INTRODUCTION: Radioimmunotherapy, which utilizes monoclonal antibodies and therapeutic radioisotopes against antigen-expressing tumor tissues, is an attractive therapeutic approach for cancer therapy. Trastuzumab (Herceptin) is a humanized anti-HER-2/neu monoclonal antibody for breast cancer treatment. In this paper, we introduce a new radioimmunoagent, (188)Re-trastuzumab, via a bifunctional ligand, succinimidyl 3,6-diaza-5-oxo-3-[2-((triphenylmethyl)thio)ethyl]-8-[(triphenylmethyl)thio]octanoate (SOCTA), and evaluate its potential to be a therapeutic radiopharmaceutical for breast cancer treatment. METHODS: Equimolar amounts of SOCTA and trastuzumab were selected to react, and the conjugation ratio of SOCTA-trastuzumab was evaluated by the MALDI-TOF method. The immunoreactivity of SOCTA-trastuzumab was compared with nonconjugated trastuzumab in HER-2/neu overexpressing human breast cancer cell BT-474. Biodistribution experiment and microSPECT/CT images of (188)Re-SOCTA-trastuzumab being administered intravenously to SCID mice bearing xenografted BT-474 breast cancer were investigated to evaluate the tumor-targeting capability. RESULTS: The covalent attachment of SOCTA to trastuzumab (at 1:1 molar ratio) resulted in the averaged conjugation ratio of 0.27+/-0.06 (n=3). The complex could easily be labeled with (188)Re and achieve 95% radiochemical purity (RCP) after 1 h of reaction at room temperature. The in vitro stability study also revealed that the RCP of (188)Re-SOCTA-trastuzumab was at a value of more than 85% after 48 h of incubation with human serum. The immunoreactivity evaluation showed that SOCTA-trastuzumab and nonconjugated trastuzumab had similar binding capacity (B(max)) to HER-2/neu receptor in BT-474 cells. The animal experiments showed that (188)Re-SOCTA-trastuzumab accumulated more intensively in the tumor site as compared to normal tissue. CONCLUSION: We suggest that (188)Re-SOCTA-trastuzumab could be a potential candidate for radioimmunotherapy.
INTRODUCTION: Radioimmunotherapy, which utilizes monoclonal antibodies and therapeutic radioisotopes against antigen-expressing tumor tissues, is an attractive therapeutic approach for cancer therapy. Trastuzumab (Herceptin) is a humanized anti-HER-2/neu monoclonal antibody for breast cancer treatment. In this paper, we introduce a new radioimmunoagent, (188)Re-trastuzumab, via a bifunctional ligand, succinimidyl 3,6-diaza-5-oxo-3-[2-((triphenylmethyl)thio)ethyl]-8-[(triphenylmethyl)thio]octanoate (SOCTA), and evaluate its potential to be a therapeutic radiopharmaceutical for breast cancer treatment. METHODS: Equimolar amounts of SOCTA and trastuzumab were selected to react, and the conjugation ratio of SOCTA-trastuzumab was evaluated by the MALDI-TOF method. The immunoreactivity of SOCTA-trastuzumab was compared with nonconjugated trastuzumab in HER-2/neu overexpressing humanbreast cancer cell BT-474. Biodistribution experiment and microSPECT/CT images of (188)Re-SOCTA-trastuzumab being administered intravenously to SCIDmice bearing xenografted BT-474 breast cancer were investigated to evaluate the tumor-targeting capability. RESULTS: The covalent attachment of SOCTA to trastuzumab (at 1:1 molar ratio) resulted in the averaged conjugation ratio of 0.27+/-0.06 (n=3). The complex could easily be labeled with (188)Re and achieve 95% radiochemical purity (RCP) after 1 h of reaction at room temperature. The in vitro stability study also revealed that the RCP of (188)Re-SOCTA-trastuzumab was at a value of more than 85% after 48 h of incubation with human serum. The immunoreactivity evaluation showed that SOCTA-trastuzumab and nonconjugated trastuzumab had similar binding capacity (B(max)) to HER-2/neu receptor in BT-474 cells. The animal experiments showed that (188)Re-SOCTA-trastuzumab accumulated more intensively in the tumor site as compared to normal tissue. CONCLUSION: We suggest that (188)Re-SOCTA-trastuzumab could be a potential candidate for radioimmunotherapy.
Authors: Jeffrey Y C Wong; Andrew Raubitschek; Dave Yamauchi; Lawrence E Williams; Anna M Wu; Paul Yazaki; John E Shively; David Colcher; George Somlo Journal: Cancer Biother Radiopharm Date: 2010-08 Impact factor: 3.099
Authors: Dustin Wayne Demoin; Ashley N Dame; William D Minard; Fabio Gallazzi; Gary L Seickman; Tammy L Rold; Nicole Bernskoetter; Michael E Fassbender; Timothy J Hoffman; Carol A Deakyne; Silvia S Jurisson Journal: Nucl Med Biol Date: 2016-08-31 Impact factor: 2.408
Authors: Betül Altunay; Agnieszka Morgenroth; Mohsen Beheshti; Andreas Vogg; Nicholas C L Wong; Hong Hoi Ting; Hans-Jürgen Biersack; Elmar Stickeler; Felix M Mottaghy Journal: Eur J Nucl Med Mol Imaging Date: 2020-11-12 Impact factor: 9.236