cholesterol bilayer lipid membrane system. The size of the signal is strongly dependent on the chain length of alkyl groups attached to the chromophore. Dye molecules with intermediate chain lengths give the largest signals. To better understand the dependence of the absorbance signal on alkyl chain length, a simple equilibrium thermodynamic analysis has been derived. The analysis uses the free energy of dye binding to the membrane and the "on-off" model (E.B. George et al., J. Membrane Biol., 103:245-253, 1988a) for the potential-sensing mechanism. In this model, a population of dye molecules in nonpolar membrane binding sites is in a potential-dependent equilibrium with a second population of dye that resides in an unstirred layer adjacent to the membrane. Dye in the unstirred layer is in a separate equilibrium with dye in the bulk bathing solution. The equilibrium binding theory predicts a "sigmoidally shaped" increase in signal with increasing alkyl chain length, even for very nonpolar dyes. We suggest that aggregation of the more hydrophobic dyes in the membrane bathing solution may be responsible for their low signals, which are not predicted by the theory.

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Ferric Iron Potentiates Cell Depolarization by a Circulating Shock Protein

et al. 1994

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Impermeant potential-sensitive oxonol dyes: I. Evidence for an “On-off” mechanism

Cited by 27 publications

References 24 publications

Volume-Sensitive Chloride Channels Do Not Mediate Activation-Induced Chloride Efflux in Human Neutrophils

Volume-Sensitive Chloride Channels Do Not Mediate Activation-Induced Chloride Efflux in Human Neutrophils

Impermeant potential-sensitive oxonol dyes: II. The dependence of the absorption signal on the length of alkyl substituents attached to the dye

Ferric Iron Potentiates Cell Depolarization by a Circulating Shock Protein

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