Thiophilic interaction chromatography for supercoiled plasmid DNA purification

Abstract

Supercoiled plasmid DNA was selectively purified from its open circular form by thiophilic interaction chromatography, performed in the presence of high concentrations of water-structuring salts. To identify optimal conditions for purification, various aromatic thioether ligands were coupled to a chromatographic support and screened for their ability to separate plasmid isoforms from each other and from other host cell contaminants, including RNA, genomic DNA, protein, and endotoxins. Selectivity of the chromatographic medium depended on the structure of the ligands, with characteristics of the substituents on the aromatic ring determining the resolution between the different plasmid DNA isoforms. Optimal resolution was obtained with ligands consisting of an thioaromate, substituted with highly electronegative groups. When 2-mercaptopyridine was used as a ligand, the difference in conductivity for eluting open circular and supercoiled plasmid DNA is only 6 mS/cm. However, with 4-nitrothiophol the resolution for plasmid DNA separation on the media increased, resulting in a 20 mS/cm difference. When used in combination with a prior group separation step, these aromatic thioether ligands facilitated the isolation of highly purified supercoiled plasmid DNA, suitable for use in gene therapy and DNA vaccine applications.