Optimization of IEDDA bioorthogonal system: Efficient process to improve trans-cyclooctene/tetrazine interaction.

The antibody pretargeting approach for radioimmunotherapy (RIT) using inverse electron demand Diels-Alder cycloaddition (IEDDA) constitutes an emerging theranostic approach for solid cancers. However, IEDDA pretargeting has not reached clinical trial. The major limitation of the IEDDA strategy depends largely on trans-cyclooctene (TCO) stability. Indeed, TCO may isomerize into the more stable but unreactive cis-cyclooctene (CCO), leading to a drastic decrease of IEDDA efficiency. We have thus developed both efficient and reproducible synthetic pathways and analytical follow up for (PEGylated) TCO derivatives, providing high TCO isomeric purity for antibody modification. We have set up an original process to limit the isomerization of TCO to CCO before the mAbs' functionalization to allow high TCO/tetrazine cycloaddition. Image 1 • Optimized method to synthesize PEGylated aminoacid with oligomeric lengths (4, 8, 12). • An optimized one-pot two-step synthesis process to obtain PEGylated aminoacids. • The HPLC monitoring process controls the isomerization of TCO precursors. • Optimization of TCO precursors for immunopretargeting approach. [ABSTRACT FROM AUTHOR]