CLCNKB mutations causing mild Bartter syndrome profoundly alter the pH and Ca2+ dependence of ClC-Kb channels.

ClC-Kb, a member of the ClC family of Cl− channels/transporters, plays a major role in the absorption of NaCl in the distal nephron. CLCNKBmutations cause Bartter syndrometype 3, a hereditary renal salt-wasting tubulopathy. Here, we investigate the functional consequences of a Val to Met substitution at position 170 (V170M, α helix F), which was detected in eight patients displaying a mild phenotype. Conductance and surface expression were reduced by ~40–50 %. The regulation of channel activity by external H+ and Ca2+ is a characteristic propertyof ClC-Kb. Inhibition by external H+ was dramatically altered, with pKH shifting from 7.6 to 6.0. Stimulation by external Ca2+ on the other hand was no longer detectable at pH 7.4, but was still present at acidic pH values. Functionally, these regulatory modifications partly counterbalance the reduced surface expression by rendering V170M hyperactive. Pathogenic Met170 seems to interact with another methionine on α helix H (Met227) since diverse mutations at this site partly removed pH sensitivity alterations of V170M ClC-Kb. Exploring other disease-associated mutations, we found that a Pro to Leu substitution at position 124 (α helix D, Simon et al., Nat Genet 1997, 17:171–178) had functional consequences similar to those of V170M. In conclusion, we report here for the first time that ClC-Kb disease-causing mutations located around the selectivity filter can result in both reduced surface expression and hyperactivity in heterologous expressionsystems. This interplay must be considered when analyzing the mild phenotype of patients with type 3 Bartter syndrome.