A novel tumor-targeted interferon-α/-β receptor 1 antagonist increases replication of oncolytic vesicular stomatitis virus in a mouse mesothelioma model

Type I Interferons (IFN-I) are cytokines with pleiotropic activities involved in antiviral and antitumor immune responses. They can reduce oncolytic virus replication in tumor cells by inducing expression of interferon stimulated genes (ISG) with antiviral functions. To specifically neutralize the IFN-/-{beta} receptor (IFNAR) on specific cell types, we created novel IFNAR1-targeted antagonists constituted of a high-affinity nanobody targeting a specific cell surface marker conjugated to a low-affinity blocking nanobody targeting IFNAR1. We first show in vitro and in vivo that such an antagonist targeting the mouse CD20 molecule (mCD20) inhibits IFNAR signaling only in B cells among splenocytes. We then showed in vitro that a human CD20 (hCD20)-targeted antagonist blocks IFNAR signaling and induces vesicular stomatitis virus (VSV) oncolytic activity against IFN-11-treated AK7 mesothelioma or B16 melanoma cells only if these cells express hCD20. In vivo, we show that the antagonist binds to hCD20 and enhances VSV replication by inhibiting ISG expression specifically in hCD20+ AK7 mesothelioma tumors. Altogether our results demonstrate the efficient and cell-type specific inhibition of IFNAR signaling through the use of these novel IFNAR1 antagonists, both in vitro and in vivo. These antagonists could have many therapeutic applications given the importance of IFN-I in numerous diseases.