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Glycolipid recognition and binding by Siglec-6 hinges on interactions with the cell membrane

Glycolipid recognition and binding by Siglec-6 hinges on interactions with the cell membrane
Glycolipid recognition and binding by Siglec-6 hinges on interactions with the cell membrane

Sialic acid-binding immunoglobulin-type lectins (Siglecs) regulate immune response through interactions with sialylated glycans on glycoproteins and glycolipids. Human Siglecs count 14 unique proteins and in all of those the recognition and binding of the sialic acid on the glycan target involves a conserved, or canonical, Arg residue. For a subset of human Siglecs, namely MAG, Siglec-6, and Siglec-11, this Arg appears not to be essential, suggesting that a different binding mechanism may be at play. In this work, we used all-atom molecular dynamics (MD) simulations, binding assays, and mutagenesis to investigate the structural, mechanistic and energetic details of the binding of Siglec-6 to monosialylated gangliosides. Our results show that Siglec-6 relies only partially on its conserved Arg122 for recognition of membrane-bound gangliosides and that it supplements its binding free energy through interactions with the phospholipids in the membrane surrounding the target epitope. We confirmed by mutagenesis assays that the loss of the key residues (Lys 126 and Trp 127) for membrane interaction abrogates binding. These results provide a step-change in our understanding of the diversification of human Siglecs as molecular precision tools to bind specific sialosides by adapting their structure to the biological environment where these are found.

2399-3642
D’Andrea, Silvia
0653d16f-e4d4-4b5b-9a87-1a1f6a731432
Schmidt, Edward N.
85dedd62-b1a6-48ae-b140-370da0596777
Bui, Duong
fcd096dd-15c9-4a68-92bd-a3c6279840e5
Singh, Ojas
19bd7eaf-a35f-418f-a6aa-be0e7fd28756
Han, Ling
dfecb255-4f71-4870-a0d2-9f8d61b6d0e6
Mahal, Lara K.
1720ed1d-8245-445d-846a-c72652e9db9b
Klassen, John S.
2a397970-6e1e-4746-aae5-aaeeb4c85eb9
Macauley, Matthew S.
a6234927-6da8-4fe0-a06a-dc8a2352059d
Fadda, Elisa
11ba1755-9585-44aa-a38e-a8bcfd766abb
D’Andrea, Silvia
0653d16f-e4d4-4b5b-9a87-1a1f6a731432
Schmidt, Edward N.
85dedd62-b1a6-48ae-b140-370da0596777
Bui, Duong
fcd096dd-15c9-4a68-92bd-a3c6279840e5
Singh, Ojas
19bd7eaf-a35f-418f-a6aa-be0e7fd28756
Han, Ling
dfecb255-4f71-4870-a0d2-9f8d61b6d0e6
Mahal, Lara K.
1720ed1d-8245-445d-846a-c72652e9db9b
Klassen, John S.
2a397970-6e1e-4746-aae5-aaeeb4c85eb9
Macauley, Matthew S.
a6234927-6da8-4fe0-a06a-dc8a2352059d
Fadda, Elisa
11ba1755-9585-44aa-a38e-a8bcfd766abb

D’Andrea, Silvia, Schmidt, Edward N., Bui, Duong, Singh, Ojas, Han, Ling, Mahal, Lara K., Klassen, John S., Macauley, Matthew S. and Fadda, Elisa (2026) Glycolipid recognition and binding by Siglec-6 hinges on interactions with the cell membrane. Communications Biology, 9 (1), [333]. (doi:10.1038/s42003-026-09609-8).

Record type: Article

Abstract

Sialic acid-binding immunoglobulin-type lectins (Siglecs) regulate immune response through interactions with sialylated glycans on glycoproteins and glycolipids. Human Siglecs count 14 unique proteins and in all of those the recognition and binding of the sialic acid on the glycan target involves a conserved, or canonical, Arg residue. For a subset of human Siglecs, namely MAG, Siglec-6, and Siglec-11, this Arg appears not to be essential, suggesting that a different binding mechanism may be at play. In this work, we used all-atom molecular dynamics (MD) simulations, binding assays, and mutagenesis to investigate the structural, mechanistic and energetic details of the binding of Siglec-6 to monosialylated gangliosides. Our results show that Siglec-6 relies only partially on its conserved Arg122 for recognition of membrane-bound gangliosides and that it supplements its binding free energy through interactions with the phospholipids in the membrane surrounding the target epitope. We confirmed by mutagenesis assays that the loss of the key residues (Lys 126 and Trp 127) for membrane interaction abrogates binding. These results provide a step-change in our understanding of the diversification of human Siglecs as molecular precision tools to bind specific sialosides by adapting their structure to the biological environment where these are found.

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More information

Accepted/In Press date: 16 January 2026
Published date: 28 January 2026
Additional Information: Publisher Copyright: © The Author(s) 2026.

Identifiers

Local EPrints ID: 511699
URI: http://eprints.soton.ac.uk/id/eprint/511699
DOI: doi:10.1038/s42003-026-09609-8
ISSN: 2399-3642
PURE UUID: 844e1a76-3645-44f7-8bbb-09e2bb00cf66
ORCID for Elisa Fadda: ORCID iD orcid.org/0000-0002-2898-7770

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Date deposited: 28 May 2026 16:40
Last modified: 29 May 2026 02:09

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Contributors

Author: Silvia D’Andrea
Author: Edward N. Schmidt
Author: Duong Bui
Author: Ojas Singh
Author: Ling Han
Author: Lara K. Mahal
Author: John S. Klassen
Author: Matthew S. Macauley
Author: Elisa Fadda ORCID iD

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