Abstract

The development of quantitative models for prediction of drug pharmacokinetics based on in vitro data has transformed early drug discovery. Drug unbound fraction (ƒu) characterization is a key consideration in pharmacokinetic and pharmacodynamic (PK/PD) modeling, assuming only unbound drug can interact with the target, and therefore has direct implications in the efficacy and potential toxicity of the drug. The current study describes the implementation of a hybridization liquid chromatography-tandem mass spectrometry (LC-MS/MS) platform for the direct quantitation of antisense oligonucleotide (ASO) ƒu The method provides substantial improvements, including minimal matrix effects and high specificity when compared with previously used oligonucleotide ƒu detection methods such as ligand binding assays or liquid scintillation. The hybridization LC-MS/MS platform was integrated with ultracentrifugation, ultrafiltration, and equilibrium dialysis, and method performance for each technique was evaluated. Although ASO protein binding has been previously characterized in plasma, there were no studies that quantitated ASO ƒu in brain or cerebral spinal fluid (CSF). As ASOs continue to undergo clinical trials for neurologic and neuromuscular indications, ƒu characterization in brain and CSF can provide invaluable information about ASO distribution and target engagement in the central nervous system, therefore providing support for in vivo PK/PD data characterization. SIGNIFICANCE STATEMENT: A novel hybridization LC-MS/MS-based approach was successfully developed for the determination of ASO in vitro protein binding in plasma, and for the first time brain and CSF. Ultrafiltration, equilibrium dialysis, and ultracentrifugation were assessed for the separation of unbound ASO from biological matrices. The hybridization LC-MS/MS platform provided unique advantages, including minimal matrix effects and high specificity, compared with traditional ligand binding assays or liquid scintillation approaches, which enabled efficient and reliable in vitro protein binding assay.

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