Dual-Performing Vinyltetrazine for Rapid, Selective Bioconjugation and Functionalization of Cysteine Proteins

Although methods for Cys-specific bioconjugation and functionalization of proteins have been developed and widely utilized in biomolecule engineering and therapeutic development, reagents for this purpose are generally designed to accomplish bioconjugation only. Consequently, additional clickable groups must be attached to these reagents to accomplish functionalization. Herein, we describe a new, simple, dual-performing bioconjugation-functionalization reagent, VMeTz, which possesses an electron-withdrawing tetrazine (Tz) substituted vinyl (V) moiety to serve as both a Michael receptor for selective conjugation with Cys and a site for click with TCO derivatives to introduce functionality. Critically, VMeTz contains a methyl group that prevents the formation of multiple Tz-containing Cys-adducts. Reactions of VMeTz with Cys-containing peptides and proteins both in vitro and in live cells produce single stable Michael adducts with high selectivity. Moreover, the Cys-VMeTz peptide and protein conjugates undergo facile click reactions with TCO-functionalized reagents for labeling and protein profiling. Furthermore, VMeTz selectively activates and delivers the TCO-caged toxic substances Dox and PROTAC ARV-771 to cancer cells to produce therapeutic effects that are comparable to those of the parent drugs. Collectively, the studies demonstrate that VMeTz is a useful reagent for therapeutically significant Cys-specific protein bioconjugation and functionalization.