An Enantioselective Convergent Route to Pamamycin 621A

Abstract

An effective approach to the total synthesis of natural antibiotic pamamycin 621A is described, in which the stereogenic centers at the C-13 and C-15 were taken from a chiral building block derived from the inexpensive D-glucolactone while all others (except the C-10) were installed via chiral auxiliary-induced asymmetric Evans/Crimmins aldol reactions. In the synthesis of the smaller/lower fragment, an antiselective Evans aldol condensation was found to occur only if a stoichiometric (rather than catalytic as reported in the literature) amount of magnesium chloride was present. A previously unknown effect of the steric bulkiness of the pyridine base employed on the stereochemical outcome of the formation of the THF ring in the presence of a chiral auxiliary was also observed. The THF rings in the larger/upper fragment were similarly synthesized with a high level of stereoselectivity from a linear precursor carrying a chiral auxiliary via intramolecular O-alkylations, most notably even under acidic conditions. The basic dimethylamino functionality at the C-15 was installed at the final stage of the whole synthesis, with those otherwise unavoidable side reactions in the conversion of the azido group effectively circumvented through using a very mild yet largely forgotten tributyltin reduction protocol.