Insertion of exogenous epitopes in the E3-19K of oncolytic adenoviruses to enhance TAP-independent presentation and immunogenicity.

Oncolytic adenoviruses can promote immune responses against tumors by expressing and/or displaying tumor-associated antigens. However, the strong immunodominance of viral antigens mask responses against tumor epitopes. In addition, defects in major histocompatibility complex class I antigen presentation pathway such as the downregulation of the transporter-associated with antigen processing (TAP) are frequently associated with immune evasion of tumor cells. To promote the immunogenicity of exogenous epitopes in the context of an oncolytic adenovirus, we have taken advantage of the ER localization of the viral protein E3-19K. We have inserted tumor-associated epitopes after the N-terminal signal sequence for membrane insertion of this protein and flanked them with linkers cleavable by the protease furin to facilitate their TAP-independent presentation. This strategy allowed an enhanced presentation of the exogenous epitopes in TAP-deficient tumor cells in vitro and the generation of higher specific immune responses in vivo that were able to significantly control tumor growth.

Improved systemic antitumor therapy with oncolytic adenoviruses by replacing the fiber shaft HSG-binding domain with RGD.

Retargeting oncolytic adenoviruses from their systemic preeminent liver tropism to disseminated tumor foci would highly improve the efficacy of these agents at eradicating tumors. We have replaced the KKTK fiber shaft heparan sulfate glycosaminoglycan-binding domain with an RGDK motif in order to achieve simultaneously liver detargeting and tumor targeting. When inserted into a wild-type backbone, this mutation palliated liver transaminase elevation and hematological alterations in mice. Importantly, when tested in a backbone that redirects E1A transcription towards pRB pathway deregulation, RGD at this novel shaft location also improved significantly systemic antitumor therapy compared with the broadly used RGD location at the HI-loop of the fiber knob domain.