PLoS ONE (Jan 2012)

Hyaluronan export through plasma membranes depends on concurrent K+ efflux by K(ir) channels.

  • Daniel Hagenfeld,
  • Beatrice Borkenhagen,
  • Tobias Schulz,
  • Hermann Schillers,
  • Udo Schumacher,
  • Peter Prehm

DOI
https://doi.org/10.1371/journal.pone.0039096
Journal volume & issue
Vol. 7, no. 6
p. e39096

Abstract

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Hyaluronan is synthesized within the cytoplasm and exported into the extracellular matrix through the cell membrane of fibroblasts by the MRP5 transporter. In order to meet the law of electroneutrality, a cation is required to neutralize the emerging negative hyaluronan charges. As we previously observed an inhibiting of hyaluronan export by inhibitors of K(+) channels, hyaluronan export was now analysed by simultaneously measuring membrane potential in the presence of drugs. This was done by both hyaluronan import into inside-out vesicles and by inhibition with antisense siRNA. Hyaluronan export from fibroblast was particularly inhibited by glibenclamide, ropivacain and BaCl(2) which all belong to ATP-sensitive inwardly-rectifying K(ir) channel inhibitors. Import of hyaluronan into vesicles was activated by 150 mM KCl and this activation was abolished by ATP. siRNA for the K(+) channels K(ir)3.4 and K(ir)6.2 inhibited hyaluronan export. Collectively, these results indicated that hyaluronan export depends on concurrent K(+) efflux.