Abstract
The adenoviral vector-based AstraZeneca and Janssen COVID-19 vaccines have been associated with rare cases of thrombosis, believed to be triggered, among other factors, by vector binding to the blood protein platelet factor 4 (PF4). To identify vectors with lower thrombosis risk, we screened 50 natural and hexon-modified adenoviruses (Ads). Unlike the applied COVID-19 vaccines and most tested vectors, Ad34 and Ad80, as well as Ad5 vectors with deleted or chemically shielded hexon hyper-variable region 1 (HVR1), did not bind to PF4. Furthermore, interactions with PF4 substantially modified Ad5 infectivity in various immortalized and primary cells, suggesting that PF4 may influence existing vector tropism. Finally, HVR1-deleted Ad5 and Ad34 vectors expressing SARS-CoV-2 spike S1 domain were tested as vaccine candidates in mice and induced robust cellular immune responses. Therefore, the identified PF4 non-binding vectors may represent safe and efficient candidates for clinical applications.