Structural reorganization of the antigen-binding groove of human CD1b for presentation of mycobacterial sulfoglycolipids

Luis F. Garcia-Alles; Anthony Collmann; Cees Versluis; Buko Lindner; Julie Guiard; Laurent Maveyraud; Emilie Huca; Jin S. Im; Sebastiano Sansano; Thérèse Brando; Sylviane Julien; Jacques Prandi; Martine Gilleron; Steven A. Porcelli; Henri De La Salle; Albert J.R. Heck; Lucia Mori; Germain Puzo; Lionel Mourey; Gennaro De Libero

doi:10.1073/pnas.1110118108

Structural reorganization of the antigen-binding groove of human CD1b for presentation of mycobacterial sulfoglycolipids

Luis F. Garcia-Alles, Anthony Collmann, Cees Versluis, Buko Lindner, Julie Guiard, Laurent Maveyraud, Emilie Huca, Jin S. Im, Sebastiano Sansano, Thérèse Brando, Sylviane Julien, Jacques Prandi, Martine Gilleron, Steven A. Porcelli, Henri De La Salle, Albert J.R. Heck, Lucia Mori, Germain Puzo, Lionel Mourey, Gennaro De Libero

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

46 Scopus citations

Abstract

The mechanisms permitting nonpolymorphic CD1 molecules to present lipid antigens that differ considerably in polar head and aliphatic tails remain elusive. It is also unclear why hydrophobic motifs in the aliphatic tails of some antigens, which presumably embed inside CD1 pockets, contribute to determinants for T-cell recognition. The 1.9-Å crystal structure of an active complex of CD1b and a mycobacterial diacylsulfoglycolipid presented here provides some clues. Upon antigen binding, endogenous spacers of CD1b, which consist of a mixture of diradylglycerols, moved considerably within the lipid-binding groove. Spacer displacement was accompanied by F′ pocket closure and an extensive rearrangement of residues exposed to T-cell receptors. Such structural reorganization resulted in reduction of the A′ pocket capacity and led to incomplete embedding of the methyl-ramified portion of the phthioceranoyl chain of the antigen, explaining why such hydrophobic motifs are critical for T-cell receptor recognition. Mutagenesis experiments supported the functional importance of the observed structural alterations for T-cell stimulation. Overall, our data delineate a complex molecular mechanism combining spacer repositioning and ligandinduced conformational changes that, together with pocket intricacy, endows CD1b with the required molecular plasticity to present a broad range of structurally diverse antigens.

Original language	English (US)
Pages (from-to)	17755-17760
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	108
Issue number	43
DOIs	https://doi.org/10.1073/pnas.1110118108
State	Published - Oct 25 2011
Externally published	Yes

Keywords

CD1b mutant transfectant
Diacylglycerol endogenous ligand
Groove shrinking
T lymphocyte activation
Three-dimensional structure

ASJC Scopus subject areas

General

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10.1073/pnas.1110118108

Cite this

Garcia-Alles, L. F., Collmann, A., Versluis, C., Lindner, B., Guiard, J., Maveyraud, L., Huca, E., Im, J. S., Sansano, S., Brando, T., Julien, S., Prandi, J., Gilleron, M., Porcelli, S. A., De La Salle, H., Heck, A. J. R., Mori, L., Puzo, G., Mourey, L., & De Libero, G. (2011). Structural reorganization of the antigen-binding groove of human CD1b for presentation of mycobacterial sulfoglycolipids. Proceedings of the National Academy of Sciences of the United States of America, 108(43), 17755-17760. https://doi.org/10.1073/pnas.1110118108

Structural reorganization of the antigen-binding groove of human CD1b for presentation of mycobacterial sulfoglycolipids. / Garcia-Alles, Luis F.; Collmann, Anthony; Versluis, Cees et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 108, No. 43, 25.10.2011, p. 17755-17760.

