Bioorthogonal Tetrazine Carbamate Cleavage by Highly Reactive Trans-Cyclooctene

20 December 2019, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The high reaction rate of the 'click-to-release' reaction between allylic substituted trans-cyclooctene and tetrazine has enabled exceptional control over chemical and biological processes. Here we report the development of a new bioorthogonal cleavage reaction based on trans-cyclooctene and tetrazine with up to 3 orders of magnitude higher reactivity compared to the parent reaction, and 4 to 6 orders higher than other cleavage reactions. In this new pyridazine elimination mechanism, wherein the roles a reversed, a trans-cyclooctene activator reacts with a tetrazine that is substituted with a methylene-linked carbamate, leading to an 1,4-elimination of the carbamate and liberation of an amine. Through a series of mechanistic studies, we identified the 2,5-dihydropyridazine tautomer as the releasing species and found factors that govern its formation and subsequent fragmentation. The bioorthogonal utility was demonstrated by the selective cleavage of a tetrazine-linked antibody-drug conjugate by trans-cyclooctenes, affording efficient drug liberation in plasma and cell culture. Finally, the parent and the new reaction were compared at low concentration, showing that the use of a highly reactive trans-cyclooctene as activator leads to a complete reaction with antibody-drug conjugate in seconds vs. hours for the parent system. We believe that this new reaction may allow markedly reduced click-to-release reagent doses in vitro and in vivo and could expand the application scope to conditions wherein the trans-cyclooctene has limited stability.

Keywords

Bioorthogonal Click Conjugation
bioorthogonal cycloaddition reaction
elimination
click-chemistry-derived
tetrazine ring
Trans-cyclooctene (TCO)

Supplementary materials

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20191217 Click-to-Release from Tetrazine SI
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