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Structure of human CD1b with bound ligands at 2.3 Å, a maze for alkyl chains

Structure of human CD1b with bound ligands at 2.3 Å, a maze for alkyl chains
Structure of human CD1b with bound ligands at 2.3 Å, a maze for alkyl chains
The human genome encodes five nonpolymorphic major histocompatibility complex class I-like glycoproteins, CD1a to CD1e, that present lipid antigens for specific recognition by T lymphocytes. Using single alkyl chain detergents, we developed a protocol to generate recombinant human CD1b-lipid complexes. We present here the crystal structures of CD1b in complex with either phosphatidylinositol or ganglioside GM2 at 2.3 Å and 2.8 Å resolutions, respectively. The antigen-binding groove houses four interlinked hydrophobic channels that are occupied by the alkyl chains of the glycolipid plus two detergent molecules. A distinct exit beneath the ?2 helix further contributes to the plasticity of the binding groove. These structures reveal the mechanism by which two alkyl chain lipids bind to CD1b, and how CD1b can adapt to ligands of different alkyl chain length. They also suggest how very long alkyl chains, such as those of mycolic acid, could be fully contained within the binding groove. These results extend the spectrum of potential CD1b ligands by revealing that, in addition to two alkyl chain lipids, mono-alkyl and triple-alkyl chain lipids can be accommodated in the binding groove.
1529-2908
721-726
Gadola, Stephan D.
ef2fa6cf-2ccc-4fea-a7a5-cc03a9d13ab1
Zaccai, Nathan R.
5e5781cf-1bb8-4a2f-b72d-dd89139fe3cd
Harlos, Karl
b5f7d1ec-d765-4d39-b8f2-65c6917f1d21
Shepherd, Dawn
b34728f7-7f4e-4f73-b5f3-79b495d06c92
Castro-Palomino, Julio C.
55d96bd3-42c5-445a-8df3-6e05d7781f00
Ritter, Gerd
0725f648-2bfe-4579-9676-4af3d971c07f
Schmidt, Richard R.
87ce756d-dd3e-4350-b900-53753b5fa004
Jones, E. Yvonne
6b9004c9-137b-4f43-8a14-c7c83bcaa4be
Cerundolo, Vincenzo
813bcd4a-ca19-48a3-86e4-71d131e2065a
Gadola, Stephan D.
ef2fa6cf-2ccc-4fea-a7a5-cc03a9d13ab1
Zaccai, Nathan R.
5e5781cf-1bb8-4a2f-b72d-dd89139fe3cd
Harlos, Karl
b5f7d1ec-d765-4d39-b8f2-65c6917f1d21
Shepherd, Dawn
b34728f7-7f4e-4f73-b5f3-79b495d06c92
Castro-Palomino, Julio C.
55d96bd3-42c5-445a-8df3-6e05d7781f00
Ritter, Gerd
0725f648-2bfe-4579-9676-4af3d971c07f
Schmidt, Richard R.
87ce756d-dd3e-4350-b900-53753b5fa004
Jones, E. Yvonne
6b9004c9-137b-4f43-8a14-c7c83bcaa4be
Cerundolo, Vincenzo
813bcd4a-ca19-48a3-86e4-71d131e2065a

Gadola, Stephan D., Zaccai, Nathan R., Harlos, Karl, Shepherd, Dawn, Castro-Palomino, Julio C., Ritter, Gerd, Schmidt, Richard R., Jones, E. Yvonne and Cerundolo, Vincenzo (2002) Structure of human CD1b with bound ligands at 2.3 Å, a maze for alkyl chains. Nature Immunology, 3, 721-726. (doi:10.1038/ni821).

Record type: Article

Abstract

The human genome encodes five nonpolymorphic major histocompatibility complex class I-like glycoproteins, CD1a to CD1e, that present lipid antigens for specific recognition by T lymphocytes. Using single alkyl chain detergents, we developed a protocol to generate recombinant human CD1b-lipid complexes. We present here the crystal structures of CD1b in complex with either phosphatidylinositol or ganglioside GM2 at 2.3 Å and 2.8 Å resolutions, respectively. The antigen-binding groove houses four interlinked hydrophobic channels that are occupied by the alkyl chains of the glycolipid plus two detergent molecules. A distinct exit beneath the ?2 helix further contributes to the plasticity of the binding groove. These structures reveal the mechanism by which two alkyl chain lipids bind to CD1b, and how CD1b can adapt to ligands of different alkyl chain length. They also suggest how very long alkyl chains, such as those of mycolic acid, could be fully contained within the binding groove. These results extend the spectrum of potential CD1b ligands by revealing that, in addition to two alkyl chain lipids, mono-alkyl and triple-alkyl chain lipids can be accommodated in the binding groove.

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Published date: 15 July 2002
Related URLs:
Organisations: Infection Inflammation & Immunity

Identifiers

Local EPrints ID: 165253
URI: http://eprints.soton.ac.uk/id/eprint/165253
DOI: doi:10.1038/ni821
ISSN: 1529-2908
PURE UUID: 0ac55cb1-1cac-45c0-90f4-7a7563670407

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Date deposited: 08 Oct 2010 14:07
Last modified: 14 Mar 2024 02:10

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Contributors

Author: Stephan D. Gadola
Author: Nathan R. Zaccai
Author: Karl Harlos
Author: Dawn Shepherd
Author: Julio C. Castro-Palomino
Author: Gerd Ritter
Author: Richard R. Schmidt
Author: E. Yvonne Jones
Author: Vincenzo Cerundolo

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