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Article Abstract
The synthesis of -substituted 2-hydroxypyridines and -substituted 2-pyridones, crucial for many bioactive compounds and drugs, faces challenges due to the tautomeric nature of 2-pyridones, which complicates selective alkylation. Here we developed an efficient method for regioselective - and -alkylation of 2-pyridones using Bro̷nsted acid-catalyzed ring opening of 2-azirines. The process involves triflic acid for -alkylation and -toluenesulfonic acid for alkylation, achieving high yields under optimized conditions. For -alkylation, a variety of 2-pyridones and 2-azirines were used, resulting in significant yields of the desired products. Similarly, for -alkylation, the optimized conditions produced excellent yields, highlighting the method's versatility. This methodology was further demonstrated through scaled-up syntheses and subsequent transformations, showcasing its practicality for complex molecular architectures. The proposed mechanism involves the protonation of 2-azirine, followed by a regioselective S2-type attack and acid-catalyzed hydrolysis, leading to the desired alkylated products. This innovative approach, emphasizing Bro̷nsted acid catalysis and careful control of reaction conditions, represents a significant advancement in the selective alkylation of 2-pyridones, with broad implications for medicinal chemistry.
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