Characterization of empty and full AAV capsids in complex samples by anion exchange HPLC with multiple monitors
Bioreactor cell supernatants or post lysis materials entering downstream purification are heterogeneous mixtures of empty, full, and misassembled AAV capsids mixed with host cell proteins, genomic DNA, chromatin complexes, and other contaminants. Monolith- based HPLC columns provide high resolution among these species but overlap of elution position among capsids and contaminants makes it impossible to estimate the relative content of full and empty capsids by UV absorbance. Simultaneous monitoring with multiple detectors however enables quantitative insights that extend far beyond the limitations of UV absorbance.
This poster demonstrates how the combination of fast high resolution separations with monoliths can be combined with multiple monitors to obtain much deeper characterization than traditional assays. Anion exchange fractionation of filtered lysate and cation exchange- purified AAV 8 was monitored by UV absorbance at 260 nm and 280 nm, simultaneously with tryptophan fluorescence to differentially detect proteins without interference by nucleic acids, and with Multi Angle Light Scattering (MALS) to detect capsids.