![]() The bioconjugation strategy was assessed using ESI mass spectrometry, SDS-PAGE, and autoradiography. Zr- SSKDFO-pertuzumab was compared to a pair of analogous probes: one synthesized via random lysine modification (Zr-DFO-pertuzumab) and another via thiol-maleimide chemistry (Zr- malDFO-pertuzumab). This methodology was used to create Zr- SSKDFO-pertuzumab, a radioimmunoconjugate of the HER2-targeting mAb pertuzumab labeled with desferrioxamine (DFO) and the positron-emitting radiometal zirconium-89 ( 89Zr). This strategy relies upon on the selective modification of single lysine residues within each light chain of the monoclonal antibody (mAb) with a branched azide-bearing perfluorophenyl ester (PFP-bisN 3) followed by the ligation of dibenzocyclooctyne (DBCO)-bearing payloads to these bioorthogonal handles via the strain-promoted azide–alkyne cycloaddition. Herein, we describe the use of a simple and facile approach to lysine-directed site-selective bioconjugation for the generation of radioimmunoconjugates. In response to this, several site-selective approaches to bioconjugation have been developed, yet each has intrinsic drawbacks, such as the need for expensive reagents or the complexity of incorporating unnatural amino acids into IgGs. The synthesis of radioimmunoconjugates via the stochastic attachment of bifunctional chelators to lysines can yield heterogeneous products with suboptimal in vitro and in vivo behavior.
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