Matthew Vassey
Innate immune cell instruction using micron-scale 3D objects of varied architecture and polymer chemistry: The ChemoArchiChip
Vassey, Matthew; Ma, Le; Kämmerling, Lisa; Mbadugha, Chidimma; Trindade, Gustavo F.; Figueredo, Grazziela P.; Pappalardo, Francesco; Hutchinson, Jason; Markus, Robert; Rajani, Seema; Hu, Qin; Winkler, David A.; Irvine, Derek J.; Hague, Richard; Ghaemmaghami, Amir M.; Wildman, Ricky; Alexander, Morgan R.
Authors
Le Ma
Dr LISA KAMMERLING Lisa.Kammerling2@nottingham.ac.uk
RESEARCH FELLOW
Chidimma Mbadugha
Gustavo F. Trindade
Dr GRAZZIELA FIGUEREDO G.Figueredo@nottingham.ac.uk
ASSOCIATE PROFESSOR
Francesco Pappalardo
Jason Hutchinson
Robert Markus
Seema Rajani
Qin Hu
David A. Winkler
Professor DEREK IRVINE derek.irvine@nottingham.ac.uk
PROFESSOR OF MATERIALS CHEMISTRY
Professor RICHARD HAGUE RICHARD.HAGUE@NOTTINGHAM.AC.UK
Professor of Additive Manufacturing
Professor AMIR GHAEMMAGHAMI AMIR.GHAEMMAGHAMI@NOTTINGHAM.AC.UK
PROFESSOR OF IMMUNOLOGY AND IMMUNO- BIOENGINEERING
Professor RICKY WILDMAN RICKY.WILDMAN@NOTTINGHAM.AC.UK
PROFESSOR OF MULTIPHASE FLOW AND MECHANICS
Professor MORGAN ALEXANDER MORGAN.ALEXANDER@NOTTINGHAM.AC.UK
PROFESSOR OF BIOMEDICAL SURFACES
Abstract
To design effective immunomodulatory implants, innate immune cell interactions at the surface of biomaterials need to be controlled and understood. The architectural design freedom of two-photon polymerization is used to produce arrays of surface-mounted, geometrically diverse 3D polymer objects. This reveals the importance of the interplay between architecture and materials chemistry in determining human macrophage fate in vitro. The ChemoArchiChip identifies key structure-function relationships and design rules from machine learning models to build a mechanistic understanding of cell attachment and polarization. Object shape, vertex/cone angle, and size are key drivers of attachment. Particular shapes are found to heavily modulate pro- or anti-inflammatory cell polarization, while triangular pyramids drastically reduce or even eliminate attachment. Caveola-dependent endocytosis is a principal mechanism by which cells respond to objects with sharp points; i.e., low vertex/cone angles. The discovery of these putative design rules points to surfaces decorated with architectures to augment implant performance.
Citation
Vassey, M., Ma, L., Kämmerling, L., Mbadugha, C., Trindade, G. F., Figueredo, G. P., Pappalardo, F., Hutchinson, J., Markus, R., Rajani, S., Hu, Q., Winkler, D. A., Irvine, D. J., Hague, R., Ghaemmaghami, A. M., Wildman, R., & Alexander, M. R. (2023). Innate immune cell instruction using micron-scale 3D objects of varied architecture and polymer chemistry: The ChemoArchiChip. Matter, 6(3), 887-906. https://doi.org/10.1016/j.matt.2023.01.002
Journal Article Type | Article |
---|---|
Acceptance Date | Jan 3, 2023 |
Online Publication Date | Jan 23, 2023 |
Publication Date | Mar 1, 2023 |
Deposit Date | Mar 14, 2023 |
Publicly Available Date | Mar 21, 2023 |
Journal | Matter |
Electronic ISSN | 2590-2393 |
Publisher | Cell Press |
Peer Reviewed | Peer Reviewed |
Volume | 6 |
Issue | 3 |
Pages | 887-906 |
DOI | https://doi.org/10.1016/j.matt.2023.01.002 |
Keywords | Macrophages; immune modulation; 2-photon polymerization; biomaterials; 3D geometries |
Public URL | https://nottingham-repository.worktribe.com/output/16507034 |
Publisher URL | https://www.sciencedirect.com/science/article/pii/S2590238523000024 |
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Innate immune cell instruction
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Publisher Licence URL
https://creativecommons.org/licenses/by/4.0/
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