Issue 7, 2020

Hydrogel 3D in vitro tumor models for screening cell aggregation mediated drug response

Abstract

Hydrogel-based 3D in vitro models comprising tumor ECM-mimetic biomaterials exhibit superlative potential as preclinical testing platforms for drug discovery and bioperformance screening. However, during hydrogel design and testing stages, the ideal selection between cancer cell laden 3D models or spheroid embedded hydrogel platforms remains to be elucidated. Selecting a disease-mimicking cellular arrangement within ECM hydrogels is paramount for anti-cancer therapeutics performance evaluation and may lead to differential outcomes. To investigate the effects assigned to varying cellular-arrangement, we developed dense 3D spheroid microtumors and cell-laden MG-63 osteosarcoma platforms embedded in GelMA and Matrigel ECM-mimetic scaffolds. These platforms enabled cancer cells/3D microtissues maturation and lorlatinib drug performance screening. Initial 3D spheroids assembly via the liquid overlay technique, resulted in the fabrication of dense cellular aggregates with reproducible size, morphology and necrotic core formation, thus mimicking the native tumor. Upon in vitro maturation, MG-63 spheroids encapsulated in hydrogel scaffolds exhibited significantly higher invasion and drug resistance than their cell laden hydrogel counterparts. Such data reveals inherent physiological and drug response variances among randomly distributed osteosarcoma cells and 3D spheroid-laden hydrogels. Overall, this highlights the importance of evaluating different cellular aggregation states when designing ECM-mimetic hydrogels for in vitro tumor modeling and high-throughput screening of anti-cancer therapeutics.

Graphical abstract: Hydrogel 3D in vitro tumor models for screening cell aggregation mediated drug response

Supplementary files

Article information

Article type
Paper
Submitted
26 Dec. 2019
Accepted
14 Febr. 2020
First published
17 Febr. 2020

Biomater. Sci., 2020,8, 1855-1864

Hydrogel 3D in vitro tumor models for screening cell aggregation mediated drug response

M. V. Monteiro, V. M. Gaspar, L. P. Ferreira and J. F. Mano, Biomater. Sci., 2020, 8, 1855 DOI: 10.1039/C9BM02075F

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