Engineering oncolytic vaccinia virus with functional peptides through mild and universal strategy.

Oncolytic virotherapy is one of promising tumor therapy modalities. However, its therapeutic efficacy is still limited due to the immunogenicity and poor tumor-targeting capability. In this report, an engineered oncolytic vaccinia virus (OVV) was constructed by site-specifically introducing azide groups to the envelope of OVV during the in situ assembling process of virions. Subsequently, dibenzocyclooctynes (DBCO) derivate T7 peptide and DBCO derivate self-peptide were simultaneously conjugated to the azide-modified OVV (azide-OVV) via copper-free click chemistry. The infectivity of peptide-conjugated virus was well kept. Meanwhile, both of the targeting capacity to transferrin receptor (TfR)-overexpressed tumor cells and the in vivo blood circulation time increased. Therefore, the growth of TfR-positive tumor could be significantly inhibited after intravenously injecting the engineered OVV, while no noticeable side effects. This construction strategy can be popularized to other enveloped oncolytic virus (OV), thus a universal engineering platform can be provided for OV cancer therapy. Graphical Abstract An engineered oncolytic vaccinia virus (OVV) was constructed by bioconjugating DBCO derivate T7 peptide and DBCO derivate self-peptide with azide-modified OVV via copper-free click chemistry. As a result, the tumor inhibit effect was significantly enhanced attributed to the prolonged in vivo circulation time and improved targeting recognition capability.