Practical method development for the separation of monoclonal antibodies and antibody-drug-conjugate species in hydrophobic interaction chromatoraphy, part 2: Optimization of the phase system

摘要

The goal of this second part was (i) to evaluate the performance of commercially available HIC columns and (ii) to develop a fast and automated "phase system" (i.e. stationary phase and salt type) optimization procedure for the analytical characterization of protein biopharmaceuticals. For this purpose, various therapeutic mAbs (denosumab, palivizumab, pertuzumab, rituximab and bevacizumab) and a cysteine linked ADC (brentuximab-vedotin) were selected as model substances. Several HIC column chemistries (butyl, ether and alkylamide) from different providers were evaluated in four different buffer systems (sodium acetate, sodium chloride, ammonium acetate and ammonium sulfate). As stationary phases, the historical TSK gel Butyl NPR phase and the brand new Thermo MAbPac HIC-10 were found to be the most versatile ones in terms of hydrophobicity, peak capacity and achievable selectivity. As salt types, ammonium sulfate and sodium acetate were found to be particularly well adapted for the analytical characterization of mAbs and ADCs, but it is important to keep in mind that a concentration 2 to 3-times higher of sodium acetate versus ammonium sulfate is required to achieve a similar retention in HIC. After selection of the most appropriate phase systems, the optimization of the separation can be carried out by computer assisted retention modeling in a high throughput manner. (C) 2016 Elsevier B.V. All rights reserved.