Total syntheses of (+/-)-axamide-1 and (+/-)-axisonitrile-1 via 6-Exo-dig radical cyclization.

Total syntheses of (+/-)-axamide-1 (1) and (+/-)-axisonitrile-1 (2) were accomplished by using the alpha-carbonyl radical cyclization as the key step. Thienylcyanocuprate 24 mediated conjugated addition of 5-(trimethylsilyl)-4-pentynylmagnesium chloride (23) to 3-methylcyclopenten-1-one (22) and subsequent treatment with TMSCl afforded silyl enol ether 25. Iodination of 25 with NaI and m-CPBA afforded alpha-iodoketone 21. 6-Exo-dig radical cyclization of 21 and subsequent desilylation furnished hydroindane derivative 20. Bicyclic ketone 20 was converted to nitrile 19 via a three-step sequence involving Luche reduction, mesylation, and S(N)2 substitution reaction. Finally, tandem alkylation-reduction on nitrile 19 and subsequent functional group transformations afforded (+/-)-axamide-1 (1) and (+/-)-axisonitrile-1 (2).

Structure-Activity Relationship of the Antimalarial Ozonide Artefenomel (OZ439).

Building on insights gained from the discovery of the antimalarial ozonide arterolane (OZ277), we now describe the structure-activity relationship (SAR) of the antimalarial ozonide artefenomel (OZ439). Primary and secondary amino ozonides had higher metabolic stabilities than tertiary amino ozonides, consistent with their higher pKa and lower log D7.4 values. For primary amino ozonides, addition of polar functional groups decreased in vivo antimalarial efficacy. For secondary amino ozonides, additional functional groups had variable effects on metabolic stability and efficacy, but the most effective members of this series also had the highest log D7.4 values. For tertiary amino ozonides, addition of polar functional groups with H-bond donors increased metabolic stability but decreased in vivo antimalarial efficacy. Primary and tertiary amino ozonides with cycloalkyl and heterocycle substructures were superior to their acyclic counterparts. The high curative efficacy of these ozonides was most often associated with high and prolonged plasma exposure, but exposure on its own did not explain the presence or absence of either curative efficacy or in vivo toxicity.

Synthesis and structural study of thiacyclophanes utilizing dibromides and methane dithiolate.

The synthesis of a series of thiacyclophanes and optically active binaphthol-based chiral thiacyclophanes is reported with XRD structure. Two diastereomeric tetrathiacyclophanes are designed and synthesized. The two diastereomers are evidenced by crystal structure; the single-crystal X-ray studies reveal that one of the isomers possesses an inherent property of self-assembling into a vertical stack of tunnel-like structures.