Radioimmunotherapy for liver micrometastases in mice: Pharmacokinetics, dose estimation, and long-term effect

Abstract

The pharmacokinetics of a therapeutic dose of 131I labeled antibody and the absorbed dose in liver micrometastases of human colon cancer LS174T in female BALB/c nu/nu mice were investigated, along with the long-term therapeutic effect. Mice with liver micrometastases were given an intravenous injection of 131I-labeled anti-carcinoembryonic antigen (CEA) antibody F33-101 (8.88 MBq/ 40 μg). The biodistribution of the antibody was determined 1, 2, 4, 6, and 10 days later. The absorbed dose was estimated for three hypothetical tumor diameters; 1000, 500, and 300 μm. Autoradiography showed a homogeneous distribution of radioactivity in the micrometastases, and a high uptake was maintained until day 6 (24.0% injected dose (ID)/g on day 1 to 17.8% ID/g on day 6), but decreased thereafter. The absorbed doses in the 1000-, 500-, and 300-μm tumors were calculated to be 19.1, 12.0, and 8.2 Gy, respectively. The intravenous injection of the 131I-labeled antibody also showed a dose-dependent therapeutic effect (all mice of the nontreated group died, with a mean survival period of 4 weeks; 3 of the 8 mice that received 9.25 MBq survived up to 120 days with no sign of liver metastasis). These data give further evidence that micrometastasis is a good target of radioimmunotherapy, and that an absorbed dose of less than 20 Gy can effectively control small metastatic lesions.