Saposins utilize two strategies for lipid transfer and CD1 antigen presentation

L Leon; RVV Tatituri; R Grenha; Y Sun; DC Barral; AJ Minnaard; Veemal Bhowruth; Natacha Veerapen; Gurdyal Besra; A Kasmar; W Peng; DB Moody; GA Grabowski; MB Brenner

doi:10.1073/pnas.1200764109

Saposins utilize two strategies for lipid transfer and CD1 antigen presentation

L Leon, RVV Tatituri, R Grenha, Y Sun, DC Barral, AJ Minnaard, Veemal Bhowruth, Natacha Veerapen, Gurdyal Besra, A Kasmar, W Peng, DB Moody, GA Grabowski, MB Brenner

Biosciences

Research output: Contribution to journal › Article

35 Citations (Scopus)

Abstract

Transferring lipid antigens from membranes into CD1 antigen-presenting proteins represents a major molecular hurdle necessary for T-cell recognition. Saposins facilitate this process, but the mechanisms used are not well understood. We found that saposin B forms soluble saposin protein-lipid complexes detected by native gel electrophoresis that can directly load CD1 proteins. Because saposin B must bind lipids directly to function, we found it could not accommodate long acyl chain containing lipids. In contrast, saposin C facilitates CD1 lipid loading in a different way. It uses a stable, membrane-associated topology and was capable of loading lipid antigens without forming soluble saposin-lipid antigen complexes. These findings reveal how saposins use different strategies to facilitate transfer of structurally diverse lipid antigens.

Original language	English
Pages (from-to)	4357-4364
Number of pages	8
Journal	National Academy of Sciences. Proceedings
Volume	109
Issue number	12
DOIs	https://doi.org/10.1073/pnas.1200764109
Publication status	Published - 1 Mar 2012

Keywords

tuberculosis
lipid binding protein
immunogenicity
Natural Killer T cell

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1073/pnas.1200764109

Design, synthesis, and assessment of specific iNKT cell agonists for clinical applications
Besra, D. (Principal Investigator), Cox, L. (Co-Investigator), Cunningham, A. (Co-Investigator) & Lammas, T. (Co-Investigator)
Medical Research Council
1/03/12 → 29/02/16
Project: Research Councils

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Leon, L., Tatituri, RVV., Grenha, R., Sun, Y., Barral, DC., Minnaard, AJ., Bhowruth, V., Veerapen, N., Besra, G., Kasmar, A., Peng, W., Moody, DB., Grabowski, GA., & Brenner, MB. (2012). Saposins utilize two strategies for lipid transfer and CD1 antigen presentation. National Academy of Sciences. Proceedings, 109(12), 4357-4364. https://doi.org/10.1073/pnas.1200764109

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abstract = "Transferring lipid antigens from membranes into CD1 antigen-presenting proteins represents a major molecular hurdle necessary for T-cell recognition. Saposins facilitate this process, but the mechanisms used are not well understood. We found that saposin B forms soluble saposin protein-lipid complexes detected by native gel electrophoresis that can directly load CD1 proteins. Because saposin B must bind lipids directly to function, we found it could not accommodate long acyl chain containing lipids. In contrast, saposin C facilitates CD1 lipid loading in a different way. It uses a stable, membrane-associated topology and was capable of loading lipid antigens without forming soluble saposin-lipid antigen complexes. These findings reveal how saposins use different strategies to facilitate transfer of structurally diverse lipid antigens.",

keywords = "tuberculosis, lipid binding protein, immunogenicity, Natural Killer T cell",

author = "L Leon and RVV Tatituri and R Grenha and Y Sun and DC Barral and AJ Minnaard and Veemal Bhowruth and Natacha Veerapen and Gurdyal Besra and A Kasmar and W Peng and DB Moody and GA Grabowski and MB Brenner",

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AU - Leon, L

AU - Tatituri, RVV

AU - Grenha, R

AU - Sun, Y

AU - Barral, DC

AU - Minnaard, AJ

AU - Bhowruth, Veemal

AU - Veerapen, Natacha

AU - Besra, Gurdyal

AU - Kasmar, A

AU - Peng, W

AU - Moody, DB

AU - Grabowski, GA

AU - Brenner, MB

PY - 2012/3/1

Y1 - 2012/3/1

N2 - Transferring lipid antigens from membranes into CD1 antigen-presenting proteins represents a major molecular hurdle necessary for T-cell recognition. Saposins facilitate this process, but the mechanisms used are not well understood. We found that saposin B forms soluble saposin protein-lipid complexes detected by native gel electrophoresis that can directly load CD1 proteins. Because saposin B must bind lipids directly to function, we found it could not accommodate long acyl chain containing lipids. In contrast, saposin C facilitates CD1 lipid loading in a different way. It uses a stable, membrane-associated topology and was capable of loading lipid antigens without forming soluble saposin-lipid antigen complexes. These findings reveal how saposins use different strategies to facilitate transfer of structurally diverse lipid antigens.

AB - Transferring lipid antigens from membranes into CD1 antigen-presenting proteins represents a major molecular hurdle necessary for T-cell recognition. Saposins facilitate this process, but the mechanisms used are not well understood. We found that saposin B forms soluble saposin protein-lipid complexes detected by native gel electrophoresis that can directly load CD1 proteins. Because saposin B must bind lipids directly to function, we found it could not accommodate long acyl chain containing lipids. In contrast, saposin C facilitates CD1 lipid loading in a different way. It uses a stable, membrane-associated topology and was capable of loading lipid antigens without forming soluble saposin-lipid antigen complexes. These findings reveal how saposins use different strategies to facilitate transfer of structurally diverse lipid antigens.

KW - tuberculosis

KW - lipid binding protein

KW - immunogenicity

KW - Natural Killer T cell

U2 - 10.1073/pnas.1200764109

DO - 10.1073/pnas.1200764109

M3 - Article

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SN - 1091-6490

VL - 109

SP - 4357

EP - 4364

JO - National Academy of Sciences. Proceedings

JF - National Academy of Sciences. Proceedings

IS - 12

ER -

Saposins utilize two strategies for lipid transfer and CD1 antigen presentation

Abstract

Keywords

UN SDGs

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Design, synthesis, and assessment of specific iNKT cell agonists for clinical applications

Cite this