Ann L. Lee scite author profile

Preparative-scale purification of plasmid DNA has been attempted by diverse methods, including precipitation with solvents, salts, and detergents and chromatography with ion-exchange, reversed-phase, and size-exclusion columns. Chromatographic methods such as hydrophobic interaction chromatography (HIC), reversed phase chromatography (RPC), and size exclusion chromatography (SEC) are the only effective means of eliminating the closely related relaxed and denatured forms of plasmid as well as endotoxin to acceptable levels. However, the anticipated costs of manufacturing-scale chromatography are high due to (a) large projected volumes of the high-dosage therapeutic molecule and (b) restricted loading of the large plasmid molecule in the pores of expensive resins. As an alternative to chromatography, we show herein that precipitation with the cationic detergent, cetyltrimethylammonium bromide (CTAB), is effective for selective precipitation of plasmid DNA from proteins, RNA, and endotoxin. Moreover, CTAB affords novel selectivity by removal of host genomic DNA and even the more closely related relaxed and denatured forms of plasmid as earlier, separate fractions. Finally, plasmid that has been precipitated by CTAB can be purified by selectively dissolving under conditions of controlled salt concentration. The selectivity mechanism is most likely based upon conformational differences among the several forms of DNA. As such, CTAB precipitation provides an ideal nonchromatographic capture step for the manufacture of plasmid DNA.

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Development of a Purification Process for Adenovirus: Controlling Virus Aggregation to Improve the Clearance of Host Cell DNA

Konz

Lee

Lewis

et al. 2008

Biotechnol Progress

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The clearance of host cell DNA is a critical goal for purification process development for recombinant Ad5 (rAd5) based vaccines and gene therapy products. We have evaluated the clearance of DNA by a rAd5 purification process utilizing nuclease digestion, ultrafiltration, and anion exchange (AEX) chromatography and found residual host cell DNA to consistently reach a limiting value of about 100 pg/10(11) rAd5 particles. Characterization of the purified rAd5 product using serial AEX chromatography, hydroxyapatite chromatography, or nuclease treatment with and without particle disruption showed that the residual DNA was associated with virus particles. Using a variety of additional physical characterization methods, a population of rAd5 virus in an aggregated state was detected. Aggregation was eliminated using nonionic detergents to attenuate hydrophobic interactions and sodium chloride to attenuate electrostatic interactions. After implementation of these modifications, the process was able to consistently reduce host cell DNA to levels at or below 5 pg/10(11) rAd5 particles, suggesting that molecular interactions between cellular DNA and rAd5 are important determinants of process DNA clearance capability and that the co-purifying DNA was not encapsidated.

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5-Dodecanoylaminofluorescein as a probe for the determination of critical micelle concentration of detergents using fluorescence anisotropy

Thorsteinsson¹,

Richter²,

Lee

et al. 2005

Analytical Biochemistry

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Development of a novel adenovirus purification process utilizing selective precipitation of cellular DNA

Goerke

Lee

et al. 2005

Biotechnol. Bioeng.

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The use of recombinant adenoviral vectors for vaccination and gene therapy requires the development of purification processes that are cost-effective, scalable, and capable of robust host cell DNA clearance. An adenovirus purification process was developed which incorporates selective precipitation of host cell DNA, enabling a reduction in the use of costly nucleases and chromatographic resins while substantially improving DNA and protein clearance capabilities. In this work, three cationic detergents were evaluated for their capacity to selectively precipitate DNA from adenovirus-containing cell lysate. Parameters including pH, sodium chloride concentration, nonionic surfactant concentration, and cell density were investigated during development of the precipitation step. In a novel application, the cationic detergent domiphen bromide was found to have superior selectivity for host cell DNA. In addition, domiphen bromide-induced precipitation of adenovirus was shown to be reversible, which reduces the importance of mixing. Precipitation of DNA in the cell lysate coupled with primary clarification resulted in 3 logs of DNA clearance and improved impurity clearance in the subsequent ultrafiltration step. As a result, nuclease treatment and/or anion exchange chromatography can be eliminated, or included exclusively to improve process robustness.

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Ann L. Lee

Fractional precipitation of plasmid DNA from lysate by CTAB

Development of a Purification Process for Adenovirus: Controlling Virus Aggregation to Improve the Clearance of Host Cell DNA

5-Dodecanoylaminofluorescein as a probe for the determination of critical micelle concentration of detergents using fluorescence anisotropy

Development of a novel adenovirus purification process utilizing selective precipitation of cellular DNA

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