Abstract 2173: Developing a high-throughput, high content screening technology to identify new anticancer drug treatments

Abstract

The high attrition rate of new chemotherapeutic drugs represents the single most important challenge in anticancer drug development. With only one drug out of 10, 000 test compounds gaining FDA-approval, attrition is often attributed to failure of in vitro drug efficacy to translate to clinical success. The overall drug discovery and development pipeline can be dramatically improved with new, innovative assays of high pharmacological relevance that can shorten the discovery/preclinical phase and ensure rapid translation to clinic. We report the development of a three-dimensional phenotypic drug screening platform based on spheroidsMARY-X. The tight, compact spheroidsMARY-X form spontaneously due to innate molecular determinants with proliferative cells on the outer periphery and a dormant tumor cell core. These features mimic the intratumoral biological complexities of tumor tissue and thus provide a relevant in vitro model for drug discovery with a high degree of predictive value. Significantly, this model allows analysis of drug targeting of dormant tumor cells, the difficult to treat resistant or highly refractory cell population. Drug response can be reliably assessed using brightfield microscopy and can be quantified by measuring spheroid circularity (i.e., dissolution index). Evaluation of soluble factor concentration is performed using molecular rotors through restricted intramolecular rotation upon protein binding with a subsequent quantum yield. Overall, we present a 3-dimensional anticancer assay that provides a rapid, efficient, relevant platform for the evaluation of drug response and allows identification of small molecule hits in both proliferative and more importantly, dormant tumor cells, the major cause of relapse and recurrent metastatic disease. Citation Format: Andrew T. Milcarek, Kevin Daus, Mary L. Alpaugh. Developing a high-throughput, high content screening technology to identify new anticancer drug treatments [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 2173.