Abstract 1127: Adarza's ZIVA multiplex protein detection platform utilizes a label-free technology to simultaneously monitor murine and human inflammation cytokines in a CAR-T model system

Abstract

Abstract We have used Arrayed Imaging Reflectometry (AIR™), a label-free protein microarray technology that relies on the target binding-induced perturbation of an antireflective coating on the surface of a silicon biosensor, to create a multiplex antibody array for the detection of human and murine serum cytokines and inflammatory markers. The biosensor is capable of providing quantitative protein concentrations, with limits of detection in the low picograms per mL. Provided in a standard 96-well microplate format, the label-free nature of the array enables flexible creation of standard or custom panels for development of model systems. Here, we demonstrate a custom 22 plex panel developed in collaboration with WUGEN Inc. to provide multi-species cytokine analysis in humanized CAR-T cell models for the evaluation of biologic product efficacy and safety. Samples from in vitro and in vivo models developed for the evaluation of CAR-T activity were analyzed and demonstrated a novel platform for concurrent cross-species cytokine analysis on a single array. Results are evaluated for sensitivity, precision, and accuracy with ZIVA assays comparable to traditional ELISAs. With array capabilities from low to hundreds of plex combined with a hands-free, automation-friendly workflow enabled by the ZIVA instrument, the technology has been designed for the ultimate user-experience. Citation Format: Jon J. Schmuke, Alun Carter, You Zhou, Ernest Mueller, Matt Cooper. Adarza's ZIVA multiplex protein detection platform utilizes a label-free technology to simultaneously monitor murine and human inflammation cytokines in a CAR-T model system [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 1127.