Evidence that plasma membrane electrical potential is required for vesicular stomatitis virus infection of MDCK cells: A study using fluorescence measurements through polycarbonate supports |
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Authors: | Mark Akeson Joshua Scharff Celia M. Sharp David M. Neville Jr. |
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Affiliation: | (1) Laboratory of Molecular Biology, Section on Biophysical Chemistry, National Institute of Mental Health, 20892 Bethesda, Maryland, USA |
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Abstract: | Summary We used fluorescence microscopy of Madin-Darby Canine Kidney (MDCK) cells grown on polycarbonate filters to study a possible link between plasma membrane electrical potential ( pm) and infectivity of vesicular stomatitis virus (VSV). Complete substitution of K+ for extracellular Na+blocks VSV infection of MDCK cells as well as baby hamster kidney (BHK) cells. When we independently perfused the apical and basal-lateral surfaces of high resistance monolayers, high K+ inhibited VSV infection of MDCK cells only when applied to the basal-lateral side; high K+ applied apically had no effect on VSV infection. This morphological specificity correlates with a large decrease in  pm of MDCK cells when high K+ buffer is perfused across the basal-lateral surface. Depolarization of the plasma membrane by 130 mm basal K+ causes a sustained increase of cytosol pH in MDCK cells from 7.3 to 7.5 as reported by the fluorescent dye BCECF. Depolarization also causes a transient increase of cytosol Ca2+ from 70 to 300 nm as reported by the dye Fura-2. Neither increase could explain the block of VSV infectivity by plasma membrane depolarization. One alternative hypothesis is that  pm facilitates membrane translocation of viral macromolecules as previously described for colicins, mitochondrial import proteins, and proteins secreted by Escherichia coli.We thank Kenneth Spring for many helpful discussions concerning fluorescence digitized imaging systems, James Russell for his collaboration in the design of our imaging system, Herbert Chase for suggestions on dye loading into MDCK cells, and Manfred Schubert and George Harmison for providing expertise on VSV. |
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Keywords: | membrane potential vesicular stomatitis virus MDCK calcium pH |
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