Preparation of liposome membrane adsorbers and testing for plasmid purification

Abstract DNA therapeutics can prevent or overcome several diseases and use plasmid DNA (pDNA) to deliver specific genes to the hosts for the therapies. The demand for highly purified pDNA is increased. Hydrophobic interaction chromatography (HIC) using membrane adsorbers is a purification technique able to separate lysate contaminants from pDNA, with improved productivity when compared to the use of classic adsorbers but still relying on hydrophobic interactions between patches on the surface of biomolecules and those designed at the chromatographic matrix. A final step in the downstream processing of pDNA was performed by HIC on membrane adsorbers functionalized with unilamellar liposomes of DOPE, DOPC, DLPA and DSPA. The chemical and morphological fibre structure characterizations of the derived membrane adsorbers are disclosed. Confocal microscope images demonstrated the ability of these membranes to interact with pDNA under high kosmotropic salt concentration environment. The study of chromatographic performance of the adsorbers on pDNA purification showed that DLPA-membrane has acquired the lowest ligand density but a considerable membrane adsorbing capacity; conversely, the DOPC-membrane has highest binding capacity and high HIC performance parameters. Purification yields obtained are still lower than those found for other chromatographic membrane adsorbers, consistent with the promotion of unspecific interactions hindering pDNA purification. This work gives a new insight onto liposome-based membrane adsorbers application for the pDNA downstream purification process.