Pharmacokinetic-pharmacodynamic modeling for hepatic delivery and efficacy of antisense oligonucleotides with lipophilic ligands in mice.

Abstract

Conjugation with lipophilic ligands such as cholesterol and α-tocopherol dramatically improves the delivery and efficacy of antisense oligonucleotides (ASOs) in the liver. To estimate the hepatic ASO concentration and the efficacy of ASOs conjugated with lipophilic ligands in mice, we constructed a pharmacokinetic-pharmacodynamic (PK-PD) model that consisted of a two-linear compartment model for the plasma and the hepatic ASO concentration, and two indirect response models for the hepatic apolipoprotein B (Apo-B) mRNA and plasma total cholesterol. The model provided a good fit of the hepatic ASO concentration although it showed an overprediction of Apo-B mRNA and an underprediction of the plasma total cholesterol within 2-fold at a later time after single intravenous administration of ASOs conjugated with lipophilic ligands. In addition, the model simulations indicated that the efficacy at a dose regimen of ASOs conjugated with lipophilic ligands (0.2mg/kg, once a week) in mice was comparable to that at an effective dose of unchanged ASO (2.5mg/kg, once a week). Although further studies are required to refine the parameters of the PK-PD model, this approach could be used to guide dose-ranging pharmacological studies for ASOs conjugated with lipophilic ligands in mice.