Structural Requirements for Uptake of Diphenhydramine Analogs into hCMEC/D3 Cells Via the Proton-Coupled Organic Cation Antiporter

Abstract There is increasing evidence that a proton-coupled organic cation (H+/OC) antiporter facilitates uptake of various central nervous system-active drugs, such as the histamine H1 receptor antagonist diphenhydramine, into the brain. The purpose of this study was to clarify the structural requirements for H+/OC antiporter-mediated uptake into hCMEC/D3 cells, an established in vitro model of the human blood-brain barrier, by using a series of diphenhydramine analogs. For this purpose, we synthesized seven tertiary amine analogs and three amide analogs. Uptake of all the amines was facilitated by an outwardly directed H+ gradient and inhibited by pyrilamine, a typical substrate and a strong inhibitor of the H+/OC antiporter. Further, uptake of most of the amines was trans-stimulated by pyrilamine. Uptake of the amines was 21 times faster than that of the amides on average, even though the lipophilicity (log D7.4) of the amines is lower than that of the amides. Amines containing a pyrrolidine or piperidine ring showed the highest uptake rates. Our results suggest that an amine moiety, especially a heterocyclic amine moiety, is important for recognition and transport by the H+/OC antiporter.