Abstract: | The cDNAencoding theNa+/H+exchanger (NHE) from Amphiumaerythrocytes was cloned, sequenced, and found to be highly homologous to the human NHE1 isoform (hNHE1), with 79% identity and 89%similarity at the amino acid level. Sequence comparisons with otherNHEs indicate that the Amphiumatridactylum NHE isoform 1 (atNHE1) islikely to be a phylogenetic progenitor of mammalian NHE1. The atNHE1protein, when stably transfected into the NHE-deficient AP-1 cell line(37), demonstrates robustNa+-dependent proton transportthat is sensitive to amiloride but not to the potent NHE1 inhibitorHOE-694. Interestingly, chimeric NHE proteins constructed by exchangingthe amino and carboxy termini between atNHE1 and hNHE1 exhibited drugsensitivities similar to atNHE1. Based on kinetic, sequence, andfunctional similarities between atNHE1 and mammalian NHE1, we proposethat the Amphiuma exchanger shouldprove to be a valuable model for studying the control of pH and volumeregulation of mammalian NHE1. However, low sensitivity of atNHE1 to theNHE inhibitor HOE-694 in both nativeAmphiuma red blood cells (RBCs) and intransfected mammalian cells distinguishes this transporter from itsmammalian homologue. |