A divergent CFTR homologue: highly regulated salt transport in the euryhaline teleost F.heteroclitus

The killifish,Fundulus heteroclitus, is a euryhalineteleost fish capable of adapting rapidly to transfer from freshwater (FW) to four times seawater (SW). To investigate osmoregulation at amolecular level, a 5.7-kilobase cDNA homologous to human cysticfibrosis transmembrane conductance regulator (hCFTR) was isolated froma gill cDNA library from SW-adapted killifish. This cDNA encodes aprotein product (kfCFTR) that is 59% identical to hCFTR,the most divergent form of CFTR characterized to date. Expression ofkfCFTR in Xenopus oocytes generatedadenosine 3',5'-cyclic monophosphate-activated,Cl-selective currentssimilar to those generated by hCFTR. In SW-adapted killifish,kfCFTR was expressed at high levels in the gill, opercular epithelium, and intestine. After abrupt exposure of FW-adapted killifish to SW, kfCFTR expression in the gill increasedseveralfold, suggesting a role for kfCFTR in salinity adaptation. Undersimilar conditions, plasma Na⁺levels rose significantly after 8 h and then fell, although it is notknown whether these changes are directly responsible for the changes inkfCFTR expression. The killifish provides a unique opportunity to understand teleost osmoregulation and the role of CFTR.