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Published October 31, 2003 | Supplemental Material
Journal Article Open

Chemically Defined Sialoside Scaffolds for Investigation of Multivalent Interactions with Sialic Acid Binding Proteins

Kalovidouris, Stacey A.
Blixt, Ola
Nelson, Alshakim
Vidal, Sébastien
Turnbull, W. Bruce
Paulson, James C.
Stoddart, J. Fraser ORCID icon

Abstract

Four glycodendrons and a glycocluster were synthesized from carbohydrate building blocks to form paucivalent (di- to tetravalent) structures of controlled scaffold architectures. Enzymatic sialylation of the functionalized cluster and dendrons, terminated in lactose residues, generated a library of paucivalent synthetic sialosides displaying sialic acids with different dispositions. These newly constructed bioactive sialic acid-based structures were differentially recognized by sialoadhesin, a mammalian macrophage sialic acid binding protein. The binding of the sialosides to sialoadhesin was evaluated by an enzyme-linked immunosorbant assay to investigate the complementarity of scaffold structure and binding to sialoadhesin. Modulating the interaction between sialoadhesin and its sialic acid ligands has important implications in immunobiology.

Additional Information

© 2003 American Chemical Society. Received June 20, 2003. Publication Date (Web): October 9, 2003. We thank UCLA and TSRI for generous financial assistance. The material based upon the use of the Brüker Avance 500 NMR and ZAB-SE mass spectrometers was supported by the National Science Foundation under equipment grant numbers CHE-9974928, CHE-0092036, and CHE-9808175. This work was also funded in part by the grants from NIGMS (GM60938) and the NCI (46462). The Swedish Institute is acknowledged for financial support to O.B., and The Wellcome Trust, for the award of an International Prize Travelling Research Fellowship to W.B.T.

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Created:
August 19, 2023
Modified:
October 25, 2023