Local Drug–Drug Interaction of Donepezil with Cilostazol at Breast Cancer Resistance Protein (ABCG2) Increases Drug Accumulation in Heart

Local Drug–Drug Interaction of Donepezil with Cilostazol at Breast Cancer Resistance Protein (ABCG2) Increases Drug Accumulation in Heart

Clinical reports indicate that cardiotoxicity due to donepezil can occur after coadministration with cilostazol. We speculated that the concentration of donepezil in heart tissue might be increased as a result of interaction with cilostazol at efflux transporters such as P-glycoprotein (P-gp, ABCB1)...

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Veröffentlicht in:Drug metabolism and disposition 2016-01, Vol.44 (1), p.68-74
Hauptverfasser: Takeuchi, Ryota, Shinozaki, Kohki, Nakanishi, Takeo, Tamai, Ikumi
Format: Artikel
Sprache:eng
Schlagworte:
Acridines - pharmacology
Administration, Intravenous
Administration, Oral
Animals
ATP Binding Cassette Transporter, Sub-Family G, Member 2
ATP-Binding Cassette Transporters - antagonists & inhibitors
ATP-Binding Cassette Transporters - genetics
ATP-Binding Cassette Transporters - metabolism
ATP-Binding Cassette, Sub-Family B, Member 1 - antagonists & inhibitors
ATP-Binding Cassette, Sub-Family B, Member 1 - metabolism
Biological Transport
Blood-Brain Barrier - drug effects
Blood-Brain Barrier - metabolism
Cardiotoxicity
Cholinesterase Inhibitors - administration & dosage
Cholinesterase Inhibitors - chemistry
Cholinesterase Inhibitors - pharmacokinetics
Cholinesterase Inhibitors - toxicity
Dogs
Drug Interactions
Female
In Vitro Techniques
Indans - administration & dosage
Indans - blood
Indans - pharmacokinetics
Indans - toxicity
Madin Darby Canine Kidney Cells
Male
Models, Biological
Myocardium - metabolism
Piperidines - administration & dosage
Piperidines - blood
Piperidines - pharmacokinetics
Piperidines - toxicity
Rats, Wistar
Tetrahydroisoquinolines - pharmacology
Tetrazoles - pharmacology
Tetrazoles - toxicity
Tissue Distribution
Transfection
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Zusammenfassung:Clinical reports indicate that cardiotoxicity due to donepezil can occur after coadministration with cilostazol. We speculated that the concentration of donepezil in heart tissue might be increased as a result of interaction with cilostazol at efflux transporters such as P-glycoprotein (P-gp, ABCB1) and breast cancer resistance protein (BCRP, ABCG2), which are expressed in many tissues including the heart, and our study tested this hypothesis. First, donepezil was confirmed to be a substrate of both BCRP and P-glycoprotein in transporter-transfected cells in vitro. Cilostazol inhibited BCRP and P-glycoprotein with half-inhibitory concentrations of 130 nM and 12.7 μM, respectively. Considering the clinically achievable unbound plasma concentration of cilostazol (about 200 nM), it is plausible that BCRP-mediated transport of donepezil would be affected by cilostazol in vivo. Indeed, in an in vivo rat study, we found that coadministration of cilostazol significantly increased the concentrations of donepezil in the heart and brain, where BCRP functions as a part of the blood–tissue barrier, whereas the plasma concentration of donepezil was unaffected. In addition, in vitro accumulation of donepezil in heart tissue slices of rats was significantly increased in the presence of cilostazol. These results indicate that donepezil-cilostazol interaction at BCRP may be clinically relevant in heart and brain tissues. In other words, the tissue distribution of drugs can be influenced by drug-drug interaction (DDI) at efflux transporters in certain tissues (local DDI) without any apparent change in plasma concentration (systemic DDI).
ISSN:0090-9556
1521-009X
DOI:10.1124/dmd.115.066654