Affinity of Ketamine to Clinically Relevant Transporters

Ketamine is a widely used intravenous anesthetic drug that has also a pronounced analgesic effect. Moreover, one of its metabolites was very recently shown to possess antidepressant activity. Consequently, oral administration of ketamine may become of interest in the future. There is evidence from in vitro data, drug drug interactions, and the physicochemical properties of the drug that ketamine may be a substrate of drug transporters. Thus, it was the aim of this study to investigate the affinity of ketamine to clinically relevant transporter proteins that are expected to affect its intestinal absorption, distribution, and excretion. Ketamine was shown to be significantly taken up in a time- and concentration-dependent manner by OCT1-3. The affinity to OCT transporters at pH 6.5 (K-m approximate to 35-75 mu M) was clearly higher than that at pH 7.4. In addition, ketamine permeability was markedly lower at pH 6.5 than at pH 7.4 in a parallel artificial membrane permeability assay (PAMPA). Ketamine showed a low but significant affinity to P-gp at pH 6.5. In contrast to this, we could not detect any transport of ketamine by MATE1/2K. In conclusion, ketamine is a substrate for OCT1-3 and P-gp but is not recognized by MATE1/2K. Considering that ketamine is a lipophilic base that mainly exists as a cationic moiety (>90%) in the intestinal lumen, we conclude that the OCT-mediated cellular uptake as well as P-gp efflux is expected to be only of relevance in the human intestine (i.e., in the case of oral drug administration), where OCT1, OCT3, and P-gp are stably expressed at the apical membrane. On the other side, P-gp is not expected to contribute significantly to tissue (brain) distribution or renal excretion of ketamine.