Continuous flow synthesis of the antiviral drug tecovirimat and related sp3-rich scaffolds

Abstract

Herein we report a 2-step continuous flow synthesis of the antiviral drug tecovirimat, which is used for the treatment of monkeypox and smallpox. This work exploits a high-temperature pericyclic cascade process between cycloheptatriene and maleic anhydride generating a key sp³-rich scaffold, which affords the desired API after further condensation with an acyl hydrazide. Additional investigations of the key intermediate in reactions with different hydrazines revealed the accessibility of different heterocyclic chemotypes, depending on the substitution pattern of the hydrazine used. Ultimately, the streamlined and scalable access to these sp³-rich scaffolds enables improved access to tecovirimat and structurally related entities with high drug-like character.