Molecular mechanisms of lineage decisions in metabolite-specific T cells

doi:10.1038/s41590-019-0465-3

. 2019 Sep;20(9):1244-1255.

doi: 10.1038/s41590-019-0465-3. Epub 2019 Aug 20.

Molecular mechanisms of lineage decisions in metabolite-specific T cells

François Legoux^#¹, Jules Gilet^#², Emanuele Procopio², Klara Echasserieau³, Karine Bernardeau³, Olivier Lantz^{4

5

6}

Affiliations

¹ INSERM U932, PSL University, Institut Curie, Paris, France. francois.legoux@curie.fr.
² INSERM U932, PSL University, Institut Curie, Paris, France.
³ Production de Protéines Recombinantes, Centre de Recherche en Cancérologie et Immunologie Nantes-Angers, INSERM-1232, Nantes, France.
⁴ INSERM U932, PSL University, Institut Curie, Paris, France. olivier.lantz@curie.fr.
⁵ Laboratoire d'immunologie Clinique, Institut Curie, Paris, France. olivier.lantz@curie.fr.
⁶ Centre d'investigation Clinique en Biothérapie, Gustave-Roussy Institut Curie, Paris, France. olivier.lantz@curie.fr.

^# Contributed equally.

PMID: 31431722
DOI: 10.1038/s41590-019-0465-3

Molecular mechanisms of lineage decisions in metabolite-specific T cells

François Legoux et al. Nat Immunol. 2019 Sep.

. 2019 Sep;20(9):1244-1255.

doi: 10.1038/s41590-019-0465-3. Epub 2019 Aug 20.

Authors

François Legoux^#¹, Jules Gilet^#², Emanuele Procopio², Klara Echasserieau³, Karine Bernardeau³, Olivier Lantz^{4

5

6}

Affiliations

¹ INSERM U932, PSL University, Institut Curie, Paris, France. francois.legoux@curie.fr.
² INSERM U932, PSL University, Institut Curie, Paris, France.
³ Production de Protéines Recombinantes, Centre de Recherche en Cancérologie et Immunologie Nantes-Angers, INSERM-1232, Nantes, France.
⁴ INSERM U932, PSL University, Institut Curie, Paris, France. olivier.lantz@curie.fr.
⁵ Laboratoire d'immunologie Clinique, Institut Curie, Paris, France. olivier.lantz@curie.fr.
⁶ Centre d'investigation Clinique en Biothérapie, Gustave-Roussy Institut Curie, Paris, France. olivier.lantz@curie.fr.

^# Contributed equally.

PMID: 31431722
DOI: 10.1038/s41590-019-0465-3

Erratum in

Author Correction: Molecular mechanisms of lineage decisions in metabolite-specific T cells.
Legoux F, Gilet J, Procopio E, Echasserieau K, Bernardeau K, Lantz O. Legoux F, et al. Nat Immunol. 2023 Feb;24(2):372-373. doi: 10.1038/s41590-023-01427-y. Nat Immunol. 2023. PMID: 36693979 No abstract available.

Abstract

Mucosal-associated invariant T cells (MAIT cells) recognize the microbial metabolite 5-(2-oxopropylideneamino)-6-D-ribitylaminouracil (5-OP-RU) presented by the MHC class Ib molecule, MR1. MAIT cells acquire effector functions during thymic development, but the mechanisms involved are unclear. Here we used single-cell RNA-sequencing to characterize the developmental path of 5-OP-RU-specific thymocytes. In addition to the known MAIT1 and MAIT17 effector subsets selected on bone-marrow-derived hematopoietic cells, we identified 5-OP-RU-specific thymocytes that were selected on thymic epithelial cells and differentiated into CD44^- naive T cells. MAIT cell positive selection required signaling through the adapter, SAP, that controlled the expression of the transcription factor, ZBTB16. Pseudotemporal ordering of single cells revealed transcriptional trajectories of 5-OP-RU-specific thymocytes selected on either thymic epithelial cells or hematopoietic cells. The resulting model illustrates T cell lineage decisions.

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References

1. Boudinot, P. et al. Restricting nonclassical MHC genes coevolve with TRAV genes used by innate-like T cells in mammals. Proc. Natl Acad. Sci. USA 113, E2983–E2992 (2016). - DOI
1. Treiner, E. et al. Selection of evolutionarily conserved mucosal-associated invariant T cells by MR1. Nature 422, 164–169 (2003). - DOI
1. Franciszkiewicz, K. et al. MHC class I-related molecule, MR1, and mucosal-associated invariant T cells. Immunol. Rev. 272, 120–138 (2016). - DOI
1. Koay, H. F. et al. A three-stage intrathymic development pathway for the mucosal-associated invariant T cell lineage. Nat. Immunol. 17, 1300–1311 (2016). - DOI
1. Martin, E. et al. Stepwise development of MAIT cells in mouse and human. PLoS Biol. 7, e54 (2009). - DOI

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[1] Boudinot, P. et al. Restricting nonclassical MHC genes coevolve with TRAV genes used by innate-like T cells in mammals. Proc. Natl Acad. Sci. USA 113, E2983–E2992 (2016). - DOI

[2] Boudinot, P. et al. Restricting nonclassical MHC genes coevolve with TRAV genes used by innate-like T cells in mammals. Proc. Natl Acad. Sci. USA 113, E2983–E2992 (2016). - DOI

[3] Treiner, E. et al. Selection of evolutionarily conserved mucosal-associated invariant T cells by MR1. Nature 422, 164–169 (2003). - DOI

[4] Treiner, E. et al. Selection of evolutionarily conserved mucosal-associated invariant T cells by MR1. Nature 422, 164–169 (2003). - DOI

[5] Franciszkiewicz, K. et al. MHC class I-related molecule, MR1, and mucosal-associated invariant T cells. Immunol. Rev. 272, 120–138 (2016). - DOI

[6] Franciszkiewicz, K. et al. MHC class I-related molecule, MR1, and mucosal-associated invariant T cells. Immunol. Rev. 272, 120–138 (2016). - DOI

[7] Koay, H. F. et al. A three-stage intrathymic development pathway for the mucosal-associated invariant T cell lineage. Nat. Immunol. 17, 1300–1311 (2016). - DOI

[8] Koay, H. F. et al. A three-stage intrathymic development pathway for the mucosal-associated invariant T cell lineage. Nat. Immunol. 17, 1300–1311 (2016). - DOI

[9] Martin, E. et al. Stepwise development of MAIT cells in mouse and human. PLoS Biol. 7, e54 (2009). - DOI

[10] Martin, E. et al. Stepwise development of MAIT cells in mouse and human. PLoS Biol. 7, e54 (2009). - DOI

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Molecular mechanisms of lineage decisions in metabolite-specific T cells

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Molecular mechanisms of lineage decisions in metabolite-specific T cells

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