Harnessing 64Cu/67Cu for a theranostic approach to pretargeted radioimmunotherapy
Menée à l'aide d'un modèle murin de carcinome colorectal d'origine humaine, cette étude met en évidence l'intérêt d'une approche théranostique consistant à injecter successivement un anticorps ciblant les cellules cancéreuses et deux radioligands, l'un porteur de l'isotope 64Cu et l'autre porteur de l'isotope 67Cu
Radioimmunotherapy is predicated on harnessing the exquisite specificity of antibodies to deliver cytotoxic radiation to tumors. Yet the long circulation time of radioimmunoconjugates leads to high radiation doses to healthy tissues. Pretargeted radioimmunotherapy (PRIT) circumvents this problem by decoupling the antibody and radionuclide, injecting the former prior to the latter, and empowering the two components to combine at the tumor. We have leveraged bioorthogonal click chemistry, a colorectal cancer-targeting antibody, and a pair radioligands bearing radioisotopes of copper—positron-emitting copper-64 and beta particle-emitting copper-67—to create a pretargeting system that enables both theranostic positron emission tomography and PRIT. We believe that the incorporation of theranostic imaging into PRIT regimens could be instrumental in the clinical success of the modality.Over the past decade, theranostic imaging has emerged as a powerful clinical tool in oncology for identifying patients likely to respond to targeted therapies and for monitoring the response of patients to treatment. Herein, we report a theranostic approach to pretargeted radioimmunotherapy (PRIT) based on a pair of radioisotopes of copper: positron-emitting copper-64 (64Cu, t1/2 = 12.7 h) and beta particle-emitting copper-67 (67Cu, t1/2 = 61.8 h). This strategy is predicated on the in vivo ligation between a trans-cyclooctene (TCO)-bearing antibody and a tetrazine (Tz)-based radioligand via the rapid and bioorthogonal inverse electron-demand Diels–Alder reaction. Longitudinal therapy studies were conducted in a murine model of human colorectal carcinoma using an immunoconjugate of the huA33 antibody modified with TCO (huA33-TCO) and a 67Cu-labeled Tz radioligand ([67Cu]Cu-MeCOSar-Tz). The injection of huA33-TCO followed 72 h later by the administration of 18.5, 37.0, or 55.5 MBq of [67Cu]Cu-MeCOSar-Tz produced a dose-dependent therapeutic response, with the median survival time increasing from 68 d for the lowest dose to >200 d for the highest. Furthermore, we observed that mice that received the highest dose of [67Cu]Cu-MeCOSar-Tz in a fractionated manner exhibited improved hematological values without sacrificing therapeutic efficacy. Dual radionuclide experiments in which a single administration of huA33-TCO was followed by separate injections of [64Cu]Cu-MeCOSar-Tz and [67Cu]Cu-MeCOSar-Tz revealed that the positron emission tomography images produced by the former accurately predicted the efficacy of the latter. In these experiments, a correlation was observed between the tumoral uptake of [64Cu]Cu-MeCOSar-Tz and the subsequent therapeutic response to [67Cu]Cu-MeCOSar-Tz.All study data are included in the article and SI Appendix.