Sequence and Functional Characterization of a Renal Sodium/Dicarboxylate Cotransporter (*)

Abstract

The cDNA coding for a rabbit renal Na/dicarboxylate cotransporter, designated NaDC-1, was isolated by functional expression in Xenopus oocytes. NaDC-1 cDNA is approximately 2.3 kilobases in length and codes for a protein of 593 amino acids. NaDC-1 protein contains eight putative transmembrane domains, and the sequence and secondary structure are related to the renal Na/sulfate transporter, NaSi-1. Northern analysis shows that the NaDC-1 message is abundant in kidney and small intestine, and related transporters may be found in liver, lung, and adrenal. The transport of succinate by NaDC-1 was sodium-dependent, sensitive to inhibition by lithium, and inhibited by a range of di- and tricarboxylic acids. This transporter also carries citrate, but it does not transport lactate. In kinetic experiments, the K for succinate was around 0.4 mM and the V_max was 15 nmol/oocyte/h, while the Hill coefficient of Na activation of succinate transport was 1.9. The transport of succinate by NaDC-1 was insensitive to changes in pH, whereas the transport of citrate increased with decreasing pH, in parallel with the concentration of divalent citrate in the medium. The results of the functional characterization indicate that NaDC-1 likely corresponds to the renal brush-border Na/dicarboxylate cotransporter.