Synergistic Eradication of Fibrosarcoma With Acquired Ifosfamide Resistance Using Methionine Restriction Combined With Ifosfamide in Nude-mouse Models

Background/aim: Ifosfamide is used clinically with doxorubicin as first-line chemotherapy for soft-tissue sarcoma. However, ifosfamide efficacy for soft-tissue sarcoma is limited due to frequent occurence of ifosfamide resistance and thus more effective therapy is needed. The present study aimed to determine the synergy of recombinant methioninase (rMETase) plus ifosfamide against HT1080 human fibrosarcoma cells in vitro. Additionally, the present study also investigated the efficacy of a methionine-restricted diet combined with ifosfamide in nude-mouse models of ifosfamide-resistant HT1080 (IR-HT1080).

Materials and methods: Cell viability for HT1080 human fibrosarcoma cells was determined in four groups in vitro: No treatment control; ifosfamide alone; rMETase alone; and a combination of ifosfamide plus rMETase. HT1080 tumors were established in nude mice subcutaneously. The HT1080 tumor models were treated by administering ifosfamide by intraperitoneal injection twice a week, for a total of 11 doses. Surviving tumors were considered ifosfamide resistant (IR-HT1080). Four groups of IR-HT1080 nude-mouse models were subsequently established: Group 1 was a no-treatment control, Group 2 received ifosfamide, Group 3 was given a methionine-restricted diet (MR), and Group 4 received ifosfamide plus MR. Additionally, two groups of nude mice with parental HT1080 subcutaneous tumors were included: Group 5 was a no-treatment control, and Group 6 received ifosfamide for comparison.

Results: The 50% inhibitory concentration (IC₅₀) for ifosfamide against HT1080 cells was 0.38 mM. The IC₅₀ for rMETase was 0.75 U/ml for HT1080 cells (data from [4]). The combination of rMETase (0.75 U/ml) plus ifosfamide (0.38 mM) was synergistic against HT1080 fibrosarcoma cells in vitro. The combination of ifosfamide plus MR eradicated the IR-HT1080 tumors in nude-mouse models, while each treatment alone achieved limited tumor inhibition.

Conclusion: The present results suggest the combination of MR and ifosfamide has promising potential for overcoming ifosfamide resistance in future clinical applications.