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Development of a miniaturized 3D organoid culture platform for ultra-high-throughput screening

Yuhong Du, Xingnan Li, Qiankun Niu, Xiulei Mo, Min Qui, Tingxuan Ma, Calvin J. Kuo, Haian Fu

2020Journal of Molecular Cell Biology116 citationsDOIOpen Access PDF

Abstract

The recent advent of robust methods to grow human tissues as 3D organoids allows us to recapitulate the 3D architecture of tumors in an in vitro setting and offers a new orthogonal approach for drug discovery. However, organoid culturing with extracellular matrix to support 3D architecture has been challenging for high-throughput screening (HTS)-based drug discovery due to technical difficulties. Using genetically engineered human colon organoids as a model system, here we report our effort to miniaturize such 3D organoid culture with extracellular matrix support in high-density plates to enable HTS. We first established organoid culturing in a 384-well plate format and validated its application in a cell viability HTS assay by screening a 2036-compound library. We further miniaturized the 3D organoid culturing in a 1536-well ultra-HTS format and demonstrated its robust performance for large-scale primary compound screening. Our miniaturized organoid culturing method may be adapted to other types of organoids. By leveraging the power of 3D organoid culture in a high-density plate format, we provide a physiologically relevant screening platform to model tumors to accelerate organoid-based research and drug discovery.

Topics & Concepts

Organoid3D cell cultureDrug discoveryHigh-throughput screeningComputational biologyExtracellular matrixComputer scienceCell cultureBiologyCell biologyBioinformaticsGeneticsCancer Cells and Metastasis3D Printing in Biomedical ResearchLiver physiology and pathology
Development of a miniaturized 3D organoid culture platform for ultra-high-throughput screening | Litcius