Late-Stage Amination of Drug-Like Benzoic Acids: Access to Anilines and Drug Conjugates Through Directed Iridium-Catalyzed C-H Activation

Overview

Journal Chemistry

Specialty Chemistry

Date 2021 Oct 21

PMID 34672032

Citations 3

Authors

Erik Weis

Magnus J Johansson

Belen Martin-Matute

Affiliations

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Abstract

The functionalization of C-H bonds, ubiquitous in drugs and drug-like molecules, represents an important synthetic strategy with the potential to streamline the drug-discovery process. Late-stage aromatic C-N bond-forming reactions are highly desirable, but despite their significance, accessing aminated analogues through direct and selective amination of C-H bonds remains a challenging goal. The method presented herein enables the amination of a wide array of benzoic acids with high selectivity. The robustness of the system is manifested by the large number of functional groups tolerated, which allowed the amination of a diverse array of marketed drugs and drug-like molecules. Furthermore, the introduction of a synthetic handle enabled expeditious access to targeted drug-delivery conjugates, PROTACs, and probes for chemical biology. This rapid access to valuable analogues, combined with operational simplicity and applicability to high-throughput experimentation has the potential to aid and considerably accelerate drug discovery.

Citing Articles

Synthesis of Benzoic Acids from Electrochemically Reduced CO Using Heterogeneous Catalysts.

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Merging Directed C-H Activations with High-Throughput Experimentation: Development of Iridium-Catalyzed C-H Aminations Applicable to Late-Stage Functionalization.

Weis E, Johansson M, Korsgren P, Martin-Matute B, Johansson M JACS Au. 2022; 2(4):906-916.

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Late-Stage Amination of Drug-Like Benzoic Acids: Access to Anilines and Drug Conjugates through Directed Iridium-Catalyzed C-H Activation.

Weis E, Johansson M, Martin-Matute B Chemistry. 2021; 27(72):18188-18200.

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