Pufferfish Slc4a11 functions as a borate channel for borate secretion

Boron is a vital micronutrient and is toxic at high concentrations, however, little is known about whole‐body boric acid homeostasis in animals. Slc4a11 was reported to function as a Na + ‐coupled borate transporter in mammals, presumably for borate absorption. However, seawater (SW) contains 0.4 mM boric acid, and the bladder urine of a euryhaline pufferfish mefugu ( Takifugu obscures ) in SW contains ~20 mM boric acid. Therefore, mefugu kidney is a good model to study a borate efflux system. In the mefugu kidney, a paralog of Slc4a11 (Slc4a11A) was markedly induced after transfer to SW and localized to the apical membrane of renal tubules. When Xenopus oocytes expressing Slc4a11A were voltage‐clamped at a holding potential of −60 mV and exposed medium containing borate, intracellular pH was increased and an outward current (anion influx) was observed. The borate current was not altered when Na + was replaced with other cations such as choline and Li + , but was eliminated when Na + was replaced with borate chelating agent NMDG. The borate (boron) influx was confirmed by elemental analysis of the oocytes. These results indicate that Slc4a11A is a Na + ‐independent B(OH) 4 − channel which is suitable for borate secretion, and clarify at first the mechanism of the borate efflux system in animal that prevent marine fishes from the toxic effects of borate.