Abstract 940: Development of ONCR-177, an miR-attenuated oncolytic HSV-1 designed to potently activate systemic antitumor immunity

ONCR-177 is a highly modified recombinant oncolytic Herpes Simplex Virus (oHSV) designed to be a safe and efficacious therapy for the treatment of solid tumor indications. Complementary safety mechanisms, such as tissue-specific miR attenuation of essential viral genes and UL37 mutation, were introduced to reduce replication, neuropathic activity, and latency in normal cells, while preserving oncolytic ability in tumor cells. In addition, ONCR-177 is armed with five transgenes: the NK and T cell activating cytokine IL-12, the chemokines CCL4 and FLT3LG (extracellular domain) to allow for expansion and recruitment of classical dendritic cells, and antagonists to the clinically validated immune checkpoint targets PD-1 and CTLA-4 to counter T cell exhaustion. Therefore, ONCR-177 is proposed to have a dual mechanism of action whereby the miR attenuation strategy allows for selective oncolysis of tumors cells and the transgenes mediate potent stimulation of systemic anti-tumor immunity. Since human IL-12 and the anti-CTLA-4 antagonist do not cross-react with the mouse targets, most nonclinical pharmacology studies were conducted with the mouse surrogate mONCR-171, which expresses within the same base vector as ONCR-177 the mouse equivalent to the ONCR-177 transgenes. Intra-tumoral administration of mONCR-171 in the oHSV-sensitive A20 BALB/c lymphoma bilateral tumor model resulted in response rates (partial and complete tumor regressions) of 100% and 80%, respectively, on the injected (ipsilateral) and distant (contralateral) tumor. mONCR-171 was also highly efficacious in the B16F10 melanoma model, an oHSV-resistant C57BL/6 based tumor model engineered to be permissive to oHSV by introduction of Nectin-1, and in the oHSV-resistant MC38 C57BL/6 colon carcinoma model. Abscopal anti-tumor activity could not be explained by propagation of the virus since viral DNA and transgenes were only detectable in the injected tumor. Rather, mONCR-171 treatment resulted in increased numbers of activated NK cells, CD8 and CD4 T cells, and classical dendritic cells. The proportion of Tregs decreased, resulting in large CD8/Treg ratios. These changes in immune contexture occurred in both the ipsilateral and contralateral tumor and were more pronounced with mONCR-171 treatment compared to the base vector without transgenes, indicating that the observed abscopal effects were due to the elicitation of systemic anti-tumor immunity mediated in part by the transgenes. These encouraging preclinical data warrant the clinical investigation of ONCR-177 in patients with metastatic cancer. Citation Format: Brian B. Haines, Agnieszka Denslow, Michael S. Ball, Jacqueline Gursha, Daniel Wambua, Cecilia Kwong, Lingxin Kong, Prajna Behera, Peter Grzesik, Caitlin Goshert, Allison Colthart, Jennifer S. Lee, Terry Farkaly, Edward M. Kennedy, Lorena Lerner, Christophe Queva. Development of ONCR-177, an miR-attenuated oncolytic HSV-1 designed to potently activate systemic antitumor immunity [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 940.