Litcius/Paper detail

Temporal Control of Efficient <i>In Vivo</i> Bioconjugation Using a Genetically Encoded Tetrazine-Mediated Inverse-Electron-Demand Diels–Alder Reaction

Byungseop Yang, Kiyoon Kwon, Subhashis Jana, Seoungkyun Kim, Savanna Avila-Crump, Giyoong Tae, Ryan A. Mehl, Inchan Kwon

2020Bioconjugate Chemistry23 citationsDOI

Abstract

An inverse-electron-demand Diels–Alder (IEDDA) reaction using genetically encoded tetrazine variants enables rapid bioconjugation for diverse applications in vitro and in cellulo. However, in vivo bioconjugation using genetically encoded tetrazine variants is challenging, because the IEDDA coupling reaction competes with rapid elimination of reaction partners in vivo. Here, we tested the hypothesis that a genetically encoded phenylalanine analogue containing a hydrogen-substituted tetrazine (frTet) would increase the IEDDA reaction rate, thereby allowing for successful bioconjugation in vivo. We found that the in vitro IEDDA reaction rate of superfolder green fluorescent protein (sfGFP) containing frTet (sfGFP-frTet) was 12-fold greater than that of sfGFP containing methyl-substituted tetrazine (sfGFP-Tet_v2.0). Additionally, sfGFP variants encapsulated with chitosan-modified, pluronic-based nanocarriers were delivered into nude mice or tumor-bearing mice for in vivo imaging. The in vivo-delivered sfGFP-frTet exhibited almost complete fluorescence recovery upon addition of trans-cyclooctene via the IEDDA reaction within 2 h, whereas sfGFP-Tet_v2.0 did not show substantial fluorescence recovery. These results demonstrated that the genetically encoded frTet allows an almost complete IEDDA reaction in vivo upon addition of trans-cyclooctene, enabling temporal control of in vivo bioconjugation in a very high yield.

Topics & Concepts

TetrazineBioconjugationIn vivoChemistryBioorthogonal chemistryIn vitroGreen fluorescent proteinFluorescenceBiophysicsCell biologyBiochemistryCombinatorial chemistryClick chemistryBiologyGeneOrganic chemistryBiotechnologyPhysicsQuantum mechanicsClick Chemistry and ApplicationsMonoclonal and Polyclonal Antibodies ResearchChemical Synthesis and Analysis