Cross-species comparison of in vivo PK/PD relationships for second-generation antisense oligonucleotides targeting apolipoprotein B-100

The in vivo pharmacokinetics/pharmacodynamics of 2′-O-(2-methoxyethyl) (2′-MOE) modified antisense oligonucleotides (ASOs), targeting apolipoprotein B-100 (apoB-100), were characterized in multiple species. The species-specific apoB antisense inhibitors demonstrated target apoB mRNA reduction in a drug concentration and time-dependent fashion in mice, monkeys, and humans. Consistent with the concentration-dependent decreases in liver apoB mRNA, reductions in serum apoB, and LDL-C, and total cholesterol were concurrently observed in animal models and humans. Additionally, the long duration of effect after cessation of dosing correlated well with the elimination half-life of 2′-MOE modified apoB ASOs studied in mice (t1/2 ≅ 20 days) and humans (t1/2 ≅ 30 days) following parental administrations. The plasma concentrations of ISIS 301012, observed in the terminal elimination phase of both mice and monkeys were in equilibrium with liver. The partition ratios between liver and plasma were similar, approximately 6000:1, across species, and thus provide a surrogate for tissue exposure in humans. Using an inhibitory Emax model, the ASO liver EC50s were 101 ± 32, 119 ± 15, and 300 ± 191 μg/g of ASO in high-fat-fed (HF) mice, transgenic mice containing the human apoB transgene, and monkeys, respectively. The estimated liver EC50 in man, extrapolated from trough plasma exposure, was 81 ± 122 μg/g. Therefore, extraordinary consistency of the exposure–response relationship for the apoB antisense inhibitor was observed across species, including human. The cross-species PK/PD relationships provide confidence in the use of pharmacology animal models to predict human dosing for second-generation ASOs targeting the liver.

Graphical abstractSimilar exposure-response relationships of ISIS 301012 in human ApoB transgenic mice and in humans.Figure optionsDownload full-size imageDownload as PowerPoint slide