Lessons Learned from Monitoring Adeno-Associated Virus-9 Neutralizing Antibody (AAV9-NAb) Seroconversion in a Cohort of Cynomolgus Macaques (Macaca fascicularis).
Rosemary V Santos, Arpana Khatri, Kate E Breyer, Jan Bernal, Judith Franco, Rajeev Dhawan, Conner Balzer, Marla Bazile, Maureen Hargaden, Mikele Simkins, Suryanarayan Somananthan
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Abstract
The purpose of this study was to track seroconversion in a cohort of 12, pair-housed, macaques that were previously screened negative for adeno-associated virus-9 neutralizing antibody (AAV9-NAb). Over a 6-month period, specific biosecurity strategies were implemented with the intention of understanding if following defined protocols could play a role in preservation of AAV9-NAb negative status. AAV9-NAb-negative animals were selected for shipment to the facility approximately 2 months after the initial screening. After arrival, animals were paired and housed in a single room with a dedicated housing corridor, cage wash, and equipment. They were then screened for AAV9-NAb status monthly by 2 different labs to confirm results and ascertain potential for variation of results. Upon initial screening at the facility (within one week of arrival), 2 of the 12 NHPs that were seronegative before shipment had seroconverted to AAV9-NAb positive status. The positive animals and their negative partners were moved to a different room but remained within the same isolated corridor with the same biosecurity practices. Serum that was taken on a monthly basis was also used to screen other AAVs. At the end of the 6-month period, AAV9 NAb status did not change from the time the animals were initially screened on site until the end of the study. Paired animals that were cohoused in the same cage with a positive partner did not seroconvert. Although a control group was not used to validate that biosecurity practices played a role in mitigating seroconversion, unpublished data from a facility employing less restricted biosecurity strategies suggest that the seroconversion process involves a more intricate process.
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