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Stability of polymeric cationic niosomes and their plasmid DNA-based complexes as gene delivery carriers

Mohamed Mashal, Noha Attia, Santiago Grijalvo, Ramón Eritja, Gustavo Puras, José Luís Pedraz

2023Drug Delivery18 citationsDOIOpen Access PDF

Abstract

This study aims to explore the stability of lipo-polymeric niosomes/niosome-based pCMS-EGFP complexes under different storage temperatures (25 °C, 4 °C, and -20 °C). To date, the question of nucleic acid-complex stability is one of the most vital issues in gene delivery applications. The need for stable vaccines during the COVID-19 pandemic has merely highlighted it. In the case of niosomes as gene carriers, the scientific literature still lacks comprehensive stability studies. In this study, the physicochemical features of niosomes/nioplexes in terms of size, surface charge, and polydispersity index (PDI), along with transfection efficiency, and cytotoxicity in NT2 cells were evaluated for 8 weeks. Compared to day 0, the physicochemical features of the niosomes stored at 25 °C and -20 °C changed dramatically in terms of size, zeta potential, and PDI, while remaining in reasonable values when stored at 4 °C. However, niosomes and nioplexes stored at 4 °C and -20 °C showed nearly stable transfection efficiency values, yet an obvious decrease at 25 °C. This article provides a proof of concept into the stability of polymeric cationic niosomes and their nioplexes as promising gene delivery vehicles. Moreover, it highlights the practical possibility of storing nioplexes at 4 °C for up to 2 months, as an alternative to niosomes, for gene delivery purposes.

Topics & Concepts

NiosomeGene deliveryTransfectionDispersityZeta potentialCationic polymerizationMaterials scienceNucleic acidNanotechnologyChemistryGeneVesicleNanoparticleBiochemistryMembranePolymer chemistryAdvancements in Transdermal Drug DeliveryRNA Interference and Gene DeliveryImmunotherapy and Immune Responses