A collective synthesis of 4-hydroxy-2-pyridone alkaloids--specifically, pretenellin B, prebassianin B, farinosone A, militarione D, pyridovericin, and torrubiellone C--has been achieved. Key steps include using a strategic convergent method to synthesize the densely substituted pyridone key intermediate by Suzuki-Miyaura cross-coupling reaction, a divergent synthesis approach of target molecules by aldol condensation of pyridone intermediate with homologous aldehydes, and an iterative synthesis of homologous aldehydes with all-trans-polyene backbones. Interestingly, among the six tumor cell lines investigated, torrubiellone C was found to induce potent and apoptotic inhibitory activities on Jurkat T cells with IC50 values of 7.05 μM. Hence, this approach could potentially contribute to the synthesis of bioactive small-molecule libraries as well as drug discovery.
Keywords: alkaloids; antiproliferation; cross-coupling; natural products; total synthesis.
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