Issue 24, 2023

Designing drugs and chemical probes with the dualsteric approach

Abstract

Traditionally, drugs are monovalent, targeting only one site on the protein surface. This includes orthosteric and allosteric drugs, which bind the protein at orthosteric and allosteric sites, respectively. Orthosteric drugs are good in potency, whereas allosteric drugs have better selectivity and are solutions to classically undruggable targets. However, it would be difficult to simultaneously reach high potency and selectivity when targeting only one site. Also, both kinds of monovalent drugs suffer from mutation-caused drug resistance. To overcome these obstacles, dualsteric modulators have been proposed in the past twenty years. Compared to orthosteric or allosteric drugs, dualsteric modulators are bivalent (or bitopic) with two pharmacophores. Each of the two pharmacophores bind the protein at the orthosteric and an allosteric site, which could bring the modulator with special properties beyond monovalent drugs. In this study, we comprehensively review the current development of dualsteric modulators. Our main effort reason and illustrate the aims to apply the dualsteric approach, including a “double win” of potency and selectivity, overcoming mutation-caused drug resistance, developments of function-biased modulators, and design of partial agonists. Moreover, the strengths of the dualsteric technique also led to its application outside pharmacy, including the design of highly sensitive fluorescent tracers and usage as molecular rulers. Besides, we also introduced drug targets, designing strategies, and validation methods of dualsteric modulators. Finally, we detail the conclusions and perspectives.

Graphical abstract: Designing drugs and chemical probes with the dualsteric approach

Article information

Article type
Review Article
Submitted
11 авг 2023
First published
22 ное 2023

Chem. Soc. Rev., 2023,52, 8651-8677

Designing drugs and chemical probes with the dualsteric approach

J. Zha, J. He, C. Wu, M. Zhang, X. Liu and J. Zhang, Chem. Soc. Rev., 2023, 52, 8651 DOI: 10.1039/D3CS00650F

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