Syntheses of the C-glycosyl flavone natural products aspalathin and nothofagin have been accomplished in eight steps from tribenzyl glucal, tribenzyl phloroglucinol, and either 4-benzyloxy phenylacetylene or 3,4-dibenzyloxy phenylacetylene. The key step of the syntheses involves a highly stereoselective Lewis-acid promoted coupling of 1,2-di-O-acyl-3,4,6-tribenzylglucose with tribenzyl phloroglucinol, which gives rise to the corresponding β-C-aryl glycoside in 30-65% yields.Naturally occurring C-aryl glycosides exhibit a range of interesting biological properties. CGlycosyl flavonoids, in particular, have been shown to possess antiviral, cytotoxic, and DNA binding activities. 1 The natural product aspalathin, isolated from the leaves of aspalathus linearis and used in the manufacture of rooibos tea, 2 displays potent antioxidant and radical scavenging activity, 3 and has recently been found to inhibit proliferation and infiltration of liver cancer cells. 4 The structurally related flavonoid nothofagin, typically coisolated with aspalathin, 2 also displays antioxidant properties, but to a lesser extent than aspalathin. Both of these compounds can be considered as direct precursors of a variety of other biologically interesting C-aryl flavonoid natural products, such as orientin/isoorientin, 5 vitexin/isovitexin, 5 and aspalalinin 6 (Figure 1). In view of their impressive biological profile, we decided to undertake total syntheses of both aspalathin and nothofagin.Structurally, both natural products consist of a glucopyranosyl unit carbon-linked to a dihydrochalcone moiety, with β-stereochemistry observed at the anomeric carbon atom. 2 We envisioned that the crucial linkage between the carbohydrate and aromatic subunits could be fashioned by a Lewis-acid promoted Friedel-Crafts-type glycosylation reaction; this process is well-precedented in the literature when highly electron-rich aromatics are employed as nucleophiles, 7,8 and thus this method seemed a logical starting point for our investigations.Addition of TESOTf (1 equiv) to a solution of tribenzylphloroglucinol (2a, 9a 2 equiv) and 2,3,4,6-tetra-O-benzyl glucose-1-O-acetate 9b (1) in CH 2 Cl 2 at 0°C resulted in a clean conversion to the corresponding C-aryl glycoside as a ~3:1 mixture of β:α diastereomers in 89% yield (3a and 3b , Scheme 1). Indeed, Schmidt also previously obtained 3:1 diastereoselectivity in the ZnCl 2 -promoted coupling of 2,3,4,6-tetrabenzyl glucose-1-O-* thomas.minehan@csun.edu . Supporting Information Available Detailed experimental procedures, spectroscopic data, and 1 H and 13 C NMR spectra for compounds in Table 1 and Schemes 1-4. This material is available free of charge on the Internet at http://pubs.acs.org. 10 However, attempted coupling of 2,4,6-trisbenzyloxy acetophenone (2b ,9c 2 equiv) and 1 in the presence of TESOTf (1-5 equivalents) gave only trace quantities (<5%) of the desired C-aryl glycoside product, and unreacted starting materials were recovered in high yield.
NIH Public AccessTo circumvent the low diaster...
