Industrial scale production of plasmid DNA for vaccine and gene therapy: plasmid design, production, and purification

Abstract The past several years have witnessed a rapidly increasing number of reports on utilizing plasmid DNA as a vector for the introduction of genes into mammalian cells for use in both gene therapy and vaccine applications. “Naked DNA vaccines” allow the foreign genes to be transiently expressed in transfected cells, mimicking intracellular pathogenic infection and triggering both the humoral and cellular immune responses. While considerable attention has been paid to the potential of such vaccines to mitigate a number of infections, substantially less consideration has been given to the practical challenges of producing large amounts of plasmid DNA for therapeutic use in humans, for both clinical studies and, ultimately, full-scale manufacturing. Doses of naked DNA vaccines are on the order of milligrams, while typical small-scale Escherichia coli fermentations may routinely yield only a few mg/l of plasmid DNA. There have been many investigations towards optimizing production of heterologous proteins over the past three decades, but in these cases, the plasmid DNA was not the final product of interest. This review addresses the current state-of-the-art means for the production of plasmid DNA at large scale in compliance with existing regulatory guidelines. The impact of the nature of the plasmid vector on the choice of fermentation protocols is presented, along with the effect of varying cultivation conditions on final plasmid content. Practical considerations for the large-scale purification of plasmid DNA are also discussed.