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Synthesis and glycosidase inhibitory profiles of functionalised morpholines and oxazepanes.

Bioorganic & medicinal chemistry (2011-08-25)
Peter A Burland, Helen M I Osborn, Andrea Turkson
ZUSAMMENFASSUNG

In this work libraries of morpholines and oxazepanes have been prepared via the reductive amination reaction between dialdehydes, derived from carbohydrates, and a range of amines. In this way, functionalised morpholines and oxazepanes have been prepared that include N-alkylated derivatives, disaccharide analogues, and ester containing derivatives. The abilities of these functionalised morpholines and oxazepanes to inhibit a broad panel of glycosidase enzymes, that are associated with a range of diseases, have been probed and in this way new inhibitors of a range of glycosidases, but particularly β-d-galactosidase derived from Bovine kidney, have been discovered. N-Alkyl morpholines demonstrated the best inhibition profiles for this enzyme and derivatives (15a)-(15d) acted as non-competitive inhibitors with IC(50) values of 55.1-88.6 μM. Within this study, some preliminary structure-activity relationships are proposed, and it is demonstrated that N-substituted morpholines display better inhibitory profiles for the enzymes analysed than any of the N-substituted oxazepanes.

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Sigma-Aldrich
4-(2-Hydroxyethyl)morpholin, ReagentPlus®, 99%
Sigma-Aldrich
Castanospermin, 98%