Background: Gallbladder carcinoma (GBC) has a high mortality rate, requiring synergistic anti-tumor management for effective treatment. The myxoma virus (MYXV) exhibits a modest clinical value through its oncolytic potential and narrow host tropism.
Methods: We performed viral replication assays, cell viability assays, migration assays, and xenograft tumor models to demonstrate that bone marrow-derived stem cells (BMSCs) may enhance efficiency of intravenous MYXV delivery.
Results: We examined the permissiveness of various GBC cell lines towards MYXV infection and found two supported single and multiple rounds of MYXV replication, leading to an oncolytic effect. Furthermore, we found that BMSCs exhibited tropism for GBC cells within a Matrigel migration system. BMSCs failed to affect the growth of GBC cells, in terms of tumor volume and survival time. Finally, we demonstrated in vivo that intravenous injection of MYXV-infected BMSCs significantly improves the oncolytic effect of MYXV alone, almost to the same extent as intratumoral injection of MYXV.
Conclusion: This study indicates that BMSCs are a promising novel vehicle for MYXV to clinically address gallbladder tumors.