Polymer microarrays rapidly identify competitive adsorbents of virus-like particles (VLPs)

Blok, Andrew J.; Gurnani, Pratik; Xenopoulos, Alex; Burroughs, Laurence; Duncan, Joshua; Urbanowicz, Richard A.; Tsoleridis, Theocharis; M�ller, Helena; Strecker, Thomas; Ball, Jonathan K.; Alexander, Cameron; Alexander, Morgan R.

doi:10.1116/6.0000586

Polymer microarrays rapidly identify competitive adsorbents of virus-like particles (VLPs)

Blok, Andrew J.; Gurnani, Pratik; Xenopoulos, Alex; Burroughs, Laurence; Duncan, Joshua; Urbanowicz, Richard A.; Tsoleridis, Theocharis; M�ller, Helena; Strecker, Thomas; Ball, Jonathan K.; Alexander, Cameron; Alexander, Morgan R.

Authors

Andrew J. Blok

Pratik Gurnani

Alex Xenopoulos

Laurence Burroughs

Joshua Duncan

Richard A. Urbanowicz

Theocharis Tsoleridis

Helena M�ller

Thomas Strecker

Jonathan K. Ball

Professor CAMERON ALEXANDER CAMERON.ALEXANDER@NOTTINGHAM.AC.UK
Professor of Polymer Therapeutics

MORGAN ALEXANDER MORGAN.ALEXANDER@NOTTINGHAM.AC.UK
Professor of Biomedical Surfaces

Abstract

The emergence of SARS-CoV-2 highlights the global need for platform technologies to enable rapid development of diagnostics, vaccines, treatments, and personal protective equipment (PPE). However, many current technologies require the detailed mechanistic knowledge of specific material-virion interactions before they can be employed, for example to aid in the purification of vaccine components, or in design of more effective PPE. Here we show that an adaption of polymer micro array method for screening bacterial-surface interactions allows for screening of polymers for desirable material-viron interactions. Non-pathogenic virus like particles including fluorophores are exposed to the arrays in aqueous buffer as a simple model of virons carried to the surface in saliva/sputum. Competitive binding of Lassa and Rubella particles is measured to probe the relative binding properties of a selection of copolymers. This provides the first step in the development of a method for discovery of novel materials with promise for viral binding, with the next being development of this method to assess absolute viral adsorption and assessment of the attenuation of the activity of live virus which we propose would be part of a material scale up step carried out in biological laboratory safety level 4 facilities and the use of more complex media to represent biological fluids.

Citation

Blok, A. J., Gurnani, P., Xenopoulos, A., Burroughs, L., Duncan, J., Urbanowicz, R. A., …Alexander, M. R. (2020). Polymer microarrays rapidly identify competitive adsorbents of virus-like particles (VLPs). Biointerphases, 15, Article 061005. https://doi.org/10.1116/6.0000586

Journal Article Type	Article
Acceptance Date	Oct 15, 2020
Online Publication Date	Nov 17, 2020
Publication Date	2020
Deposit Date	Nov 5, 2020
Publicly Available Date	Nov 17, 2020
Journal	Biointerphases
Print ISSN	1934-8630
Electronic ISSN	1559-4106
Publisher	American Institute of Physics
Peer Reviewed	Peer Reviewed
Volume	15
Article Number	061005
DOI	https://doi.org/10.1116/6.0000586
Public URL	https://nottingham-repository.worktribe.com/output/5018559
Publisher URL	https://avs.scitation.org/doi/10.1116/6.0000586