Jørgen Borrebæk

Experimental α-particle radioimmunotherapy of breast cancer using 227Th-labeled p-benzyl-DOTA-trastuzumab

BackgroundThe aim of the present study was to explore the biodistribution, normal tissue toxicity, and therapeutic efficacy of the internalizing low-dose rate alpha-particle-emitting radioimmunoconjugate 227Th-trastuzumab in mice with HER2-expressing breast cancer xenografts.MethodsBiodistribution of 227Th-trastuzumab and 227Th-rituximab in nude mice bearing SKBR-3 xenografts were determined at different time points after injection. Tumor growth was measured after administration of 227Th-trastuzumab, 227Th-rituximab, cold trastuzumab, and saline. The toxicity of 227Th-trastuzumab was evaluated by measurements of body weight, blood cell, and clinical chemistry parameters, as well as histological examination of tissue specimens.ResultsThe tumor uptake reached peak levels of 34% ID/g (4.6 kBq/g) 3 days after injection of 400 kBq/kg of 227Th-trastuzumab. The absorbed radiation dose to tumor was 2.9 Gy, while it was 2.4 Gy to femur due to uptake of the daughter nuclide 223Ra in bone; the latter already explored in clinical phases I and II trials without serious toxicity. A significant dose-dependent antitumor effect was observed for dosages of 200, 400, and 600 kBq/kg of 227Th-trastuzumab but no effect of 400 and 600 kBq/kg 227Th-rituximab (non-tumor binding). No serious delayed bone marrow or normal organ toxicity was observed, but there was a statistical significant reduction in blood cell parameters for the highest-dose group of 227Th-trastuzumab treatment.ConclusionInternalizing 227Th-trastuzumab therapy was well tolerated and resulted in a dose-dependent inhibition of breast cancer xenograft growth. These results warrant further preclinical studies aiming at a clinical trial in breast cancer patients with metastases to bone.

Treatment of HER2-Expressing Breast Cancer and Ovarian Cancer Cells With Alpha Particle-Emitting 227Th-Trastuzumab

PURPOSE To evaluate the cytotoxic effects of low-dose-rate alpha particle-emitting radioimmunoconjugate (227)Th-p-isothiocyanato-benzyl-DOTA-trastuzumab ((227)Th-trastuzumab [where DOTA is 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid]) internalized by breast and ovarian cancer cell lines in order to assess the potential of (227)Th-trastuzumab as a therapeutic agent against metastatic cancers that overexpress the HER2 oncogene. METHODS AND MATERIALS Clonogenic survival and cell growth rates of breast cancer cells treated with (227)Th-trastuzumab were compared with rates of cells treated with nonbinding (227)Th-rituximab, cold trastuzumab, and X-radiation. Cell growth experiments were also performed with ovarian cancer cells. Cell-associated radioactivity was measured at several time points, and the mean radiation dose to cells was calculated. RESULTS SKBR-3 cells got 50% of the mean absorbed radiation dose from internalized activity and 50% from cell surface-bound activity, while BT-474 and SKOV-3 cells got 75% radiation dose from internalized activity and 25% from cell surface-bound activity. Incubation of breast cancer cells with 2.5 kBq/ml (227)Th-trastuzumab for 1 h at 4°C, followed by washing, resulted in mean absorbed radiation doses of 2 to 2.5 Gy. A dose-dependent inhibition of cell growth and an increase in apoptosis were induced in all cell lines. CONCLUSIONS Clinically relevant activity concentrations of (227)Th-trastuzumab induced a specific cytotoxic effect in three HER2-expressing cell lines. The cytotoxic effect of (227)Th-trastuzumab was higher than that of single-dose X-radiation (relative biological effectiveness = 1.2). These results warrant further studies of treatment of breast cancer and ovarian cancer with (227)Th-trastuzumab.