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Mammary Tumor Organoid Culture in Non-Adhesive Alginate for Luminal Mechanics and High-Throughput Drug Screening

Abstract

Mammary tumor organoids have become a promising in vitro model for drug screening and personalized medicine. However, the dependency on the basement membrane extract (BME) as the growth matrices limits their comprehensive application. In this work, mouse mammary tumor organoids are established by encapsulating tumor pieces in non-adhesive alginate. High-throughput generation of organoids in alginate microbeads is achieved utilizing microfluidic droplet technology. Tumor pieces within the alginate microbeads developed both luminal- and solid-like structures and displayed a high similarity to the original fresh tumor in cellular phenotypes and lineages. The mechanical forces of the luminal organoids in the alginate capsules are analyzed with the theory of the thick-wall pressure vessel (TWPV) model. The luminal pressure of the organoids increase with the lumen growth and can reach 2 kPa after two weeks' culture. Finally, the mammary tumor organoids are treated with doxorubicin and latrunculin A to evaluate their application as a drug screening platform. It is found that the drug response is related to the luminal size and pressures of organoids. This high-throughput culture for mammary tumor organoids may present a promising tool for preclinical drug target validation and personalized medicine.

Type Journal
ISBN 2198-3844 (Electronic) 2198-3844 (Linking)
Authors Fang, G.; Lu, H.; Rodriguez de la Fuente, L.; Law, A. M. K.; Lin, G.; Jin, D.; Gallego-Ortega, D.
Publisher Name Advanced Science
Published Date 2021-11-30
Published Pages e2102418
Status Published in-print
DOI 10.1002/advs.202102418
URL link to publisher's version https://www.ncbi.nlm.nih.gov/pubmed/34494727