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Low-viscosity matrix suspension culture enables scalable analysis of patient-derived organoids and tumoroids from the large intestine

Yumiko Hirokawa, Jordan Clarke, Michelle Palmieri, Tao Tan, Dmitri Mouradov, Shan Li, Cong Lin, Fuqiang Li, Huijuan Luo, Kui Wu, Maree C. Faux, Chin Wee Tan, Margaret Lee, Grace Gard, Peter Gibbs, Antony W. Burgess, Oliver M. Sieber

2021Communications Biology49 citationsDOIOpen Access PDF

Abstract

Cell embedment into a solid support matrix is considered essential for the culture of intestinal epithelial organoids and tumoroids, but this technique presents challenges that impede scalable culture expansion, experimental manipulation, high-throughput screening and diagnostic applications. We have developed a low-viscosity matrix (LVM) suspension culture method that enables efficient establishment and propagation of organoids and tumoroids from the human large intestine. Organoids and tumoroids cultured in LVM suspension recapitulate the morphological development observed in solid matrices, with tumoroids reflecting the histological features and genetic heterogeneity of primary colorectal cancers. We demonstrate the utility of LVM suspension culture for organoid and tumoroid bioreactor applications and biobanking, as well as tumoroid high-throughput drug sensitivity testing. These methods provide opportunities for the study and use of patient-derived organoids and tumoroids from the large intestine.

Topics & Concepts

OrganoidMatrix (chemical analysis)Cell culture3D cell cultureCell biologyScalabilitySuspension (topology)Computational biologyBiologyComputer scienceChemistryGeneticsMathematicsChromatographyHomotopyDatabasePure mathematicsCancer Cells and Metastasis3D Printing in Biomedical ResearchLiver physiology and pathology
Low-viscosity matrix suspension culture enables scalable analysis of patient-derived organoids and tumoroids from the large intestine | Litcius