Asparaginyl Endopeptidase-Mediated Protein C-Terminal Hydrazinolysis for the Synthesis of Bioconjugates

Asparaginyl endopeptidases (AEPs) are cysteinyl enzymes naturally catalyzing the hydrolysis and transpeptidation reactions at Asx–Xaa bonds. These reactions go by a common acyl-enzyme thioester intermediate, which is either attacked by water (for a protease-AEP) or by a peptidic amine nucleophile (for a ligase-AEP) to form the respective hydrolysis or aminolysis product. Herein, we show that hydrazine and hydroxylamine, two α-effect nucleophiles, are capable of resolving the thioester intermediate to yield peptide and protein products containing a C-terminal hydrazide and hydroxamic acid functionality, respectively. The hydrazinolysis reaction exhibits very high efficiency and can be completed in minutes at a low enzyme-to-substrate ratio. We further show the utility of the so-formed asparaginyl hydrazide in native chemical ligation and hydrazone conjugation. Using an EGFR-targeting affibody as a model protein, we have showcased our methodology in the preparation of a number of protein ligation or conjugation products, which are decorated with various functional moieties. The ZEGFR affibody-doxorubicin conjugate shows high selective binding and cytotoxicity toward the EGFR-positive A431 cells. Our results demonstrate the advantages of AEP-mediated protein hydrazinolysis as a simple and straightforward strategy for the precision manufacturing of protein bioconjugates.