Oral-recombinant Methioninase Converts an Osteosarcoma from Methotrexate-resistant to -sensitive in a Patient-derived Orthotopic-xenograft (PDOX) Mouse Model

Abstract

Background/Aim: Osteosarcoma is the most common bone sarcoma. Although surgery and chemotherapy are initially effective, the 5-year survival is approximately 60% to 80%, and has not improved over three decades. We have previously shown that methionine restriction (MR) induced by oral recombinant methioninase (o-rMETase), is effective against osteosarcoma in patient-derived orthotopic xenograft (PDOX) nude-mouse models. In the present report, the efficacy of the combination of oral o-rMETase and methotrexate (MTX) was examined in an osteosarcoma PDOX mouse model. Materials and Methods: An osteosarcoma-PDOX model was previously established by implanting tumor fragments into the proximal tibia of nude mice. The osteosarcoma PDOX models were randomized into four groups: control; o-rMETase alone; MTX alone; combination of o-rMETase and MTX. The mice were sacrificed after 4 weeks of treatment. Results: The combination of o-rMETase and MTX showed significantly higher efficacy compared to the control group (p=0.04). The combination also showed significantly higher efficacy compared to MTX alone (p=0.04). No significant efficacy of o-rMETase alone or MTX alone compared to control was shown (p=0.21, 1.00, respectively). Only the combination of o-rMETase and MTX reduced the cancer-cell density in the osteosarcoma tumor. Conclusion: rMETase converted an osteosarcoma PDOX from MTX-resistant to MTX-sensitive and thereby shows future clinical potential.