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This Article Full Text Full Text (PDF) All Versions of this Article: 570/3/485    most recent jphysiol.2005.100933v1 Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Zeuthen*, T. Articles by Zeuthen, E. Search for Related Content PubMed PubMed Citation Articles by Zeuthen*, T. Articles by Zeuthen, E. Related Collections Cellular

¹ Nordic Centre for Water Imbalance Related Disorders, Department of Medical Physiology, The Panum Institute, Blegdamsvej 3C, University of Copenhagen, DK-2200 N, Denmark

The relation between substrate and water transport was studied in Na⁺-coupled cotransporters of glucose (SGLT1) and of iodide (NIS) expressed in Xenopus oocytes. The water transport was monitored from changes in oocyte volume at a resolution of 20 pl, more than one order of magnitude better than previous investigations. The rate of cotransport was monitored as the clamp current obtained from two-electrode voltage clamp. The high resolution data demonstrated a fixed ratio between the turn-over of the cotransporter and the rate of water transport. This applied to experiments in which the rate of cotransport was changed by isosmotic application of substrate, by rapid changes in clamp voltage, or by poisoning. Transport of larger substrates gave rise to less water transport. For the rabbit SGLT1, 378 ± 20 (n = 18 oocytes) water molecules were cotransported along with the 2 Na⁺ ions and the glucose-analogue -MDG (MW 194); using the larger sugar arbutin (MW 272) this number was reduced by a factor of at least 0.86 ± 0.03 (15). For the human SGLT1 the respective numbers were 234 ± 12 (18) and 0.85 ± 0.8 (7). For NIS, 253 ± 16 (12) water molecules were cotransported for each 2 Na⁺ and 1 thiocyanate (SCN^–, MW 58), with I^– as anion (MW 127) only 162 ± 11 (19) water molecules were cotransported. The effect of substrate size suggests a molecular mechanism for water cotransport and is opposite to what would be expected from unstirred layer effects. Data were analysed by a model which combined cotransport and osmosis at the membrane with diffusion in the cytoplasm. The combination of high resolution measurements and precise modelling showed that water transport across the membrane can be explained by cotransport of water in the membrane proteins and that intracellular unstirred layers effects are minute.

(Received 21 November 2005; accepted after revision 24 November 2005; first published online 1 December 2005)
Corresponding author T. Zeuthen: Nordic Centre for Water Imbalance Related Disorders, Department of Medical Physiology, The Panum Institute, Blegdamsvej 3C, University of Copenhagen, DK-2200 N, Denmark. Email: tzeuthen{at}mfi.ku.dk

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