Abstract
Adeno-associated virus (AAV)-based virus-like particles (VLPs) are thriving vectors of choice in the biopharmaceutical field of gene therapy. Here, a method to investigate purified AAV serotype 8 (AAV8) batches via a nanoelectrospray gas-phase mobility molecular analyzer (nES GEMMA), also known as an nES differential mobility analyzer, is presented. Indeed, due to AAV’s double-digit nanometer scale, nES GEMMA is an excellently suited technique to determine the surface-dry particle size termed electrophoretic mobility diameter of such VLPs in their native state at atmospheric pressure and with particle-number-based detection. Moreover, asymmetric flow field-flow fractionation (AF4, also known as AFFFF) and atomic force microscopy (AFM) techniques were employed as orthogonal techniques for VLP characterization. In addition, AF4 was implemented to size-separate as well as to enrich and collect fractions of AAV8 VLPs after inducing analyte aggregation in the liquid phase. Bionanoparticle aggregation was achieved by a combination of heat and shear stress. These fractions were later analyzed with nES GEMMA (in the gas phase) and AFM (on a solid surface). Both techniques confirm the presence of dimers, trimers, and putative VLP oligomers. Last, AFM reveals even larger AAV8 VLP aggregates, which were not detectable by nES GEMMA because their heterogeneity combined with low abundance was below the limit of detection of the instrument. Hence, the combination of the employed orthogonal sizing methods with the separation technique AF4 allow a comprehensive characterization of AAV8 VLPs applied as vectors.
Highlights
In the biopharmaceutical field of gene therapy, one of the most investigated carriers is represented by adeno-associated virus (AAV) virus-like particles (VLPs)[1] owing to their low immunogenicity, high efficiency of transduction, and transgene persistence in a broad range of tissues for in vivo applications.[2,3] AAV is a helper-dependent virus of the Parvoviridae family, formed by 12 serotypes that show different tissue-specific tropisms.[4]
Our article aims to demonstrate the strategy for the analysis of an AAV-based VLP by means of nES GEMMA, AF4 with fluorescence detection, and atomic force microscopy (AFM) in tapping mode
Based on the assumption that the single-stranded DNA (ssDNA) acts as a scaffold agent for filled capsids, we investigated via AFM instrumentation if noticeable differences were present between empty and filled AAV serotype 8 (AAV8) VLPs
Summary
In the biopharmaceutical field of gene therapy, one of the most investigated carriers is represented by adeno-associated virus (AAV) virus-like particles (VLPs)[1] owing to their low immunogenicity, high efficiency of transduction, and transgene persistence in a broad range of tissues for in vivo applications.[2,3] AAV is a helper-dependent virus of the Parvoviridae family, formed by 12 serotypes that show different tissue-specific tropisms.[4]. Its cargo capacity is reported to be 4.7 kb of single-stranded DNA (ssDNA).[6,7] The studies presented here were performed with purified (i.e., VLPs that are homogeneous in size, stable, and lacking aggregates) AAV serotype 8 (AAV8) either lacking (i.e., empty, which means a classical VLP) or carrying engineered ssDNA (i.e., filled particles).
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