Cellular uptake of ribonuclease A-functionalised core-shell silica microspheres


Autoria(s): Chimonides, G.F; Behrendt, J.M.; Chundoo, E.; Bland, C.; Hine, A.V.; Devitt, A.; Nagel, D.A.; Sutherland, A.J.
Data(s)

14/11/2014

Resumo

Analysis of protein function in a cellular context ideally requires physiologically representative levels of that protein. Thus conventional nucleic acid-based transfection methods are far from ideal owing to the over expression that generally results. Likewise fusions with protein transduction domains can be problematic whilst delivery via liposomes/nanoparticles typically results in endosomal localisation. Recently polymer microspheres have been reported to be highly effective at delivering proteins into cells and thus provide a viable new alternative for protein delivery (protein transduction). Herein we describe the successful delivery of active ribonuclease A into HeLa cells via novel polymer core-silica shell microspheres. Specifically, poly(styrene-co-vinylbenzylisothiouronium chloride) core particles, generated by dispersion polymerisation, were coated with a poly(styrene-co-trimethoxysilylpropyl methacrylate) shell. The resultant core-shell morphology was characterised by transmission electron, scanning electron and fluorescence confocal microscopies, whilst size and surface charge was assessed by dynamic light scattering and zeta-potential measurements, respectively. Subsequently ribonuclease A was coupled to the microspheres using simple carbodiimide chemistry. Gel electrophoresis confirmed and quantified the activity of the immobilised enzyme against purified HeLa RNA. Finally, the polymer-protein particles were evaluated as protein-transduction vectors in vitro to deliver active ribonuclease A to HeLa cells. Cellular uptake of the microspheres was successful and resulted in reduced levels of both intracellular RNA and cell viability.

Formato

application/pdf

Identificador

http://eprints.aston.ac.uk/24953/1/Cellular_uptake_of_ribonuclease_A_functionalised.pdf

Chimonides, G.F; Behrendt, J.M.; Chundoo, E.; Bland, C.; Hine, A.V.; Devitt, A.; Nagel, D.A. and Sutherland, A.J. (2014). Cellular uptake of ribonuclease A-functionalised core-shell silica microspheres. Journal of Materials Chemistry B, 2 (42), pp. 7307-7315.

Relação

http://eprints.aston.ac.uk/24953/

Tipo

Article

PeerReviewed