Biophysical characterization of siRNA-loaded Lipid Nanoparticles with different PEG content in an aqueous system

This study evaluated the influence of PEGylation and stress conditions on the stability of siRNA-loaded LNPs with different concentrations of PEG (0.5 mol%; 0.5% PEG-LNP and 1.0 mol%; 1.0% PEG-LNP) anchored to their surface. We applied end-over-end agitation, elevated temperature, and repeated freeze and thaw (F/T) cycles as physicochemical stressors of pH and ionic strength. Dynamic light scattering (DLS), flow imaging microscopy (FIM), and ionic-exchange chromatography (IEX) were to determine the degree of aggregation and change in siRNA content. The results indicate that 0.5% PEG-LNP resisted aggregation only at low pH levels or with salt, whereas 1.0% PEG-LNP had increased colloidal stability except at pH 4. 0.5% PEG-LNP withstood aggregation until 71°C and three cycles of F/T. In contrast, 1.0% PEG-LNP maintained colloidal stability at 90°C and seven F/T cycles. Moreover, 1.0% PEG-LNP had higher siRNA stability under all stress conditions. Therefore, to ensure the stability of LNP and encapsulated siRNA, the PEG concentration must be carefully controlled while considering LNPs' colloidal instability mechanisms under various stress conditions.PMID:37516315 | DOI:10.1016/j.ejpb.2023.07.013
Source: European Journal of Pharmaceutics and Biopharmaceutics - Category: Drugs & Pharmacology Authors: Source Type: research