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

Garcia-Alles, LF, Collmann, A, Versluis, C, Lindner, B, Guiard, J, Maveyraud, L, Huca, E, Im, JS, Sansano, S, Brando, T, Julien, S, Prandi, J, Gilleron, M, Porcelli, SA, De La Salle, H, Heck, AJR, Mori, L, Puzo, G, Mourey, L & De Libero, G 2011, 'Structural reorganization of the antigen-binding groove of human CD1b for presentation of mycobacterial sulfoglycolipids', Proceedings of the National Academy of Sciences of the United States of America, vol. 108, no. 43, pp. 17755-17760. https://doi.org/10.1073/pnas.1110118108

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abstract = "The mechanisms permitting nonpolymorphic CD1 molecules to present lipid antigens that differ considerably in polar head and aliphatic tails remain elusive. It is also unclear why hydrophobic motifs in the aliphatic tails of some antigens, which presumably embed inside CD1 pockets, contribute to determinants for T-cell recognition. The 1.9-{\AA} crystal structure of an active complex of CD1b and a mycobacterial diacylsulfoglycolipid presented here provides some clues. Upon antigen binding, endogenous spacers of CD1b, which consist of a mixture of diradylglycerols, moved considerably within the lipid-binding groove. Spacer displacement was accompanied by F′ pocket closure and an extensive rearrangement of residues exposed to T-cell receptors. Such structural reorganization resulted in reduction of the A′ pocket capacity and led to incomplete embedding of the methyl-ramified portion of the phthioceranoyl chain of the antigen, explaining why such hydrophobic motifs are critical for T-cell receptor recognition. Mutagenesis experiments supported the functional importance of the observed structural alterations for T-cell stimulation. Overall, our data delineate a complex molecular mechanism combining spacer repositioning and ligandinduced conformational changes that, together with pocket intricacy, endows CD1b with the required molecular plasticity to present a broad range of structurally diverse antigens.",

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AU - Garcia-Alles, Luis F.

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AU - Versluis, Cees

AU - Lindner, Buko

AU - Guiard, Julie

AU - Maveyraud, Laurent

AU - Huca, Emilie

AU - Im, Jin S.

AU - Sansano, Sebastiano

AU - Brando, Thérèse

AU - Julien, Sylviane

AU - Prandi, Jacques

AU - Gilleron, Martine

AU - Porcelli, Steven A.

AU - De La Salle, Henri

AU - Heck, Albert J.R.

AU - Mori, Lucia

AU - Puzo, Germain

AU - Mourey, Lionel

AU - De Libero, Gennaro

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AB - The mechanisms permitting nonpolymorphic CD1 molecules to present lipid antigens that differ considerably in polar head and aliphatic tails remain elusive. It is also unclear why hydrophobic motifs in the aliphatic tails of some antigens, which presumably embed inside CD1 pockets, contribute to determinants for T-cell recognition. The 1.9-Å crystal structure of an active complex of CD1b and a mycobacterial diacylsulfoglycolipid presented here provides some clues. Upon antigen binding, endogenous spacers of CD1b, which consist of a mixture of diradylglycerols, moved considerably within the lipid-binding groove. Spacer displacement was accompanied by F′ pocket closure and an extensive rearrangement of residues exposed to T-cell receptors. Such structural reorganization resulted in reduction of the A′ pocket capacity and led to incomplete embedding of the methyl-ramified portion of the phthioceranoyl chain of the antigen, explaining why such hydrophobic motifs are critical for T-cell receptor recognition. Mutagenesis experiments supported the functional importance of the observed structural alterations for T-cell stimulation. Overall, our data delineate a complex molecular mechanism combining spacer repositioning and ligandinduced conformational changes that, together with pocket intricacy, endows CD1b with the required molecular plasticity to present a broad range of structurally diverse antigens.

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Structural reorganization of the antigen-binding groove of human CD1b for presentation of mycobacterial sulfoglycolipids

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