mRNA-Lipid Nanoparticle COVID-19 Vaccines: Structure and Stability
Acta Pharmaceutica Hungarica
; 91(3-4):120, 2021.
Artigo
em Inglês
| EMBASE | ID: covidwho-2033589
ABSTRACT
A drawback of the current mRNA-lipid nanoparticle (LNP) COVID-19 vaccines is that they have to be stored at (ultra)low temperatures (2). Understanding the root cause of the instability of these vaccines may help to rationally improve mRNALNP product stability and thereby ease the temperature conditions for storage. In this presentation we discuss proposed structures of mRNALNPs, factors that impact mRNA-LNP stability and strategies to optimize mRNA-LNP product stability. Analysis of mRNA-LNP structures reveals that mRNA, the ionizable cationic lipid and water are present in the LNP core. The neutral helper lipids are mainly positioned in the outer, encapsulating, wall. mRNA hydrolysis is an important driver for mRNA-LNP instability. It is currently a matter of debate whether water in the LNP core can freely interact with the mRNA and to what extent the degradation prone sites of mRNA are protected through a coat of ionizable cationic lipids. To improve the stability of mRNALNP vaccines, optimization of the mRNA nucleotide composition should be prioritized. Secondly, a better understanding of the milieu the mRNA is exposed to in the core of LNPs may help to rationalize adjustments to the LNP structure to preserve mRNA integrity. Moreover, drying techniques, such as lyophilization, are promising options still to be explored. As vaccines turn out to be the major weapon against the COVID-19 viral attack, the urge to develop more stable formulations is still growing and alternative, not-mRNA based products, may come to the forefront in situations where the (ultra) cold chain cannot be guaranteed. (Table Presented).
Texto completo:
Disponível
Coleções:
Bases de dados de organismos internacionais
Base de dados:
EMBASE
Tópicos:
Vacinas
Idioma:
Inglês
Revista:
Acta Pharmaceutica Hungarica
Ano de publicação:
2021
Tipo de documento:
Artigo
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