Ruthenium-Catalyzed Diastereoselective Synthesis of Fully Substituted Pyrrolidines from Anilines and Diazo Pyruvates

Photocatalytic Synthesis of Isoquinolinediones via the Cascade Reaction of N-Alkyl-N-methylacrylamides with Diazo Compounds

Carbon radicals generated from acceptor diazo compounds prefer to add to electron-rich olefins and heteroarenes due to their containing electron-withdrawing groups. Herein, a cascade reaction of acceptor diazo compounds with electron-deficient olefins is developed. In the presence of visible light and Ru catalyst, diazo compounds generate carbon radicals via proton-coupled electron transfer process, followed by addition with various N-alkyl-N-methylacrylamides and subsequent cyclization to give a series of acyl-substituted isoquinolinediones.

Enantioselective N-H Bond Insertion Reaction of Anilines Enabled by Ruthenium and Chiral Phosphoric Acid Cooperative Catalysis

The enantioselective carbene insertion into N-H bonds of anilines has been realized by cooperative catalysis of ruthenium complexes and chiral phosphoric acids, providing the expected α-aryl glycines in moderate to good yields with high enantioselectivity. Typically, by slightly modifying the reaction conditions, this approach allows the N-H bond insertion reaction to be effective for both α-aryl and α-alkyl diazoacetates for the first time with high enantioselectivity (up to 96% and 95% ee, respectively).

Structure revision and chemical synthesis of ligandrol's main bishydroxylated long-term metabolic marker

Although the main bishydroxylated long-term metabolite of the WADA-banned anabolic agent ligandrol (LGD-4033) is an important metabolic marker, it is not readily available in sufficient quantities to facilitate the development and validation of related analytical protocols or sensors. A chemically more robust structure was postulated as an alternative to the one previously established. The NMR spectra of the synthesized material and its LC-HRMS comparison with a relevant metabolic sample support the proposed structural revision.

Rhodium-Catalyzed C-H Annulation of Free Anilines with Vinylene Carbonate as a Bifunctional Synthon

Chemical transformation with vinylene carbonate as an emerging synthetic unit has recently attracted considerable attention. This report is a novel conversion pattern with vinylene carbonate, in which such a vibrant reagent unprecedentedly acts as a difunctional coupling partner to complete the C-H annulation of free anilines. From commercially available substrates, this protocol leads to the rapid construction of synthetically versatile 2-methylquinoline derivatives (43 examples) with excellent functionality tolerance.

Facile synthesis of 1,4-oxazines by ruthenium-catalyzed tandem N-H insertion/cyclization of α-arylamino ketones and diazo pyruvates

Herein, we report an efficient strategy for the rapid construction of 1,4-oxazines starting from simple α-amino ketones and diazo pyruvates under mild reaction conditions. This transformation is efficiently catalyzed by RuCl3 through a tandem N-H insertion/cyclization sequence via an enol formation. This reaction shows broad functional group tolerance, and the resulting 1,4-oxazine products show promising anticancer activities toward HCT116.

Synthesis and biological evaluation of substituted pyrrolidines and pyrroles as potential anticancer agents

A series of polysubstituted pyrrolidines obtained via ruthenium-catalyzed cascade cyclization of diazo pyruvates and anilines as well as their corresponding pyrrole analogs obtained via dehydration were evaluated for their antiproliferation activities. Pyrrolidines 3h and 3k showed good proliferation inhibitory effects toward 10 cancer cell lines with IC₅₀ values ranging from 2.9 to 16 μM. Furthermore, pyrrolidine 3k induced cell cycle arrest at the G0/G1 phase and time- and dose-dependent cellular apoptosis in both HCT116 and HL60 cells, suggesting that this type of pyrrolidine structure might be a good candidate for future anticancer therapies.