Site-Specific <sup>68</sup>Ga Radiolabeling of Trastuzumab Fab via Methionine for ImmunoPET Imaging
Thomas T. C. Yue, Ying Ge, Francesco A. Aprile, Michelle Ma, Truc Pham, Nicholas J. Long
Abstract
High Resolution Image Download MS PowerPoint Slide Bioconjugates of antibodies and their derivatives radiolabeled with β + -emitting radionuclides can be utilized for diagnostic PET imaging. Site-specific attachment of radioactive cargo to antibody delivery vectors provides homogeneous, well-defined immunoconjugates. Recent studies have demonstrated the utility of oxaziridine chemistry for site-specific labeling of methionine residues. Herein, we applied this approach to site-specifically radiolabel trastuzumab-derived Fab immunoconjugates with 68 Ga, which can be used for in vivo PET imaging of HER2-positive breast cancer tumors. Initially, a reactive azide was introduced to a single solvent-accessible methionine residue in both the wild-type Fab and an engineered derivative containing methionine residue M74, utilizing the principles of oxaziridine chemistry. Subsequently, these conjugates were functionalized with a modified DFO chelator incorporating dibenzocyclooctyne. The resulting DFO-WT and DFO-M74 conjugates were radiolabeled with generator-produced [ 68 Ga]Ga 3+, to yield the novel PET radiotracers, [ 68 Ga]Ga-DFO-WT and [ 68 Ga]Ga-DFO-M74. In vitro and in vivo studies demonstrated that [ 68 Ga]Ga-DFO-M74 exhibited a higher affinity for HER2 receptors. Biodistribution studies in mice bearing orthotopic HER2-positive breast tumors revealed a higher uptake of [ 68 Ga]Ga-DFO-M74 in the tumor tissue, accompanied by rapid renal clearance, enabling clear delineation of tumors using PET imaging. Conversely, [ 68 Ga]Ga-DFO-WT exhibited lower uptake and inferior image contrast compared to [ 68 Ga]Ga-DFO-M74. Overall, the results demonstrate that the highly facile methionine-oxaziridine modification approach can be simply applied to the synthesis of stable and site-specifically modified radiolabeled antibody–chelator conjugates with favorable pharmacokinetics for PET imaging.