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The Galapagos Chip Platform for High-Throughput Screening of Cell Adhesive Chemical Micropatterns

Authors :
Urandelger Tuvshindorj
Vanessa Trouillet
Aliaksei Vasilevich
Britta Koch
Steven Vermeulen
Aurélie Carlier
Morgan R. Alexander
Stefan Giselbrecht
Roman Truckenmüller
Jan Boer
Biointerface Science
ICMS Core
EAISI Health
Division Instructive Biomaterials Eng
RS: MERLN - Instructive Biomaterials Engineering (IBE)
RS: MERLN - Cell Biology - Inspired Tissue Engineering (CBITE)
CBITE
Source :
Small : Nano Micro, 18(10):2105704. Wiley-VCH Verlag, Small, 18(10):2105704. Wiley-VCH Verlag, Small, 18 (10), Art.Nr. 2105704
Publication Year :
2022

Abstract

In vivo cells reside in a complex extracellular matrix (ECM) that presents spatially distributed biochemical and ‑physical cues at the nano- to micrometer scales. Chemical micropatterning is successfully used to generate adhesive islands to control where and how cells attach and restore cues of the ECM in vitro. Although chemical micropatterning has become a powerful tool to study cell–material interactions, only a fraction of the possible micropattern designs was covered so far, leaving many other possible designs still unexplored. Here, a high-throughput screening platform called “Galapagos chip” is developed. It contains a library of 2176 distinct subcellular chemical patterns created using mathematical algorithms and a straightforward UV-induced two-step surface modification. This approach enables the immobilization of ligands in geometrically defined regions onto cell culture substrates. To validate the system, binary RGD/polyethylene glycol patterns are prepared on which human mesenchymal stem cells are cultured, and the authors observe how different patterns affect cell and organelle morphology. As proof of concept, the cells are stained for the mechanosensitive YAP protein, and, using a machine-learning algorithm, it is demonstrated that cell shape and YAP nuclear translocation correlate. It is concluded that the Galapagos chip is a versatile platform to screen geometrical aspects of cell–ECM interaction.

Details

Language :
English
ISSN :
16136810 and 16136829
Volume :
18
Issue :
10
Database :
OpenAIRE
Journal :
Small
Accession number :
edsair.doi.dedup.....682474e67abb81f3e3818dbdb6f0efaf
Full Text :
https://doi.org/10.1002/smll.202105704