Sugar Transport by Mammalian Members of the SLC26 Superfamily of Anion-Bicarbonate Exchangers

The mammalian cochlea contains a population of outer hair cells (OHCs) whose electromotility depends on an assembly of ‘motor’ molecules in the basolateral membrane of the cell. Named ‘prestin’, the molecule is a member of the SLC26 anion transporter superfamily. We show both directly and in...

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Bibliographic Details
Published in:The Journal of physiology 2003-08, Vol.550 (3), p.667-677
Main Authors: Chambard, J‐M., Ashmore, J. F.
Format: Article
Language:English
Subjects:
Algorithms
Animals
Anion Transport Proteins
Anions - metabolism
Antiporters - genetics
Antiporters - metabolism
Bicarbonates - metabolism
Carbohydrate Metabolism
Carrier Proteins - metabolism
Cell Line
Cercopithecus aethiops
CHO Cells
COS Cells
Cricetinae
Electrophysiology
Fructose - metabolism
Hair Cells, Auditory - metabolism
Humans
Image Processing, Computer-Assisted
Kinetics
Membrane Transport Proteins
Original
Osmotic Pressure
Proteins - metabolism
Reverse Transcriptase Polymerase Chain Reaction
Salicylates - pharmacology
Transfection
Water - metabolism
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Summary:The mammalian cochlea contains a population of outer hair cells (OHCs) whose electromotility depends on an assembly of ‘motor’ molecules in the basolateral membrane of the cell. Named ‘prestin’, the molecule is a member of the SLC26 anion transporter superfamily. We show both directly and indirectly that SLC26A5, rat prestin, takes up hexoses when expressed in several cell lines. Direct measurements of labelled fructose transport into COS-7 cells expessing prestin are reported here. Indirect measurements, using imaging techniques, show that transfected HEK-293 or CHO-K1 cells undergo reversible volume changes when exposed to isosmotic glucose-fructose exchange. The observations are consistent with the sugar transport. A similar transport was observed using a C-terminal green fluorescent protein (GFP)-tagged pendrin (SLC26A4) construct. Cells transfected with GFP alone did not respond to sugars. The data are consistent with fructose being transported by prestin with an apparent K m = 24 m m . From the voltage-dependent capacitance of transfected cells, we estimate that 250 000 prestin molecules were present and hence that the single transport rate is not more than 3000 fructose molecules s −1 . Comparison of the transfected cell swelling rates induced by fructose and by osmotic steps indicates that water was co-transported with sugar. We suggest that the structure of SLC26 family members allows them to act as neutral substrate transporters and may explain observed properties of cochlear hair cells.
ISSN:0022-3751
1469-7793
DOI:10.1113/jphysiol.2003.039321