Volume sensitivity of the bestrophin family of chloride channels

doi:10.1113/jphysiol.2004.075622

Volume sensitivity of the bestrophin family of chloride channels

Rodolphe Fischmeister¹ and H. Criss Hartzell¹

¹ Department of Cell Biology and the Center for Neurodegenerative Disease, Emory University School of Medicine, Atlanta, GA 30322, USA

Bestrophins are a newly identified family of Cl^– channels.Mutations in the founding member of the family, human bestrophin-1(hBest1), are responsible for a form of early onset maculardegeneration called Best vitelliform macular dystrophy. Thelink between dysfunction of hBest1 and macular degenerationremains unknown. Because retinal pigmented epithelium (RPE)cells may be subjected to varying osmotic pressure due to light-dependentchanges in the ionic composition of the subretinal space andbecause RPE cells may undergo large volume changes during phagocytosisof shed photoreceptor discs, we investigated whether bestrophincurrents were affected by cell volume. When hBest1 and mBest2were overexpressed in HEK 293, HeLa, and ARPE-19 cells, a newCa²⁺-activated Cl^– current appeared. This current wasvery sensitive to cell volume. A 20% increase in extracellularosmolarity caused cell shrinkage and a $~$ 70–80% reductionin bestrophin current. Decreases in extracellular osmolarityincreased the bestrophin currents slightly, but this was difficultto quantify due to simultaneous activation of endogenous volume-regulatedanion channel (VRAC) current. To determine whether a similarcurrent was present in mouse RPE cells, the effect of hyperosmoticsolutions on isolated mouse RPE cells was examined. Mouse RPEcells exhibited an endogenous Cl^– current that resembledthe expressed hBest1 in that it was decreased by hypertonicsolution. We conclude that bestrophins are volume sensitiveand that they could play a novel role in cell volume regulationof RPE cells.

(Received 15 September 2004; accepted after revision 18 November 2004; first published online 25 November 2004)
Corresponding author H. C. Hartzell: Department of Cell Biology, Emory University School of Medicine, 615 Michael Street, 535 Whitehead Biomedical Research Building, Atlanta, GA 30322-3030, USA. Email: criss.hartzell{at}emory.edu

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