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  • The renal Na-HCO3-cotransporter expressed in Xenopus laevis oocytes: change in stoichiometry in response to elevation of cytosolic Ca2+ concentration.

The renal Na-HCO3-cotransporter expressed in Xenopus laevis oocytes: change in stoichiometry in response to elevation of cytosolic Ca2+ concentration.

Pflugers Archiv : European journal of physiology (2001-08-21)
S Müller-Berger, O Ducoudret, A Diakov, E Frömter
ABSTRACT

The Na+-HCO3- cotransporter of rat kidney (rkNBC) was expressed in Xenopus laevis oocytes to test whether cytosolic Ca2+ ([Ca2+]i) affects the cotransport stoichiometry. The current/voltage relationship of giant inside-out membrane patches of rkNBC-expressing oocytes was measured at near-physiological Na+ and HCO3- concentrations and the cotransport current, INBC, was defined as the current inhibited by 0.25 mmol/l tenidap. Essentially, we determined the reversal potential (VI=0) of INBC and the slope conductance (gNBC). The coupling ratio of (HCO3-) to Na+ (q) was calculated from VI=0. As reported in the preceding publication [Ducoudret et al., Pflügers Arch (2001) DOI 10.1007/s004240100594], in Ca2+-free solutions q was 2:1. This did not change when [Ca2+]i was increased to 0.1 micromol/l. At 0.5 micromol/l, however, only a few patches showed q=2:1, while most patches exhibited q=3:1. This indicates that [Ca2+]i affected the transport function of membrane-resident rkNBC molecules, and the bimodal distribution of VI=0 points to an indirect effect possibly mediated by differently expressed Ca2+-dependent protein kinases. The shift in q was associated with the predicted near twofold increase in gNBC and was confirmed by measurements of VI=0 at different Na+ and HCO3- concentrations. Because we previously observed that the cotransport in proximal tubule cells is susceptible to carbonic anhydrase (CA) inhibition, but only if it works at q=3:1, we propose that kNBC has three transport sites: when working at q=2:1 it binds 2 (HCO3-)+1 Na+, and while at q=3:1 it binds 1 CO3(2-)+1 HCO3- +1 Na+. The latter is equivalent to the transfer of 3 (HCO3-) +1 Na+, because in the presence of CA the generation of 1 CO3(2-) on one side of the membrane and its disintegration on the other transiently liberates 1 CO2, which follows by diffusion. This model explains the increase in (HCO3-) transport that is associated with the change in q from 2:1 to 3:1 by a selectivity change of a binding site from HCO3- to CO3(2-). This is more likely than the induction of a new transport pouch for a third (HCO3-) ion, which would require exceedingly large conformational changes of the transport protein.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Tenidap, ≥97% (HPLC)