Leverett Carolyn A, Cassidy Michael P, Padwa Albert
Department of Chemistry, Emory University, Atlanta, Georgia 30322, USA.
J Org Chem. 2006 Oct 27;71(22):8591-601. doi: 10.1021/jo0616714.
cis-2-Methyl-6-substituted piperidin-3-ol alkaloids of the Cassia and Prosopis species are readily prepared by a combination of an aza-Achmatowicz oxidative rearrangement and dihydropyridone reduction followed by a stereoselective allylsilane addition to a N-sulfonyliminium ion. The stereochemical outcome of the reduction reaction can be attributed to steric hindrance between the pseudoaxially oriented 2,6-substituents and the equatorially approaching hydride reagent which explains the exclusive formation of the cis-alcohol by axial approach of the hydride. The unsaturation present in the (E)-methyl-pent-3-enoate side chain was removed by catalytic reduction, and the remaining ester group was converted to the corresponding Weinreb's amide. This key intermediate was utilized for the synthesis of azimic acid, deoxocassine, cassine, and spicigerine. The facile preparation of (S)-N-tosylamidofuran 16 and its conversion to the chiral Achmatowicz oxidation product 18 provide a formal chiral synthesis of these alkaloids.
决明属和牧豆树属植物的顺式-2-甲基-6-取代哌啶-3-醇生物碱可通过氮杂-阿赫马托维奇氧化重排和二氢吡啶酮还原相结合,然后向N-磺酰基亚胺离子进行立体选择性烯丙基硅烷加成来轻松制备。还原反应的立体化学结果可归因于假轴向取向的2,6-取代基与赤道方向接近的氢化物试剂之间的空间位阻,这解释了通过氢化物轴向接近而唯一形成顺式醇的原因。(E)-甲基-3-戊烯酸酯侧链中的不饱和键通过催化还原被去除,剩余的酯基被转化为相应的温勒伯酰胺。这个关键中间体被用于合成阿齐米酸、脱氧决明碱、决明碱和穗花杉双黄酮。(S)-N-甲苯磺酰氨基呋喃16的简便制备及其对手性阿赫马托维奇氧化产物18的转化提供了这些生物碱的形式上的手性合成。