Ojima lactam

The Ojima lactam is an organic compound of some importance in the commercial production of Taxol. This lactam was first synthesized by Iwao Ojima.[1] The organic synthesis is an illustration of asymmetric synthesis via a chiral auxiliary.

The reaction centers around an imine - lithium enolate cycloaddition. In order to ensure the correct stereochemistry (the phenyl group and the silyl ether must adopt a cis configuration) in the β-lactam a chiral auxiliary is used in the enolate synthesis. The enolate synthesis starts from glycolic acid. The hydroxyl group is protected by a benzyl group and the carboxylic acid is activated by reaction with thionyl chloride to the acid chloride. The acid chloride reacts with the chiral auxiliary trans-2-phenyl-1-cyclohexanol. The benzyl group is then removed and replaced by a TES silyl ether by reaction with triethylsilyl chloride. Reaction with phenyllithium affords the enolate.

The imine synthesis is a reaction of hexamethylene silazane with phenyllithium to a strong amide base followed by a condensation reaction with benzaldehyde.

Both imine and enole intermediate join in a cycloaddition reaction followed by an intramolecular nucleophilic acyl substitution of the amine with expulsion of the chiral auxiliary to the cis-lactam. The triethylsilyl group is removed by hydrogen fluoride and the benzoyl group is added in a Schotten-Baumann reaction.

References

  1. Iwao Ojima, Ivan Habus, Mangzhu Zhao, Martine Zucco, Young Hoon Park, Chung Ming Sun and Thierry Brigaud (1992). "New and efficient approaches to the semisynthesis of taxol and its C-13 side chain analogs by means of lactam synthon method". Tetrahedron 48 (34): 6985–7012. doi:10.1016/S0040-4020(01)91210-4.
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