Mimicking the extracellular world: from natural to fully synthetic matrices utilizing supramolecular biomaterials

Laura Rijns, Martin G.T.A. Rutten, Annika F. Vrehen, Ana A. Aldana, Matthew B. Baker, Patricia Y.W. Dankers (Corresponding author)

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Samenvatting

The extracellular matrix (ECM) has evolved around complex covalent and non-covalent interactions to create impressive function -from cellular signaling to constant remodeling. A major challenge in the biomedical field is the de novo design and control of synthetic ECMs for applications ranging from tissue engineering to neuromodulation to bioelectronics. As we move towards recreating the ECM's complexity in hydrogels, the field has taken several approaches to recapitulate the main important features of the native ECM (i.e. mechanical, bioactive and dynamic properties). In this review, we first describe the wide variety of hydrogel systems that are currently used, ranging from fully natural to completely synthetic to hybrid versions, highlighting the advantages and limitations of each class. Then, we shift towards supramolecular hydrogels that show great potential for their use as ECM mimics due to their biomimetic hierarchical structure, inherent (controllable) dynamic properties and their modular design, allowing for precise control over their mechanical and biochemical properties. In order to make the next step in the complexity of synthetic ECM-mimetic hydrogels, we must leverage the supramolecular self-assembly seen in the native ECM; we therefore propose to use supramolecular monomers to create larger, hierarchical, co-assembled hydrogels with complex and synergistic mechanical, bioactive and dynamic features.
Originele taal-2Engels
Pagina's (van-tot)16290-16312
Aantal pagina's23
TijdschriftNanoscale
Volume16
Nummer van het tijdschrift35
Vroegere onlinedatum25 jul. 2024
DOI's
StatusGepubliceerd - 21 sep. 2024

Financiering

We thank the ICMS Animation Studio for support with the artwork. The researchers are financially supported by the Ministry of Education, Culture and Science (Gravity Programs 024.003.013 and 024.005.020), the Research Program of Chemelot InSciTe, project EyeSciTe and the European Union's Horizon Research and Innovation Program under grant agreement 101079482 (\u2018SUPRALIFE\u2019). A. A. A. would like to thank the support of Marie Sk\u0142odowska-Curie Individual Fellowships under grant agreement 101028471.

FinanciersFinanciernummer
Ministerie van OCW024.005.020, 024.003.013
European Union’s Horizon Europe research and innovation programme101079482
H2020 Marie Skłodowska-Curie Actions101028471

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