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Linkage-Editing Pseudo-Glycans: A Reductive α-Fluorovinyl- C -Glycosylation Strategy to Create Glycan Analogs with Altered Biological Activities.

Takahiro MoriyamaMakoto YoritateNaoki KatoAzusa SaikaWakana KusuharaShunsuke OnoTakahiro NagatakeHiroyuki KoshinoNoriaki KiyaNatsuho MoritsukaRiko TanabeYu HidakaKazuteru UsuiSuzuka ChibaNoyuri KudoRintaro NakahashiKazunobu IgawaHiroaki MatobaKatsuhiko TomookaEri IshikawaShunji TakahashiJun KunisawaSho YamasakiGo Hirai
Published in: Journal of the American Chemical Society (2024)
The acetal ( O -glycoside) bonds of glycans and glycoconjugates are chemically and biologically vulnerable, and therefore C -glycosides are of interest as more stable analogs. We hypothesized that, if the O -glycoside linkage plays a vital role in glycan function, the biological activities of C -glycoside analogs would vary depending on their substituents. Based on this idea, we adopted a "linkage-editing strategy" for the creation of glycan analogs (pseudo-glycans). We designed three types of pseudo-glycans with CH 2 and CHF linkages, which resemble the O -glycoside linkage in terms of bond lengths, angles, and bulkiness, and synthesized them efficiently by means of fluorovinyl C -glycosylation and selective hydrogenation reactions. Application of this strategy to isomaltose (IM), an inducer of amylase expression, and α-GalCer, which activates iNKT cells, resulted in the discovery of CH 2 -IM, which shows increased amylase production ability, and CHF-α-GalCer, which shows activity opposite that of native α-GalCer, serving as an antagonist of iNKT cells.
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