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Abstract
Purpose: Control of micrometastatic ovarian cancer in the peritoneal cavity remains a major objective in post-surgical treatment. The purpose of this project was to investigate the efficacy and toxicity of targeted alpha therapy (TAT) for ovarian cancer in vitro and in vivo in animal models and to select the optimal targeting vector for an ovarian cancer clinical trial. Animal models of ovarian, breast and prostate cancer were developed and for further TAT; a phase I melanoma clinical trial was supported, paving the way for an ovarian cancer clinical trial.
Methods: The expression of the turnor-associated antigens (Her2, MUC1, uPAfuPAR) on cancer cell line, animal model xenografts and human ovarian cancer tissue was tested by immunostaining. MTS and TUNEL assays were used to evaluate cell killing of alpha conjugates in monolayer and spheroids. Toxicity and maximum tolerance doses for different vectors were tested and determined in vivo. Pharmacokinetics was studied for different time points and different parameters. The antiproliferative effect of 213Bi-C595 and 213Bi-PAI2 was tested at 9 days post-peritoneal cell inoculation of the ovarian cancer cell line OVCAR3. The treatment efficacy of 213Bi-Herceptin was tested at a 2 days post-subcutaneous breast cancer cell BT474 inoculation. Mice were injected (i.p) with various concentrations of alpha conjugates (AC). Changes in cancer progression were assessed by girth size and tumor size.
Results: uPA/uPAR and MUCI are expressed on ovarian cancer cell lines and more than 45% ovarian cancer tissue, while HER2 was only positive in one cell line and was positive in less than 15% of ovarian cancer tissues. The ACs can target and kill cancer cells in vitro in a dose dependent fashion. TUNEL positive cells were found after incubation with the different ACs. PAI2 and C595 vectors were selected for in vivo ascites model study of OVCARJ cell with high expression. Delayed and acute toxicity in animal models showed that radiation nephropathy was the cause of body weight loss. Biodistribution studies showed that kidney was the major uptake organ. L-lysine can reduce kidney uptake for 213Bi-PAI2, but no significant differences were found. A single ip injection of 213Bi-C595 or 213Bi-PAI2 can inhibit ascites growth, whereas, 213Bi-Herceptin can inhibit breast cancer growth in a nude mice model.
Conclusion: 213Bi labelled targeting vectors can specifically target ovarian cancer cells in vitro and inhibit tumor growth in vivo. These ACs may be useful agents for the treatment of ovarian cancer at the minimum residual disease stage.