Identification of two extracellular sites in the transmembrane region of SLC26A9 chloride channel ő Cl/HCO3 exchanger (893.27)

Abstract

The SLC26A9 protein mediates Cl‐ transport as a Cl‐ channel and a Cl‐/HCO3 exchanger in the several epithelial cells, e.g., gut, lung, kidney. Topology analysis from BicA, a member of the SulP/SLC26A family, suggests that Slc26 proteins consists of 12 predicted transmembrane regions. However, the topology model of human SLC26 transporters has not yet been directly investigated. In this study, 12 HA‐inserted SLC26A9 mutants were constructed and expressed in Xenopus oocytes. Chemiluminescence was used to determine which HA‐tags were accessible from the extracellular surface. 157‐160 and 352‐353 sites of human SLC26A9 were identified as extracellular sites. Interestingly, the SLC26A9 HA (159‐160) mutant has ~40% Cl‐ transport activity, but this decreased function could be rescued by coexpression with another low function cSNP (T127N‐SLC26A9). These results revealed that the topology of TM region of SLC26A9 may different from that of BicA and also indicate that human SLC26A9 functions as dimer.Grant Funding Source: Supported by NIH EY 017732 (MFR)