Addition of lithiated 1-benzyloxyallene to a D-arabinose-derived cyclic nitrone occurred with perfect diastereoselectivity furnishing a bicyclic 1,2-oxazine derivative, which is an excellent precursor for pyrrolizidine alkaloids hydroxylated at C-7 with optional configuration at this stereogenic center. Depending on the stage of the N-O bond cleavage and ring re-closure, 7-hydroxypyrrolizidines with 7R or 7S configuration were obtained, as a result of completely selective addition reactions occurring complementarily at the bottom or top face of the endocyclic C-C double bond in six- and five-membered B rings, respectively. Applicability of these stereodivergent routes to obtain polyhydroxy pyrrolizidine alkaloids is demonstrated by the efficient syntheses of casuarine and australine as examples of the two classes of diversely configured 7-hydroxypyrrolizidine alkaloids. An alternative synthesis of australine and two strategies for the preparation of 7-epi-australine are also reported, which demonstrate that the stereoselectivity of hydride reduction of an exocyclic C-O double bond is independent of the ring size, occurring preferentially from the top face either in a six- or five-membered ring.
Keywords: alkaloids; allenes; nitrones; nucleophilic attack; stereoselectivity.
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