Cell Physiol Biochem 2010 Jan 01;254-5:511-22. doi: 10.1159/000303060.

Identification of a novel organic anion transporter mediating carnitine transport in mouse liver and kidney.

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This study identifies a novel organic anion transporter Oat9 expressed in mouse liver and kidney. Two variants were detected by screening a mouse liver cDNA library; these varients consist of 1815 (designated Oat9S) and 2165 (Oat9L) base pairs which encode 443 and 551 amino acid proteins, respectively. Oat9S has a predicted structure containing eight transmembrane domains (TMD); whereas, Oat9L possesses twelve TMD. Oat9 mRNA expression was detected in kidney and liver. This transporter was located at the apical side of the late portion of proximal tubules and at the sinusoidal side of hepatocytes. When expressed in Xenopus oocytes, Oat9S mediated the transport of L-carnitine (Km = 2.9 microM), a representative zwitterion, as well as cimetidine (Km = 16.1 microM) and salicylic acid (Km = 175.5 microM), while Oat9L did not show any transport activity. Oat9S-mediated L-carnitine uptake was inhibited by D-carnitine, acetylcarnitine, octanoylcarnitine, betaine, and other organic compounds, suggesting that quaternary ammonium cation bulkiness and relative hydrophobicity are important factors for Oat9S-substrate interactions. Among OATs, Oat9S appears to be the first member to mediate the transport of carnitine and possesses eight TMD. Overall, these new results provide added insight into the structure-activity relationship comprising the organic ion-permeation pathway.

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Species referenced: Xenopus laevis
Genes referenced: ttn