Samenvatting
The extracellular matrix (ECM) forms through hierarchical assembly of small and larger polymeric molecules into a transient, hydrogel-like fibrous network that provides mechanical support and biochemical cues to cells. Synthetic, fibrous supramolecular networks formed via non-covalent assembly of various molecules are therefore potential candidates as synthetic mimics of the natural ECM, provided that functionalization with biochemical cues is effective. Here, combinations of slow and fast exchanging molecules that self-assemble into supramolecular fibers are employed to form transient hydrogel networks with tunable dynamic behavior. Obtained results prove that modulating the ratio between these molecules dictates the extent of dynamic behavior of the hydrogels at both the molecular and the network level, which is proposed to enable effective incorporation of cell-adhesive functionalities in these materials. Excitingly, the dynamic nature of the supramolecular components in this system can be conveniently employed to formulate multicomponent supramolecular hydrogels for easy culturing and encapsulation of single cells, spheroids, and organoids. Importantly, these findings highlight the significance of molecular design and exchange dynamics for the application of supramolecular hydrogels as synthetic ECM mimics.
Originele taal-2 | Engels |
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Artikelnummer | 2008111 |
Aantal pagina's | 16 |
Tijdschrift | Advanced Materials |
Volume | 33 |
Nummer van het tijdschrift | 37 |
DOI's | |
Status | Gepubliceerd - 16 sep. 2021 |
Bibliografische nota
Publisher Copyright:© 2021 The Authors. Advanced Materials published by Wiley-VCH GmbH
Financiering
The authors would like to acknowledge Dr. Joris Peeters and Dr. Henk Keizer for their assistance with the synthesis of supramolecular building blocks, and Prof. Bert Meijer for useful discussions. The authors would also like to thank Prof. Hans Clevers for facilitating the organoid culture experiments. This work was funded by the European Research Council (FP7/2007‐2013) ERC Grant Agreement 308045, the Dutch Ministry of Education, Culture, and Science (Gravity programs 024.001.035 and 024.003.013), and the partners of Regenerative Medicine Crossing Borders (RegMed XB) powered by Health∼Holland, Top Sector Life Sciences & Health.
Financiers | Financiernummer |
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Dutch Ministry of Education, Culture, and Science | 024.003.013, 024.001.035 |
Regenerative Medicine Crossing Borders | |
European Research Council | 308045, FP7/2007‐2013 |