Validation of a Quantitative Method for Detection of Adenovirus Aggregation

Abstract

Adenoviral vectors have been widely used in gene therapy clinical trials and subjected to rigorous testing to ensure safety and efficacy. Like therapeutic proteins, aggregation of adenoviral vectors needs to be quantified for process consistency and stability monitoring. The sucrose gradient sedimentation method of adenovirus particles using disc centrifugation, which is a modification of a method described by Bondoc and Fitzpatrick {Bondoc, 1998 #98}, proved to be quantitative and reproducible in evaluating a variety of samples, including deliberately cross-linked adenovirus particles and process development lots of various ages. This aggregation assay revealed that most aggregates detected in the production lots were dimers, trimers and tetramers, and the number of these small oligomers was easily reduced with the addition of 300 mM salt, demonstrating the reversible nature of a portion of the aggregate population. This method was validated to demonstrate that it was appropriate for final product lot release and stability monitoring. Four adenovirus production lots that were stored at <-60C and had similar biological titers were selected for monitoring. The assay further demonstrated that although each of the four production lots had different levels of aggregation, the aggregation was stable over the 18 months they were monitored. Most importantly, data from all adenovirus lots stored at <-60C and tested by this method revealed that there was no correlation between aggregation levels and the biological