Preclinical evaluation of an engineered oncolytic herpes simplex virus for pediatric osteosarcoma.

Abstract

10040 Background: Osteosarcoma is the most common primary bone tumor in children. For those with relapsed or metastatic disease, the five-year survival rate is approximately 20%, and survivors often suffer from long-term disability from current therapies. The high morbidity and mortality for these patients highlight a great need for improved therapies. One such novel therapeutic approach is oncolytic herpes simplex virus (oHSV) immunovirotherapy. We previously demonstrated that M002, an engineered oHSV that contains deletions of the neurovirulence gene preventing infection of normal cells, effectively infects and kills neuroblastoma and rhabdomyosarcoma. Currently, similar oHSVs are being evaluated in early phase clinical trials for children and adults with relapsed or refractory brain tumors. To date, there has been limited investigation of oncolytic virotherapy in osteosarcoma. Thus, we sought to examine the ability of oHSV, M002, to infect and kill osteosarcoma cells in\xa0vitro. Methods: We evaluated two long-term passaged human osteosarcoma cell lines, U2-OS and MG-63. Flow cytometry was used to assess baseline expression of oHSV viral entry-mediated receptors (CD111, CD112, syndecan, HVEM). Single and multi-step viral recovery experiments measured virus infectivity and replication. Cells were infected with increasing multiplicity of infection (MOI) of M002, and cell viability was measured 72 hours post-infection via alamarBlue assay. Results: Both MG-63 and U2-OS cells expressed HSV entry molecules (Table) including high levels of the primary HSV entry molecule CD111. Single step virus recovery experiments in MG-63 cells infected at a MOI of 10 plaque-forming units (PFU)/cell demonstrated a 3 log-fold increase in virus titer from 12 to 24 hours post-infection. For multi-step experiments, MG-63 cells were infected with a MOI of 0.1 PFU/cell; viral replication significantly increased from 1.1x103 PFU at 6 hours post-infection to 3.8x1010 PFU at 72 hours post-infection. M002 successfully decreased osteosarcoma viability with a lethal dose in 50% of cells (LD50)of 2.82 and0.67 PFU/cell for MG-63 and U2-OS cells, respectively. Notably, at a virus MOI of 5 PFU/cell, viability was decreased by 64% ± 0.1% (p<0.001 vs control) in MG-63 cells and 96% ± 0.1% (p<0.001 vs control) in U2-OS cells. Conclusions: MG-63 and U2-OS osteosarcoma cells express high levels of HSV entry receptors. Virus recovery experiments demonstrated the ability of M002 to infect cells and replicate over time. The viability of osteosarcoma cells significantly decreased following infection with M002. These data suggest M002 may be a promising novel therapeutic option for patients with osteosarcoma and warrant further investigation for translation to the clinical setting.[Table: see text]