Bio-layer interferometry (BLI) is a label-free technology that can be used for kinetic characterization of proteins. Although other label-free platforms have been used for quantitation purposes (most notably surface plasmon resonance), little work has been done using BLI. Here we present rationale and strategies for the development and analytical qualification of a BLI assay for the quantitation of a humanized antibody therapeutic in cynomolgus monkey plasma. Results of the qualification were compared to those of a validated ELISA used to quantitate the same therapeutic. Selectivity, matrix effect, and precision and accuracy were similar between the two methods. Target interference was more pronounced in the BLI assay compared to the ELISA. The main difference between the two assays was in the dynamic range (0.1–10μg/mL for ELISA vs. 0.4–50μg/mL for BLI). The monkey plasma BLI assay was applied to rat plasma for the comparison of study samples generated in the same matrix by ELISA. A direct quantitation comparison of sample results for the two methods shows a high degree of agreement (r 2 =0.979, slope=1.017). However, an evaluation of low concentration samples showed a bias of over-recovery in the BLI compared to the ELISA. In addition to utilizing the quantitative capabilities of the platform, we evaluated the utility of using the kinetic properties of the quantitative assay to detect anti-drug antibodies (ADA) and illustrated the potential for ADA to cause either over recovery (non-neutralizing ADA) or under recovery (neutralizing ADA) of a biotherapeutic using the BLI assay.
