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Transformation of Pyridines into 2D and 3D Fused Bicyclic Heterocycles

Xiangzhang Tao, Hyeonsoo Han, Jinwook Jeong, Dongwook Kim, Sungwoo Hong

2025Journal of the American Chemical Society14 citationsDOI

Abstract

Skeletal editing of heteroarenes in complex molecules represents a transformative synthetic strategy that transcends the limitations of conventional peripheral functionalization, enabling the profound structural diversification of molecular frameworks. Here, we demonstrate a powerful metal-free approach for converting pyridines into planar (2D) and three-dimensional (3D) fused bicyclic heterocycles through a precisely orchestrated process of nucleophilic addition, 6π-electrocyclic ring opening/ring closure, and fused ring formation. This methodology exploits the unique reactivity of N -pyridinium salts with hydrazine nucleophiles, accommodating diverse functional groups in a sequential one-pot protocol. In addition, a modified procedure enabled the synthesis of C3-brominated heterocyclic scaffolds. The synthetic utility is further demonstrated by successful late-stage modifications of structurally complex bioactive molecules. Comprehensive mechanistic investigations, including the isolation of key intermediates and computational studies, offer critical insights into the reaction pathway. Our findings establish a versatile platform for the strategic reconstruction of pyridine cores, significantly expanding the accessible chemical space. Notably, the newly synthesized pyrazolopyridazine scaffolds exhibit low-micromolar inhibitory activity over JNK1, positioning them as promising candidates with a substantial medicinal chemistry value for further optimization. This bioactivity validation underscores how our findings establish a versatile platform for the strategic reconstruction of pyridine cores, considerably expanding the accessible chemical space for drug discovery.

Topics & Concepts

ChemistryBicyclic moleculeTransformation (genetics)StereochemistryCombinatorial chemistryOrganic chemistryBiochemistryGeneCatalytic C–H Functionalization MethodsRadical Photochemical ReactionsSulfur-Based Synthesis Techniques
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