<p>Text abstract</p> <p>Background</p> <p>Glycosidases are involved in several metabolic pathways and the development of inhibitors is an important challenge towards the treatment of diseases, such as diabetes, cancer and viral infections including AIDS. Thus, inhibition of intestinal α-glucosidases can be used to treat diabetes through the lowering of blood glucose levels, and α-glucosidase inhibitors are being marketed against type 2 (non-insulinodependent <it>mellitus</it>) diabetes (<it>i.e</it>.: Glyset<sup>® </sup>or Diastabol<sup>®</sup>, Basen<sup>® </sup>and Glucor<sup>® </sup>or Precose<sup>®</sup>).</p> <p>Results</p> <p>In that context, new C8-carbasugars and related aminocyclitols have been targeted in order to study the effect of the enhanced flexibility and of the new spatial distribution displayed by these structures on their adaptability in the active site of the enzymes. The synthesis of these new C8-glycomimetics is described from enantiomerically pure C<sub>2</sub>-symmetrical polyhydroxylated cyclooctenes. Their obtention notably involved a <it>syn</it>-dihydroxylation, and more extended functionalization through formation of a <it>cis</it>-cyclic sulfate followed by amination and subsequent reductive amination. This strategy involving the nucleophilic opening of a <it>cis</it>-cyclic sulfate by sodium azide is to our knowledge the first example in C8-series. It revealead to be an efficient alternative to the nucleoplilic opening of an epoxide moiety which proved unsuccessful in this particular case, due to the hindered conformation of such epoxides as demonstrated by X-ray cristallographic analysis.</p> <p>Conclusion</p> <p>The biological activity of the synthesized glycomimetics has been evaluated towards 24 commercially available glycosidases. The weak observed activities can probably be related to the spatial disposition of the hydroxy and amino groups which depart too much from that realized in glycomimetics such as valiolamine, voglibose and valienamine. Nevertheless, the synthetic strategy described here is efficient and general, and could be extended to increase the diversity of the glycosidase inhibitors obtained since this diversity is introduced in an ultimate step of the synthesis.</p
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