What question did this study set out to answer?

The aim is to develop a carbonylation strategy for efficient synthesis of BCP-containing compounds.

April 18, 2026Open Access

A General Carbonylation Strategy of 1.1.1Propellane toward BCP-Containing Esters and Amides

Key Points

The aim is to develop a carbonylation strategy for efficient synthesis of BCP-containing compounds.
Copper-catalyzed carbonylative transformation of [1.1.1]propellane
Utilization of a (carbamoyl)copper intermediate
Focus on substrate scope and functional-group tolerance
Efficient access to BCP-containing carboxylic acid derivatives
Successful two-step synthesis of a BCP bioisostere of Tamibarotene
Exhibits good chemoselectivity and broad substrate versatility

Abstract

Bicyclo1.1.1pentane (BCP) scaffolds are increasingly recognized as sp3-rich bioisosteres of benzene rings in drug discovery. Herein, we disclose a copper-catalyzed carbonylative transformation of 1.1.1propellane that enables efficient access to BCP-containing carboxylic acid derivatives. By leveraging a (carbamoyl)copper intermediate to intercept BCP radicals, this strategy circumvents the inherent challenges of direct carbonylation at sterically congested tertiary carbon radicals. The reaction displays a broad substrate scope, wide functional-group tolerance, and good chemoselectivity. Notably, this methodology enables the concise two-step synthesis of a BCP bioisostere of Tamibarotene, highlighting its practical utility in medicinal chemistry.

A General Carbonylation Strategy of 1.1.1Propellane toward BCP-Containing Esters and Amides

Key Points

Abstract

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