A. Conde scite author profile

Three natural ent-halimanolides have been synthesized from ent-halimic acid. Their structures have been confirmed as well as their absolute configurations established. Bestmann methodology has been used for the synthesis of butenolides and for the synthesis of g-hydroxybutenolides the Boukouvalas method has been employed.Annonaceae plants are a rich source of bioactive substances such as acetogenins. 1-4 The occurrence of natural diterpenes possessing hydroxybutenolide units has been reported frequently in plants of the genera Polyalthia, Acritopappus, Premna, and Cyathocalux (Annonaceae). [5][6][7] It is interesting to note that many species of these genera are widely used in folk medicine. 8 Genus Polyalthia has been widely studied, 9 in particular several alkaloids 11 and a large number of clerodane and ent-halimane diterpenes were isolated from Polyalthia longifolia. 10 In 1995 Hara et al. reported the isolation of three ent-halimanolides 1, 2, and 3. These compounds are the first ent-halimane diterpenes which have been isolated from Annonaceae plants. Their structures were elucidated by spectroscopic methods. Recently, the synthesis of the enantiomer 12 of 3 from (+)-hardwickiic acid (clerodane diterpene) was reported. In the present work, we report the synthesis of 1, 2, and 3, starting from ent-halimic acid, confirming the structure and establishing the absolute configuration of these natural products. ent-Halimic acid is the main component of Halimium viscosum (Villarino de los Aires) and has been used as the starting material in the synthesis of ent-halimanolides 13 and sesterterpenolides 14 similar to dysidiolide, 15 that show high anti-tumor activity, and chettaphanin I and II. 16 The synthesis of 1-3 is carried out in three parts:1. Reduction of C-18 and side chain degradation; 2. Functionalization of C-16; and 3. Synthesis of the butenolides and g-hydroxybutenolides.In the first part (reduction of C-18 and degradation of the side chain), the objective is the synthesis of methylketone 20. Several conditions and even strategies were developed in order to achieve this objective, first reduction and then degradation (Scheme 1) or vice versa (Scheme 2).For the transformation of the ester at C-18 several routes were attempted. The first employed a Huang-Minlon 17 reduction as the key step (Scheme 1). The hydroxyl group at C-15 was protected satisfactorily as methyl ether 5 or as the OTHP derivative 6; the subsequent reduction of C-18 with LiAlH 4 gave 7 and 8, respectively. tetra-n-Propylammonium perruthenate (TPAP) oxidation of these alcohols gave unstable aldehydes 9 and 10, respectively. These aldehydes were treated under Huang-Minlon conditions to produce 11 and 12 in 85% and 81%, respectively.The hydroxy derivatives 7 and 8 were subjected to other reduction procedures. The hydroxy derivative 8 was transformed into the xantogenate 13 by treatment with CS 2 and MeI. Reduction of 13 with n-Bu 3 SnH 18 gave 12 in a low 31% yield (Scheme 1). Reaction of 7 with N,N-dimethylphosphoramidic chloride and n-BuLi...

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ChemInform Abstract: Quinone/Hydroquinone Sesquiterpenes

Marcos

Conde

Moro

et al. 2010

ChemInform

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A. Conde

Quinone/Hydroquinone Sesquiterpenes

Synthesis of quinone/hydroquinone sesquiterpenes

Synthesis of an ent-Halimanolide from ent-Halimic Acid

Synthesis ofent-Halimanolides froment-Halimic Acid

ChemInform Abstract: Quinone/Hydroquinone Sesquiterpenes

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