PURPOSE: The aim of the study was to establish and refine a preclinical model to alpha-immunoradiotherapy of ovarian cancer. EXPERIMENTAL DESIGN: At-211 was produced by cyclotron irradiation of a bismuth-209 target and isolated using a novel dry distillation procedure. Monoclonal antibodies were radiohalogenated with the intermediate reagent N-succinimidyl 3-(trimethylstannyl)benzoate and characterized in terms of radiochemical yield and in vitro binding properties. In vitro OVCAR-3 cells were irradiated using an external Cobalt-60 beam, as reference, or At-211-albumin and labeled antibody. Growth assays were used to establish cell survival. A Monte Carlo program was developed to simulate the energy imparted and the track length distribution. Nude mice were used for studies of WBC depression, with various activities of Tc-99m antibodies, as reference, and At-211 antibodies. In efficacy studies, OVCAR-3 cells were inoculated i.p., and animals were treated 2 weeks later. The animals were either dissected 6 weeks later or followed-up for long-term survival. RESULTS: A rapid distillation procedure, as well as a rapid and high-yield, single-pot labeling procedure, was achieved. From growth inhibition data, the relative biological effectiveness of the alpha-emission for OVCAR-3 cells was estimated to be approximately 5, which is in the same range as found in vivo for hematological toxicity. At-211 MOv18 was found to effectively inhibit the development of tumors and ascites, also resulting in long-term survival without significant toxic effect. CONCLUSIONS: Use of the short-range, high-linear energy transfer alpha-emitter At-211 conjugated to a surface epitope-recognizing monoclonal antibody appears to be highly efficient without significant toxicity in a mouse peritoneal tumor model, urging a Phase I clinical trial.
PURPOSE: The aim of the study was to establish and refine a preclinical model to alpha-immunoradiotherapy of ovarian cancer. EXPERIMENTAL DESIGN: At-211 was produced by cyclotron irradiation of a bismuth-209 target and isolated using a novel dry distillation procedure. Monoclonal antibodies were radiohalogenated with the intermediate reagent N-succinimidyl 3-(trimethylstannyl)benzoate and characterized in terms of radiochemical yield and in vitro binding properties. In vitro OVCAR-3 cells were irradiated using an external Cobalt-60 beam, as reference, or At-211-albumin and labeled antibody. Growth assays were used to establish cell survival. A Monte Carlo program was developed to simulate the energy imparted and the track length distribution. Nude mice were used for studies of WBC depression, with various activities of Tc-99m antibodies, as reference, and At-211 antibodies. In efficacy studies, OVCAR-3 cells were inoculated i.p., and animals were treated 2 weeks later. The animals were either dissected 6 weeks later or followed-up for long-term survival. RESULTS: A rapid distillation procedure, as well as a rapid and high-yield, single-pot labeling procedure, was achieved. From growth inhibition data, the relative biological effectiveness of the alpha-emission for OVCAR-3 cells was estimated to be approximately 5, which is in the same range as found in vivo for hematological toxicity. At-211 MOv18 was found to effectively inhibit the development of tumors and ascites, also resulting in long-term survival without significant toxic effect. CONCLUSIONS: Use of the short-range, high-linear energy transfer alpha-emitter At-211 conjugated to a surface epitope-recognizing monoclonal antibody appears to be highly efficient without significant toxicity in a mouse peritoneal tumor model, urging a Phase I clinical trial.
Authors: Steven I Park; Jaideep Shenoi; John M Pagel; Don K Hamlin; D Scott Wilbur; Nural Orgun; Aimee L Kenoyer; Shani Frayo; Amanda Axtman; Tom Bäck; Yukang Lin; Darrell R Fisher; Ajay K Gopal; Damian J Green; Oliver W Press Journal: Blood Date: 2010-08-11 Impact factor: 22.113
Authors: M Nestor; M Persson; G A M S van Dongen; H J Jensen; H Lundqvist; M Anniko; V Tolmachev Journal: Eur J Nucl Med Mol Imaging Date: 2005-07-19 Impact factor: 9.236
Authors: E Dadachova; T Burns; R A Bryan; C Apostolidis; M W Brechbiel; J D Nosanchuk; A Casadevall; L Pirofski Journal: Antimicrob Agents Chemother Date: 2004-05 Impact factor: 5.191
Authors: Peter M Smith-Jones; Neeta Pandit-Taskar; Wei Cao; Joseph O'Donoghue; Martin D Philips; Jorge Carrasquillo; Jason A Konner; Lloyd J Old; Steven M Larson Journal: Nucl Med Biol Date: 2008-04 Impact factor: 2.408
Authors: Johnnie J Orozco; Tom Bäck; Aimee Kenoyer; Ethan R Balkin; Donald K Hamlin; D Scott Wilbur; Darrell R Fisher; Shani L Frayo; Mark D Hylarides; Damian J Green; Ajay K Gopal; Oliver W Press; John M Pagel Journal: Blood Date: 2013-03-07 Impact factor: 22.113