Hyperconjugative π → σ* CF Interactions Stabilize the Enol Form of Perfluorinated Cyclic Keto–Enol Systems

Levandowski, Brian J.; Raines, Ronald T.; Houk, K. N.

doi:10.1021/acs.joc.9b00825

Similar to hydrogen sulfide (H 2 S), its chalcogen congener, Hydrogen selenide (H 2 Se), is an emerging molecule of interest given its endogenous expression and purported biological activity. However, unlike H 2 S, detailed investigations into the chemical biology of H 2 Se are limited and little is known about its innate physiological functions, cellular targets, and therapeutic potential. The obscurity surrounding these fundamental questions is largely due to a lack of small molecule donors that can effectively increase the bioavailability of H 2 Se through their continuous liberation of the transient biomolecule under physiologically relevant conditions. Driven by this unmet demand for H 2 Se-releasing moieties, we report that γ-keto selenides provide a useful platform for H 2 Se donation via an α-deprotonation/β-elimination pathway that is highly dependent on both pH and alpha proton acidity. These attributes afforded a small library of donors with highly variable rates of release (higher alpha proton acidity = faster selenide liberation), which is accelerated under neutral to slightly basic conditions—a feature that is unique and complimentary to previously reported H 2 Se donors. We also demonstrate the impressive anticancer activity of γ-keto selenides in both HeLa and HCT116 cells in culture, which is likely to stimulate additional interest and research into the biological activity and anticancer effects of H 2 Se. Collectively, these results indicate that γ-keto selenides provide a highly versatile and effective framework for H 2 Se donation.

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