Transport Function of the Renal Type IIa Na+/Pi Cotransporter Is Codetermined by Residues in Two Opposing Linker Regions

doi:10.1085/jgp.20028645

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Published 29 October 2002. doi:10.1085/jgp.20028645

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© Rockefeller University Press, 0022-1295/2002/11/693/ $5.00
Journal of General Physiology, Volume 120, Number 5, November 2002 693-705
Transport Function of the Renal Type IIa Na⁺/P_i Cotransporter Is Codetermined by Residues in Two Opposing Linker Regions

Katja Köhler, Ian C. Forster, Gerti Stange, Jürg Biber and Heini Murer

Institute of Physiology, University of Zurich, CH-8057, Zurich, Switzerland

Address correspondence to Ian C. Forster, Physiologisches Institut, Universität Zürich-Irchel Winterthurerstrasse 190, CH-8057 Zürich, Switzerland. Fax: (41) 1-635-5715; E-mail: IForster{at}access.unizh.ch

Two highly similar regions in the predicted first intracellular(ICL-1) and third extracellular loop (ECL-3) of the type IIaNa⁺/Pi cotransporter (NaPi-IIa) have been shown previously tocontain functionally important sites by applying the substitutedcysteine accessibility method (SCAM). Incubation in methanethiosulfonate(MTS) reagents of mutants that contain novel cysteines in bothloops led to full inhibition of cotransport activity. To elucidatefurther the role these regions play in defining the transportmechanism, a double mutant (A203C-S460C) was constructed withnovel cysteines in each region. The effect of cysteine modificationby different MTS reagents on two electrogenic transport modes(leak and cotransport) was investigated. MTSEA (2-aminoethylMTS hydrobromide) and MTSES (MTS ethylsulfonate) led to fullinhibition of cotransport and increased the leak, whereas incubationin MTSET (2-[trimethylammonium]ethyl MTS bromide) inhibitedonly cotransport. The behavior of other double mutants witha cysteine retained at one site and hydrophobic or hydrophilicresidues substituted at the other site, indicated that mostlikely only Cys-460 was modifiable, but the residue at Ala-203was critical for conferring the leak and cotransport mode behavior.Substrate interaction with the double mutant was unaffectedby MTS exposure as the apparent P_i and Na⁺ affinities for P_i-inducedcurrents and respective activation functions were unchangedafter cysteine modification. This suggested that the modifiedsite did not interfere with substrate recognition/binding, butprevents translocation of the fully loaded carrier. The time-dependencyof cotransport loss and leak growth during modification of thedouble cysteine mutant was reciprocal, which suggested thatthe modified site is a kinetic codeterminant of both transportmodes. The behavior is consistent with a kinetic model for NaPi-IIathat predicts mutual exclusiveness of both transport modes.Together, these findings suggest that parts of the opposinglinker regions are associated with the NaPi-IIa transport pathway.

Key Words: structure function • electrophysiology • cysteine mutagenesis • P_i-cotransport • leak current

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