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Cited 9 time in webofscience Cited 9 time in scopus
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Fabrication of Spheroids with Uniform Size by Self-Assembly of a Micro-Scaled Cell Sheet (mu CS): The Effect of Cell Contraction on Spheroid Formation

Authors
Kim, Eun MiLee, Yu BinByun, HayeonChang, Hyung-kwanPark, JungyulShin, Heungsoo
Issue Date
Jan-2019
Publisher
AMER CHEMICAL SOC
Keywords
cell spheroid; micro-contact printing; temperature-sensitive hydrogel; polydopamine; cell therapy
Citation
ACS APPLIED MATERIALS & INTERFACES, v.11, no.3, pp.2802 - 2813
Indexed
SCIE
SCOPUS
Journal Title
ACS APPLIED MATERIALS & INTERFACES
Volume
11
Number
3
Start Page
2802
End Page
2813
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/4630
DOI
10.1021/acsami.8b18048
ISSN
1944-8244
Abstract
Cell spheroid culture can be an effective approach for providing an engineered microenvironment similar to an in vivo environment. Our group had recently developed a method for harvesting uniformly sized multi cellular spheroids via self-assembly of micro-scaled cell sheets (mu CSs) induced by the expansion of temperature-sensitive hydrogels. However, the mu CS assembly process was not fully understood. In this study, we investigated the effects of cell number, pattern shape, and contractile force of cells on spheroid formation from micropatterned (width of square pattern from 100-300 mu m) hydrogels. We used human dermal fibroblasts (HDFBs) as a model cell type and cultured them for 24 and 72 h. The self-assembly of mu CSs cultured on square micropatterns for 72 h rapidly occurred within 4 min after reducing the temperature from 37 to 4 degrees C. In addition, the size distribution of spheroids was narrower with mu CSs from a 72 h culture. Treatment with a ROCK1 inhibitor disrupted cytoskeletal actin fibers and the corresponding mu CSs were not detached from the hydrogel. The assembly of the mu CS was also affected by the micropattern shape, and the spheroid harvest efficiency was decreased to 60% when using a circular micropattern, which was explained by the stress direction on the circular versus square micropattern upon hydrogel expansion. Therefore, we confirmed that the factors controlling cell-cell interactions are important for spheroid formation using micropatterned hydrogel systems. Finally, the mu CSs with dual layers of HDFBs labeled with DiD and DiO dyes resulted in the formation of spheroids with discretely localized colors within the core and shell, respectively, which suggests an outside-in assembly of detached mu CSs. In consideration of these complex environmental factors, our system could be utilized in various applications as a three-dimensional culture system to fabricate cell spheroids.
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