The main kidney transporter of many commonly prescribed drugs (e.g. penicillins, diuretics, antivirals, methotrexate, and non-steroidal anti-inflammatory drugs) is organic anion transporter-1 (OAT1), originally identified as NKT (Lopez-Nieto, C. E., You, G., Bush, K. T., Barros, E. J., Beier, D. R., and Nigam, S. K. (1997) J. Biol. Chem. 272, 6471-6478). Targeted metabolomics in knockouts have shown that OAT1 mediates the secretion or reabsorption of many important metabolites, including intermediates in carbohydrate, fatty acid, and amino acid metabolism. This observation raises the possibility that OAT1 helps regulate broader metabolic activities. We therefore examined the potential roles of OAT1 in metabolic pathways using Recon 1, a functionally tested genome-scale reconstruction of human metabolism. A computational approach was used to analyze in vivo metabolomic as well as transcriptomic data from wild-type and OAT1 knock-out animals, resulting in the implication of several metabolic pathways, including the citric acid cycle, polyamine, and fatty acid metabolism. Validation by in vitro and ex vivo analysis using Xenopus oocyte, cell culture, and kidney tissue assays demonstrated interactions between OAT1 and key intermediates in these metabolic pathways, including previously unknown substrates, such as polyamines (e.g. spermine and spermidine). A genome-scale metabolic network reconstruction generated some experimentally supported predictions for metabolic pathways linked to OAT1-related transport. The data support the possibility that the SLC22 and other families of transporters, known to be expressed in many tissues and primarily known for drug and toxin clearance, are integral to a number of endogenous pathways and may be involved in a larger remote sensing and signaling system The kidney is responsible for the elimination of toxic substances and wastes as well as for the reabsorption of 99% of the glomerular ultrafiltrate each day (ϳ60% of which occurs in the proximal tubule) (1). Among the transporters that drive this reabsorption and secretion process are the organic anion transporters (OATs), 3 which transport an extensive range of endogenous metabolites, such as tricarboxylic acid (TCA) cycle intermediates, cyclic nucleotides, and prostaglandins, and also serve as "drug/xenobiotic transporters" (2). Their abundance in a wide range of tissues other than the kidney, including tissues not generally considered to be sites of xenobiotic elimination, as well as their conservation down to fly and worm (3), indicates an important physiological role for these transporters. The OATs have been shown to mediate the transport of numerous endogenous/exogenous solutes, and a role in blood pressure regulation for OAT3 (4) and remote sensing for OAT6 (5) has been suggested. In addition, the highly active metabolic reactions that occur in the proximal tubule in order to fuel its extensive transport processes as well as the fact that the OATs transport many important metabolic intermediates suggest a vital role in th...
