Synthesis of homorhamnojirimycins and related trihydroxypipecolic acid derivatives via divergent bicyclic amino lactone intermediates: Inhibition of naringinase (L-rhamnosidase) and dTDP-rhamnose biosynthesis

A series of homorhamnojirimycins and related compounds are prepared from tw o epimeric [2.2.2] bicyclic amino lactones 6 and 7 via the 2-azidoheptono-1 ,5-lactone 8, itself derived from L-rhamnose. Aminolysis and deprotection o f the bicyclic lactones provides an efficient route to trihydroxypipecolic acid amide analogues of 5-epi-L-rhamnopyranose 12a-d and L-rhamnopyranose 1 4a-d. Some of the L-rhamnopyranose analogues display inhibitory activity ag ainst naringinase (L-rhamnosidase) and dTDP-rhamnose biosynthesis and are p otentially useful as tools for investigating cell wall biosynthesis of Myco bacterium tuberculosis, the causative agent of tuberculosis. The synthesis of other homoiminosugar analogues including epi-homorhamnojirimycin (HRJ) 3 is also reported. Methanolysis of the bicyclic lactone 7 possessing a conf iguration corresponding to alpha-L-rhamnopyranose under basic conditions af fords both alpha- and beta-methyl 2,6-iminoheptonates 16 and 17. Reduction and subsequent deprotection affords the 2,6-iminoheptitols, alpha-homorhamn ojirimycin (alpha-HRJ) 1 and beta-homorhamnojirimycin (beta-HRJ) 2, potent inhibitors of L-rhamnosidase and alpha-galactosidase, respectively. The cry stal-structure determination of the bicyclic lactone 7 is also reported.