Synthesis of Multibranched Australine Derivatives from Reducing Castanospermine Analogues through the Amadori Rearrangement of gem-Diamine Intermediates: Selective Inhibitors of β-Glucosidase
The Journal of Organic Chemistry2014Vol. 79(23), pp. 11722–11728
Citations Over TimeTop 17% of 2014 papers
Abstract
A practical one-pot synthesis of bi- and triantennated australine analogues from a pivotal sp(2)-iminosugar-type reducing castanospermine precursor is reported. The transformation involves a gem-diamine intermediate that undergoes the indolizidine → pyrrolizidine Amadori-type rearrangement and proceeds under strict control of the generalized anomeric effect to afford a single diastereomer. The final compounds behave as selective competitive inhibitors of β-glucosidase and are promising candidates as pharmacological chaperones for Gaucher disease.
Related Papers
- → Synthesis of polyhydroxylated pyrrolizidine and indolizidine compounds and their glycosidase inhibitory activities(2010)27 cited
- → Synthesis of Thiohydantoin-Castanospermine Glycomimetics as Glycosidase Inhibitors(2009)28 cited
- → Synthesis of Castanospermine and Epimers by Metathesis Routes(2013)10 cited
- → Synthesis of (±)-isoretronecanol, (±)-curassanecine, (±)-heliotridane, (±)-tashiromine and (±)-5-epitashiromine via α-(N-carbamoyl)alkylcuprate chemistry(2002)44 cited
- → ChemInform Abstract: Synthesis and Evaluation of Sulfamide‐Type Indolizidines as Glycosidase Inhibitors.(2008)