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Silica@zirconia Core@shell Nanoparticles for Nucleic Acid Building Block Sorption

Authors :
Livia Naszályi Nagy
Evert Dhaene
Matthias Van Zele
Judith Mihály
Szilvia Klébert
Zoltán Varga
Katalin E. Kövér
Klaartje De Buysser
Isabel Van Driessche
José C. Martins
Krisztina Fehér
Source :
Nanomaterials, Vol 11, Iss 9, p 2166 (2021)
Publication Year :
2021
Publisher :
MDPI AG, 2021.

Abstract

The development of delivery systems for the immobilization of nucleic acid cargo molecules is of prime importance due to the need for safe administration of DNA or RNA type of antigens and adjuvants in vaccines. Nanoparticles (NP) in the size range of 20–200 nm have attractive properties as vaccine carriers because they achieve passive targeting of immune cells and can enhance the immune response of a weakly immunogenic antigen via their size. We prepared high capacity 50 nm diameter silica@zirconia NPs with monoclinic/cubic zirconia shell by a green, cheap and up-scalable sol–gel method. We studied the behavior of the particles upon water dialysis and found that the ageing of the zirconia shell is a major determinant of the colloidal stability after transfer into the water due to physisorption of the zirconia starting material on the surface. We determined the optimum conditions for adsorption of DNA building blocks, deoxynucleoside monophosphates (dNMP), the colloidal stability of the resulting NPs and its time dependence. The ligand adsorption was favored by acidic pH, while colloidal stability required neutral-alkaline pH; thus, the optimal pH for the preparation of nucleic acid-modified particles is between 7.0–7.5. The developed silica@zirconia NPs bind as high as 207 mg dNMPs on 1 g of nanocarrier at neutral-physiological pH while maintaining good colloidal stability. We studied the influence of biological buffers and found that while phosphate buffers decrease the loading dramatically, other commonly used buffers, such as HEPES, are compatible with the nanoplatform. We propose the prepared silica@zirconia NPs as promising carriers for nucleic acid-type drug cargos.

Details

Language :
English
ISSN :
20794991
Volume :
11
Issue :
9
Database :
Directory of Open Access Journals
Journal :
Nanomaterials
Publication Type :
Academic Journal
Accession number :
edsdoj.f045cce938284750bc5561d41586f23c
Document Type :
article
Full Text :
https://doi.org/10.3390/nano11092166