A sensitive method for the detection of residual cell DNA in a recombinant hepatitis B vaccine prepared from Chinese hamster ovary cells

Chromatographic detection of residual cellular DNA on short monolithic columns

Analysis of crude samples from biotechnological processes is often required to demonstrate that residual host cell impurities are reduced or eliminated during purification. Current knowledge suggests that a continuous-cell-line DNA can be considered a cellular contaminant rather than a significant risk factor requiring removal to extremely low levels. Anion-exchange chromatography is one of the most important methods used in the downstream processing and analysis of different biomolecules. In this article, an application using Convective Interaction Media monolithic columns to improve the detection of residual cellular DNA is described.

Residual DNA quantification in clinical batches of BBG2Na, a recombinant subunit vaccine against human respiratory syncytial virus

BBG2Na, a well-defined recombinant protein produced in Escherichia coli, is a promising human respiratory syncytial virus subunit vaccine candidate. This study describes the quantification of residual DNA in large scale batches used in phase I to III clinical trials. Two different analytical methods were developed and applied on five different final bulks of Drug Substance and their associated in process control samples, namely a chemiluminescent hybridisation assay and the total DNA Threshold System assay. These two complementary methods demonstrated the clearance of residual DNA during the downstream purification process. The amount of residual DNA found in the final bulks was below 20 pg of DNA per 300 microg BBG2Na, the highest tested clinical dose of antigen. This is very low level of residual DNA for a recombinant subunit vaccine produced in a bacteria and contribute to make for BBG2Na a well-characterised biopharmaceutical. This study also provides data concerning the validation of the hybridisation dot blot assay and the total DNA Threshold(trade mark)assay.

The affinity adsorptive recovery of an infectious herpes simplex virus vaccine

The chromatographic purification of a recombinant Herpes Simplex Virus (type 2) from salt- and heparin-released harvests of infected complementing Vero (CR2) cells is addressed. Functionalized matrices and process operating conditions are identified that provide adequate virus titres in eluates that are significantly reduced in CR2 cell protein and DNA and possess a low level of HSV-2 protein. Virus from diluted salt-released harvests (0.14 M NaCl) was not appreciably adsorbed onto either heparin-Sepharose or Cellufine-heparin matrices but was virtually completely adsorbed onto Cellufine-sulfate and heparin-HP matrices. Virus was recovered by either a linear salt gradient elution (0.14-2 M NaCl) or by a single-step elution with 1.5 M NaCl in phosphate buffer. Recoveries of infectious virus with step elution were 21% and 89%, respectively, for these matrices. Virus from undiluted salt-released harvest (0.8 M NaCl) was substantially adsorbed onto Cellufine-sulfate gel (44% adsorption) and completely adsorbed onto heparin-HP matrices. This virus was recovered with high yield by either gradient or step elution with phosphate-buffered saline. Finally, heparin-harvested virus was fed directly to these matrices and quantitatively adsorbed. The virus could be completely recovered from the heparin-HP matrix with 1.5 M NaCl buffer to provide a purified preparation containing only 0.05 pg protein/pfu and 1.2 x 10(-4) pg DNA/pfu.