Synthesis and characterization of mRNA-loaded poly(beta aminoesters) nanoparticles for vaccination purposes

Autores/as

Fornaguera, Cristina; Díaz-Caballero, Marta; García-Fernandez, Coral; Olmo, Laura; Stampa-López Pinto, María; Navalón-López, María; Guerra-Rebollo, Marta; Borrós, Salvador

Abstract

Vaccination has been one of the major successes of modern society and is indispensable in controlling and preventing disease. Traditional vaccines were composed of entire or fractions of the infectious agent. However, challenges remain, and new vaccine technologies are mandatory. In this context, the use of mRNA for immunizing purposes has shown an enhanced performance, as demonstrated by the speedy approval of two mRNA vaccines preventing SARS-CoV-2 infection. Beyond success in preventing viral infections, mRNA vaccines can also be used for therapeutic cancer applications. Nevertheless, the instability of mRNA and its fast clearance from the body due to the presence of nucleases makes its naked delivery not possible. In this context, nanomedicines, and specifically polymeric nanoparticles, are critical mRNA delivery systems. Thus, the aim of this article is to describe the protocol for the formulation and test of an mRNA vaccine candidate based on the proprietary polymeric nanoparticles. The synthesis and chemical characterization of the poly(beta aminoesters) polymers used, their complexation with mRNA to form nanoparticles, and their lyophilization methodology will be discussed here. This is a crucial step for decreasing storage and distribution costs. Finally, the required tests to demonstrate their capacity to in vitro transfect and mature model dendritic cells will be indicated. This protocol will benefit the scientific community working on vaccination because of its high versatility that enables these vaccines to prevent or cure a wide variety of diseases.

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Publicación

Journal of Visualized Experiments (JoVE), August 2021, v.174, e62889

Fecha de publicación

2021-08-13

DOI

https://doi.org/10.3791/62889