Issue 1, 2024

Chemical technology principles for selective bioconjugation of proteins and antibodies

Abstract

Proteins are multifunctional large organic compounds that constitute an essential component of a living system. Hence, control over their bioconjugation impacts science at the chemistry–biology–medicine interface. A chemical toolbox for their precision engineering can boost healthcare and open a gateway for directed or precision therapeutics. Such a chemical toolbox remained elusive for a long time due to the complexity presented by the large pool of functional groups. The precise single-site modification of a protein requires a method to address a combination of selectivity attributes. This review focuses on guiding principles that can segregate them to simplify the task for a chemical method. Such a disintegration systematically employs a multi-step chemical transformation to deconvolute the selectivity challenges. It constitutes a disintegrate (DIN) theory that offers additional control parameters for tuning precision in protein bioconjugation. This review outlines the selectivity hurdles faced by chemical methods. It elaborates on the developments in the perspective of DIN theory to demonstrate simultaneous regulation of reactivity, chemoselectivity, site-selectivity, modularity, residue specificity, and protein specificity. It discusses the progress of such methods to construct protein and antibody conjugates for biologics, including antibody–fluorophore and antibody–drug conjugates (AFCs and ADCs). It also briefs how this knowledge can assist in developing small molecule-based covalent inhibitors. In the process, it highlights an opportunity for hypothesis-driven routes to accelerate discoveries of selective methods and establish new targetome in the precision engineering of proteins and antibodies.

Graphical abstract: Chemical technology principles for selective bioconjugation of proteins and antibodies

Article information

Article type
Review Article
Submitted
31 Ago 2023
First published
14 Des 2023

Chem. Soc. Rev., 2024,53, 380-449

Chemical technology principles for selective bioconjugation of proteins and antibodies

P. Chauhan, R. V., M. Kumar, R. Molla, S. D. Mishra, S. Basa and V. Rai, Chem. Soc. Rev., 2024, 53, 380 DOI: 10.1039/D3CS00715D

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