Abstract
Virus-neutralizing antibodies are a severe obstacle in oncolytic virotherapy. Here, we present a strategy to convert this unfavorable immune response into an anticancer immunotherapy via molecular retargeting. Application of a bifunctional adapter harboring a tumor-specific ligand and the adenovirus hexon domain DE1 for engaging antiadenoviral antibodies, attenuates tumor growth and prolongs survival in adenovirus-immunized mice. The therapeutic benefit achieved by tumor retargeting of antiviral antibodies is largely due to NK cell-mediated triggering of tumor-directed CD8 T-cells. We further demonstrate that antibody-retargeting (Ab-retargeting) is a feasible method to sensitize tumors to PD-1 immune checkpoint blockade. In therapeutic settings, Ab-retargeting greatly improves the outcome of intratumor application of an oncolytic adenovirus and facilitates long-term survival in treated animals when combined with PD-1 checkpoint inhibition. Tumor-directed retargeting of preexisting or virotherapy-induced antiviral antibodies therefore represents a promising strategy to fully exploit the immunotherapeutic potential of oncolytic virotherapy and checkpoint inhibition.
Highlights
Virus-neutralizing antibodies are a severe obstacle in oncolytic virotherapy
We investigate tumor retargeting of antiviral antibodies by using a recombinant bifunctional adapter protein (DE1scFv-pSia) containing the DE1 domain of the adenoviral hexon for capturing adenoviral-specific antibodies and a polysialic acid-specific scFv for tumor cell recognition
To facilitate effective recognition of tumor cells for tumor-specific retargeting of DE1-bound antiviral antibodies, we fused DE1 to a previously described single-chain variable fragment recognizing polysialic acid 29, resulting in the adapter molecule DE1scFv-pSia
Summary
Virus-neutralizing antibodies are a severe obstacle in oncolytic virotherapy. Here, we present a strategy to convert this unfavorable immune response into an anticancer immunotherapy via molecular retargeting. We investigate tumor retargeting of antiviral antibodies by using a recombinant bifunctional adapter protein (DE1scFv-pSia) containing the DE1 domain of the adenoviral hexon for capturing adenoviral-specific antibodies and a polysialic acid-specific scFv for tumor cell recognition. Intravenous administration of this adapter in adenovirus-immunized mice effectively inhibits the growth of subcutaneous tumors and prolongs survival by engagement of NK and CD8 T cells. Retargeting of antiviral antibodies significantly amplifies the therapeutic effect of virotherapy and proves a feasible method to immunoactivate tumors for subsequent PD-1/PD-L1 checkpoint inhibition facilitating long-term survival
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