Abstract
The prognosis of advanced mesothelioma is poor. Podoplanin (PDPN) is highly expressed in most malignant mesothelioma. This study aimed to evaluate the potential alpha-radioimmunotherapy (RIT) with a newly developed anti-PDPN antibody, NZ-16, compared with a previous antibody, NZ-12. METHODS: The in vitro properties of radiolabeled antibodies were evaluated by cell binding and competitive inhibition assays using PDPN-expressing H226 mesothelioma cells. The biodistribution of (111)In-labeled antibodies was studied in tumor-bearing mice. The absorbed doses were estimated based on biodistribution data. Tumor volumes and body weights of mice treated with (90)Y- and (225)Ac-labeled NZ-16 were measured for 56 days. Histologic analysis was conducted. RESULTS: The radiolabeled NZ-16 specifically bound to H226 cells with higher affinity than NZ-12. The biodistribution studies showed higher tumor uptake of radiolabeled NZ-16 compared with NZ-12, providing higher absorbed doses to tumors. RIT with (225)Ac- and (90)Y-labeled NZ-16 had a significantly higher antitumor effect than RIT with (90)Y-labeled NZ-12. (225)Ac-labeled NZ-16 induced a larger amount of necrotic change and showed a tendency to suppress tumor volumes and prolonged survival than (90)Y-labeled NZ-16. There is no obvious adverse effect. CONCLUSIONS: Alpha-RIT with the newly developed NZ-16 is a promising therapeutic option for malignant mesothelioma.