Functional Characterization of Pufferfish Slc26a6A and Slc26a6B

Euryhaline pufferfish ( Takifugu obscurus, mefugu) can live in freshwater (FW) with ion concentration less than 1/100 of its body fluid or acclimate to seawater (SW) which has more than 3 times the ion concentration of its body fluid. However, the body‐fluid ion concentrations are maintained stable by the function of epithelial cells in the gill, intestine, and kidney which transport ions directionally and selectively. To understand the mechanisms of the fish body‐fluid homeostasis at the molecular level, there are several essentials: identification of transporters expressed in the epithelia, determination of transporter localization, and characterization of transporter activities. Analyses of various transporter mRNA levels in mefugu tissues identified increases for Slc26a6A and Slc26a6B in the intestine and the kidney of SW‐acclimated mefugu. To study their functions for SW acclimation, we subcloned the cDNAs into a Xenopus expression vector and assayed their functions using microelectrodes in oocytes. The electrophysiological analyses of the oocytes revealed that (a) Slc26a6A and Slc26a6B are electrogenic Cl − / n HCO 3 − exchangers; (b) Slc26a6A and Slc26a6B are also exchangers of Cl − /formate, Cl − /oxalate, and Cl − /SO 4 2− ; and (c) the slope of I–V relationship of Slc26a6A in the presence of SO 4 2− is 70 times higher than that of Slc26a6B. These results suggest significant roles for Slc26a6A and Slc26a6B in intestinal HCO 3 − secretion and a role for Slc26a6A in renal SO 4 2− excretion during SW acclimation. This work was supported by MEXT Japan, NIH (EY017732) and CFF grant (Romero‐06G0).