Issue 20, 2023

Self-assembly of a fluorescent virus-like particle for imaging in tissues with high autofluorescence

Abstract

Virus-like particles (VLPs) are engineered nanoparticles that mimic the properties of viruses-like high tolerance to heat and proteases-but lack a viral genome, making them non-infectious. They are easily modified chemically and genetically, making them useful in drug delivery, enhancing vaccine efficacy, gene delivery, and cancer immunotherapy. One such VLP is Qβ, which has an affinity towards an RNA hairpin structure found in its viral RNA that drives the self-assembly of the capsid. It is possible to usurp the native way infectious Qβ self-assembles to encapsidate its RNA to place enzymes inside the VLP's lumen as a protease-resistant cage. Further, using RNA templates that mimic the natural self-assembly of the native capsid, fluorescent proteins (FPs) have been placed inside VLPs in a “one pot” expression system. Autofluorescence in tissues can lead to misinterpretation of results and unreliable science, so we created a single-pot expression system that uses the fluorescent protein smURFP, which avoids autofluorescence and has spectral properties compatible with standard commercial filter sets on confocal microscopes. In this work, we were able to simplify the existing “one-pot” expression system while creating high-yielding fluorescent VLP nanoparticles that could easily be imaged inside lung epithelial tissue.

Graphical abstract: Self-assembly of a fluorescent virus-like particle for imaging in tissues with high autofluorescence

Supplementary files

Article information

Article type
Paper
Submitted
04 مارٕچ 2023
Accepted
24 اپریل 2023
First published
25 اپریل 2023

J. Mater. Chem. B, 2023,11, 4445-4452

Author version available

Self-assembly of a fluorescent virus-like particle for imaging in tissues with high autofluorescence

I. Trashi, M. Z. Durbacz, O. Trashi, Y. H. Wijesundara, R. N. Ehrman, A. C. Chiev, C. B. Darwin, F. C. Herbert, J. Gadhvi, N. J. De Nisco, S. O. Nielsen and J. J. Gassensmith, J. Mater. Chem. B, 2023, 11, 4445 DOI: 10.1039/D3TB00469D

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