ABSTRACT
This article discusses the reactivity of 6-azaindazole (1) and 2,6-naphthyridine (2), proposed to be "heteroaromatic rings of the future," which would be useful for fragment-based drug discovery (FBDD) campaigns, developing growth vectors for fragment elaboration by selectively functionalizing different positions on the rings. The pyridone oxygens and pyrazole nitrogen can be functionalized selectively. Arylation at the α-carbon of the pyridone moiety was achieved by a transition metal-free radical cross-coupling using aryl hydrazines. This method proceeded under mild conditions without the need for protection of the hydroxypyridine. Additionally, we developed a method for the regioselective C-3 functionalization of heterocycle 1via N-sulfonamide rearrangement. This method involved a novel regioselective base-mediated N-C migration of the N-1 sulfonamide to yield the C-3 sulfone. This procedure is also applicable for indazole C-3 functionalization and mechanistic studies of the rearrangement suggest that an intermolecular process is involved. These reactions enable the fragment elaboration of heterocycles 1 and 2 in several growth vectors to facilitate their use in FBDD.
Subject(s)
Carbon , Nitrogen , Catalysis , Hydrazines , Indazoles , Naphthyridines , Pyrazoles , Pyridones , Sulfonamides , SulfonesABSTRACT
1,4-Naphthoquinone derivatives are known to have relevant activities against several parasites. Among the treatment options for malaria, atovaquone, a 1,4-naphthoquinone derivative, is widely applied in the treatment and prophylaxis of such disease. Based on the structure simplification of atovaquone, we designed and synthesized four novel naphthoquinoidal derivatives. The compounds were obtained by the underexplored epoxide-opening reaction of 1,4-naphthoquinone using aniline derivatives as nucleophiles. The antiplasmodial activity of the synthesized compounds was performed in vivo using Peter's 4days suppression test. Significant parasitemia reduction and increased survival were observed for some of the compounds.