Rationale: Adenovirus-based therapies have encountered significant challenges due to host immunity, particularly from pre-existing antibodies. Many trials have struggled to evade antibody response; however, the efficiency of these efforts was limited by the diversity of antibody Fv-region recognizing multiple amino acid sequences. Methods: In this study, we developed an antibody-evading adenovirus vector by encoding a plasma-rich protein transferrin-binding domain. The coding sequence was employed from Neisseria Meningitides and inserted in the experimentally-optimized site within the adenovirus capsid protein. Result: This engineered antibody-evading oncolytic adenovirus overcame the reduction in productivity and infectivity typically caused by the insertion of a foreign domain. We observed decreased immune recognition and compromised formation of anti-adenovirus antibodies. Furthermore, the anti-tumor efficacy was demonstrated both in vitro and in vivo, with increased recruitment of CD8+ T cells. Conclusion: This novel antibody-evading strategy effectively evades neutralizing antibodies and innate immunity while boosting cytotoxic immunity by recruiting CD8+ T cells at the tumor site. Additionally, this strategy holds potential for application in other gene therapies and adenovirus vectors.
Keywords: adenovirus; antibody evading viral vector; hexon engineered adenovirus; oncolytic virus; systemic injectable viral vector.
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