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Grouped-seq for integrated phenotypic and transcriptomic screening of patient-derived tumor organoids

Yushuai Wu, Kaiyi Li, Yaqian Li, Tao Sun, Chang Liu, Chunhui Dong, Tian Zhao, Decong Tang, Xiaojie Chen, Xiaofang Chen, Peng Liu

2021Nucleic Acids Research30 citationsDOIOpen Access PDF

Abstract

Patient-derived tumor organoids (PDOs) have emerged as a reliable in vitro model for drug discovery. However, RNA sequencing-based analysis of PDOs treated with drugs has not been realized in a high-throughput format due to the limited quantity of organoids. Here, we translated a newly developed pooled RNA-seq methodology onto a superhydrophobic microwell array chip to realize an assay of genome-wide RNA output unified with phenotypic data (Grouped-seq). Over 10-fold reduction of sample and reagent consumption together with a new ligation-based barcode synthesis method lowers the cost to ∼$2 per RNA-seq sample. Patient-derived colorectal cancer (CRC) organoids with a number of 10 organoids per microwell were treated with four anti-CRC drugs across eight doses and analyzed by the Grouped-seq. Using a phenotype-assisted pathway enrichment analysis (PAPEA) method, the mechanism of actions of the drugs were correctly derived, illustrating the great potential of Grouped-seq for pharmacological screening with tumor organoids.

Topics & Concepts

OrganoidBiologyComputational biologyBarcodeTranscriptomeRNAPhenotypeRNA-SeqGeneticsGeneGene expressionComputer scienceOperating systemCancer Genomics and DiagnosticsCancer Cells and MetastasisSingle-cell and spatial transcriptomics
Grouped-seq for integrated phenotypic and transcriptomic screening of patient-derived tumor organoids | Litcius