Transforming tumor immune microenvironments with a novel systemic enveloped oncolytic virotherapy targeting all tumor sites.

Abstract

2559 Background: Systemic oncolytic virotherapy offers a promising solution for treating both local and metastatic diseases. However, the rapid inactivation of virotherapeutics by the immune system has resulted in disappointing clinical efficacy. To address this challenge, we have built a new program (ImmunoNova) to develop a cellular-based technology that protects oncolytic virotherapy, allowing for successful targeting of the therapy to tumor sites and effectively overcoming clinical challenges. This approach involves utilizing a newly selected and engineered, tumor-selective strain of vaccinia virus (RT-01). This strain produces high levels of extracellular enveloped virions (EEVs) that contain a second human cell-derived membrane, providing augmented protection against elimination by the immune system when administered systemically. The process requires specific manufacturing methods to preserve this crucial second human cellular membrane. Methods: The resistance of the manufactured enveloped RT-01 (envRT-01) virus against human humoral immunity and its rapid spread were assessed ex-vivo using a plaque assay. EnvRT-01 was administered in various xenograft and syngeneic models to evaluate its specificity in targeting tumors and its therapeutic efficacy, either alone or in combination with cell therapies. The amplification of virus-encoded RFP was monitored using an imaging system. Additionally, flow cytometry and immunohistochemistry (IHC) were employed to analyze immune infiltration in both treated and untreated tumors. Results: EnvRT-01 particles exhibited an approximately 80% survival rate in the presence of active complement. In animal studies, a single systemic dose of envRT-01 selectively targeted three distinct human cancer indications (lung, melanoma, head & neck), leading to the suppression of tumor growth in all three cases. Similarly, in an immunocompetent syngeneic lung tumor model, envRT-01 effectively targeted and reduced multiple murine lung tumors with just a low single dose of treatment. EnvRT-01 was capable of targeting and expressing viral-encoded proteins in all tumor sites and drastically modifying the tumor immune microenvironment, favoring an anti-tumor immune phenotype and facilitating other cell therapies such as innate-based cell therapies. Conclusions: The development of this innovative enveloped oncolytic virotherapeutic, coupled with advancements in its manufacturing methods, opens up new possibilities in the realm of cancer therapy. It addresses the limitations posed by untargetable and untreatable metastatic diseases, presenting a transformative solution with broad implications for the field.