Probing sulfatide-tissue lectin recognition with functionalized glycodendrimersomes

Paul V. Murphy; Antonio Romero; Qi Xiao; Anna Kristin Ludwig; Srinivas Jogula; Nadezhda V. Shilova; Tanuja Singh; Adele Gabba; Bilal Javed; Dapeng Zhang; Francisco J. Medrano; Herbert Kaltner; Jürgen Kopitz; Nicolai V. Bovin; Albert M. Wu; Michael L. Klein; Virgil Percec; Hans Joachim Gabius

doi:10.1016/j.isci.2020.101919

Probing sulfatide-tissue lectin recognition with functionalized glycodendrimersomes

Paul V. Murphy^*, Antonio Romero^*, Qi Xiao, Anna Kristin Ludwig, Srinivas Jogula, Nadezhda V. Shilova, Tanuja Singh, Adele Gabba, Bilal Javed, Dapeng Zhang, Francisco J. Medrano, Herbert Kaltner, Jürgen Kopitz^*, Nicolai V. Bovin^*, Albert M. Wu^*, Michael L. Klein^*, Virgil Percec^*, Hans Joachim Gabius^*

^*Corresponding author for this work

Department of Molecular Biology

Research output: Contribution to journal › Journal Article › peer-review

21 Scopus citations

Abstract

The small 3-O-sulfated galactose head group of sulfatides, an abundant glycosphingolipid class, poses the (sphinx-like) riddle on involvement of glycan bridging by tissue lectins (sugar code). First, synthesis of head group derivatives for functionalization of amphiphilic dendrimers is performed. Aggregation of resulting (biomimetic) vesicles, alone or in combination with lactose, demonstrates bridging by a tissue lectin (galectin-4). Physiologically, this can stabilize glycolipid-rich microdomains (rafts) and associate sulfatide-rich regions with specific glycoproteins. Further testing documents importance of heterobivalency and linker length. Structurally, sulfatide recognition by galectin-8 is shown to involve sphingosine's OH group as substitute for the 3′-hydroxyl of glucose of lactose. These discoveries underscore functionality of this small determinant on biomembranes intracellularly and on the cell surface. Moreover, they provide a role model to examine counterreceptor capacity of more complex glycans of glycosphingolipids and to start their bottom-up glycotope surface programming.

Original language	English
Article number	101919
Journal	iScience
Volume	24
Issue number	1
DOIs	https://doi.org/10.1016/j.isci.2020.101919
State	Published - 22 01 2021

Bibliographical note

Publisher Copyright:
© 2020 The Author(s)

Keywords

Biochemistry
Biophysics
Supramolecular Chemistry

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Murphy, P. V., Romero, A., Xiao, Q., Ludwig, A. K., Jogula, S., Shilova, N. V., Singh, T., Gabba, A., Javed, B., Zhang, D., Medrano, F. J., Kaltner, H., Kopitz, J., Bovin, N. V., Wu, A. M., Klein, M. L., Percec, V., & Gabius, H. J. (2021). Probing sulfatide-tissue lectin recognition with functionalized glycodendrimersomes. iScience, 24(1), Article 101919. https://doi.org/10.1016/j.isci.2020.101919

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title = "Probing sulfatide-tissue lectin recognition with functionalized glycodendrimersomes",

abstract = "The small 3-O-sulfated galactose head group of sulfatides, an abundant glycosphingolipid class, poses the (sphinx-like) riddle on involvement of glycan bridging by tissue lectins (sugar code). First, synthesis of head group derivatives for functionalization of amphiphilic dendrimers is performed. Aggregation of resulting (biomimetic) vesicles, alone or in combination with lactose, demonstrates bridging by a tissue lectin (galectin-4). Physiologically, this can stabilize glycolipid-rich microdomains (rafts) and associate sulfatide-rich regions with specific glycoproteins. Further testing documents importance of heterobivalency and linker length. Structurally, sulfatide recognition by galectin-8 is shown to involve sphingosine's OH group as substitute for the 3′-hydroxyl of glucose of lactose. These discoveries underscore functionality of this small determinant on biomembranes intracellularly and on the cell surface. Moreover, they provide a role model to examine counterreceptor capacity of more complex glycans of glycosphingolipids and to start their bottom-up glycotope surface programming.",

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AU - Murphy, Paul V.

AU - Romero, Antonio

AU - Xiao, Qi

AU - Ludwig, Anna Kristin

AU - Jogula, Srinivas

AU - Shilova, Nadezhda V.

AU - Singh, Tanuja

AU - Gabba, Adele

AU - Javed, Bilal

AU - Zhang, Dapeng

AU - Medrano, Francisco J.

AU - Kaltner, Herbert

AU - Kopitz, Jürgen

AU - Bovin, Nicolai V.

AU - Wu, Albert M.

AU - Klein, Michael L.

AU - Percec, Virgil

AU - Gabius, Hans Joachim

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N2 - The small 3-O-sulfated galactose head group of sulfatides, an abundant glycosphingolipid class, poses the (sphinx-like) riddle on involvement of glycan bridging by tissue lectins (sugar code). First, synthesis of head group derivatives for functionalization of amphiphilic dendrimers is performed. Aggregation of resulting (biomimetic) vesicles, alone or in combination with lactose, demonstrates bridging by a tissue lectin (galectin-4). Physiologically, this can stabilize glycolipid-rich microdomains (rafts) and associate sulfatide-rich regions with specific glycoproteins. Further testing documents importance of heterobivalency and linker length. Structurally, sulfatide recognition by galectin-8 is shown to involve sphingosine's OH group as substitute for the 3′-hydroxyl of glucose of lactose. These discoveries underscore functionality of this small determinant on biomembranes intracellularly and on the cell surface. Moreover, they provide a role model to examine counterreceptor capacity of more complex glycans of glycosphingolipids and to start their bottom-up glycotope surface programming.

AB - The small 3-O-sulfated galactose head group of sulfatides, an abundant glycosphingolipid class, poses the (sphinx-like) riddle on involvement of glycan bridging by tissue lectins (sugar code). First, synthesis of head group derivatives for functionalization of amphiphilic dendrimers is performed. Aggregation of resulting (biomimetic) vesicles, alone or in combination with lactose, demonstrates bridging by a tissue lectin (galectin-4). Physiologically, this can stabilize glycolipid-rich microdomains (rafts) and associate sulfatide-rich regions with specific glycoproteins. Further testing documents importance of heterobivalency and linker length. Structurally, sulfatide recognition by galectin-8 is shown to involve sphingosine's OH group as substitute for the 3′-hydroxyl of glucose of lactose. These discoveries underscore functionality of this small determinant on biomembranes intracellularly and on the cell surface. Moreover, they provide a role model to examine counterreceptor capacity of more complex glycans of glycosphingolipids and to start their bottom-up glycotope surface programming.

KW - Biochemistry

KW - Biophysics

KW - Supramolecular Chemistry

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Probing sulfatide-tissue lectin recognition with functionalized glycodendrimersomes

Abstract

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Keywords

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