Enantiomeric C-6 fluorinated swainsonine derivatives as highly selective and potent inhibitors of α-mannosidase and α-l-rhamnosidase: Design, synthesis and structure-activity relationship study.

Six C-6 fluorinated d-swainsonine derivatives and their enantiomers have been designed based on initial docking calculations, and synthesized from enantiomeric ribose-derived aldehydes, respectively. Glycosidase inhibition assay of these derivatives with d-swainsonine (1) and l-swainsonine (ent-1) as contrasts found that the C-6 fluorinated d-swainsonine derivatives with C-8 configurations as R (α) showed specific and potent inhibitions of jack bean α-mannosidase (model enzyme of Golgi α-mannosidase II); whereas their enantiomers with C-8 configurations as S (β) were powerful and selective α-l-rhamnosidase inhibitors. Molecular docking calculations found the C-6 fluorinatedd-swainsonine derivatives 21, 24 and 25 with highly coincident binding conformations with d-swainsonine (1) in their interactions with the active site of α-mannosidase (PDB ID: 1HWW). Reliability of the docking results were confirmed by Molecular Dynamics (MD) simulation. Additionally, solid interactions with residues Gln-392 and Tyr-393 in the active site of α-l-rhamnosidase (PDB ID: 3W5N) were proved to be vital for potent α-l-rhamnosidase inhibitions of the l-swainsonine derivatives. The role of C-6 fluorines in swainsonine derivatives well demonstrated the "mimic effect" of fluorine to hydrogen by minimal influence on the binding conformations and effective compensation for any possible lost interactions. This work contributes to a comprehensive understanding of the structure-activity relationship (SAR) of the fluorinated swainsonines and ever reported branched swainsonines, and has laid good foundation for development of more potent α-mannosidase and α-l-rhamnosidase inhibitors.