Transcriptional programming of immunoregulatory responses in human Langerhans cells
Transcriptional programming of immunoregulatory responses in human Langerhans cells
Human epidermal Langerhans cells (LCs) maintain immune homeostasis in the skin. To examine transcriptional programming of human primary LCs during homeostasis, we performed scRNA-seq analysis of LCs before and after migration from the epidermis, coupled with functional assessment of their regulatory T cell priming capabilities. The analysis revealed that steady-state LCs exist in a continuum of maturation states and upregulate antigen presentation genes along with an immunoregulatory module including the genes IDO1, LGALS1, LAMTOR1, IL4I, upon their migration. The migration-induced transition in genomic state is accompanied by the ability of LCs to more efficiently prime regulatory T cell responses in co-culture assays. Computational analyses of the scRNAseq datasets using SCENIC and Partial Information Decomposition in Context identified a set of migration-induced transcription factors including IRF4, KLF6 and RelB as key nodes within a immunoregulatory gene regulatory network. These findings support a model in which efficient priming of immunoregulatory responses by LCs is dependent on coordinated upregulation of a migration-coupled maturation program with a immunoregulation-promoting genomic module.
dendritic cell (DC), gene regulatory network (GRN), immune regulation, Langerhans cell (LC), transcriptional regulation
Davies, James
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Sirvent, Sofia
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Vallejo, Andres F.
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Clayton, Kalum
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Douilhet, Gemma
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Keeler, Patrick S.
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West, Jonathan
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Ardern-Jones, Michael
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MacArthur, Ben D.
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Singh, Harinder
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Polak, Marta E.
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20 September 2022
Davies, James
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Sirvent, Sofia
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Vallejo, Andres F.
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Clayton, Kalum
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Douilhet, Gemma
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Keeler, Patrick S.
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West, Jonathan
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Ardern-Jones, Michael
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MacArthur, Ben D.
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Singh, Harinder
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Polak, Marta E.
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Davies, James, Sirvent, Sofia, Vallejo, Andres F., Clayton, Kalum, Douilhet, Gemma, Keeler, Patrick S., West, Jonathan, Ardern-Jones, Michael, MacArthur, Ben D., Singh, Harinder and Polak, Marta E.
(2022)
Transcriptional programming of immunoregulatory responses in human Langerhans cells.
Frontiers in Immunology, 13, [892254].
(doi:10.3389/fimmu.2022.892254).
Abstract
Human epidermal Langerhans cells (LCs) maintain immune homeostasis in the skin. To examine transcriptional programming of human primary LCs during homeostasis, we performed scRNA-seq analysis of LCs before and after migration from the epidermis, coupled with functional assessment of their regulatory T cell priming capabilities. The analysis revealed that steady-state LCs exist in a continuum of maturation states and upregulate antigen presentation genes along with an immunoregulatory module including the genes IDO1, LGALS1, LAMTOR1, IL4I, upon their migration. The migration-induced transition in genomic state is accompanied by the ability of LCs to more efficiently prime regulatory T cell responses in co-culture assays. Computational analyses of the scRNAseq datasets using SCENIC and Partial Information Decomposition in Context identified a set of migration-induced transcription factors including IRF4, KLF6 and RelB as key nodes within a immunoregulatory gene regulatory network. These findings support a model in which efficient priming of immunoregulatory responses by LCs is dependent on coordinated upregulation of a migration-coupled maturation program with a immunoregulation-promoting genomic module.
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fimmu-13-892254
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More information
Accepted/In Press date: 25 August 2022
Published date: 20 September 2022
Additional Information:
Funding Information:
The study was funded by a Sir Hendy Dale Fellowship from Wellcome Trust, 109377/Z/15/Z. Development of single cell Drop-Seq technology was funded by MRC grant MC_PC_15078. This project in the Pitt Center for Systems Immunology was supported by UPMC-ITTC funds.
Keywords:
dendritic cell (DC), gene regulatory network (GRN), immune regulation, Langerhans cell (LC), transcriptional regulation
Identifiers
Local EPrints ID: 475121
URI: http://eprints.soton.ac.uk/id/eprint/475121
ISSN: 1664-3224
PURE UUID: 13cf757d-1b36-4a25-b7c1-d8ec8109c65b
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Date deposited: 10 Mar 2023 17:35
Last modified: 18 Mar 2024 03:40
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Contributors
Author:
James Davies
Author:
Sofia Sirvent
Author:
Andres F. Vallejo
Author:
Kalum Clayton
Author:
Gemma Douilhet
Author:
Patrick S. Keeler
Author:
Harinder Singh
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