A General Strategy for N-(Hetero)arylpiperidine Synthesis Using Zincke Imine Intermediates.
Jake D SelingoJacob W GreenwoodMary Katherine AndrewsChirag PatelAndrew J NeelBarbara PioMichael ShevlinEric M PhillipsMatthew L MaddessAndrew McNallyPublished in: Journal of the American Chemical Society (2023)
Methods to synthesize diverse collections of substituted piperidines are valuable due to the prevalence of this heterocycle in pharmaceutical compounds. Here, we present a general strategy to access N -(hetero)arylpiperidines using a pyridine ring-opening and ring-closing approach via Zincke imine intermediates. This process generates pyridinium salts from a wide variety of substituted pyridines and (heteroaryl)anilines; hydrogenation reactions and nucleophilic additions then access the N -(hetero)arylpiperidine derivatives. We successfully applied high-throughput experimentation (HTE) using pharmaceutically relevant pyridines and (heteroaryl)anilines as inputs and developed a one-pot process using anilines as nucleophiles in the pyridinium salt-forming processes. This strategy is viable for generating piperidine libraries and applications such as the convergent coupling of complex fragments.