Single cell transcriptional profiling reveals signatures of helper, effector, and regulatory MAIT cells during homeostasis and activation
UID: 10986
- Description
- Summary from GEO:
"Mucosal-associated invariant T (MAIT) cells are innate-like lymphocytes that recognize microbial vitamin B metabolites and have emerging roles in infectious disease, autoimmunity, and cancer. Although MAIT cells are identified by a semi-invariant T cell receptor, their phenotypic and functional heterogeneity is not well understood. Here we present an integrated single cell transcriptomic analysis of over 76,000 human MAIT cells during acute and chronic antigen-specific activation with the MR1 ligand 5-OP-RU and non-specific TCR stimulation. We show that MAIT cells span a broad range of homeostatic, effector, helper, tissue-infiltrating, regulatory, and exhausted phenotypes, with distinct gene expression programs associated with CD4+ or CD8+ co-expression. During acute activation, MAIT cells rapidly adopt a cytotoxic phenotype characterized by high expression of GZMB, IFNG and TNF. In contrast, chronic stimulation induces heterogeneous states defined by proliferation, cytotoxicity, immune modulation, and exhaustion. We further demonstrate a FOXP3 expressing MAIT cell subset that phenotypically resembles conventional regulatory T cells. Moreover, scRNAseq-defined MAIT cell subpopulations were also detected in individuals recently exposed to Mycobacterium tuberculosis, confirming their presence during human infection. Our study provides the first comprehensive atlas of human MAIT cells in activation conditions and defines substantial functional heterogeneity, suggesting complex roles in health and disease."
Overall design from GEO:
"scRNA-seq from 3 donors with two timpoints / multiple stimulation conditions each. 27 samples total."
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Access via GEO
Accession #: GSE182239Access via BioProject
Accession #: PRJNA755490Access via SRA
Accession #: SRP332835 - Access Restrictions
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Free to All
- Access Instructions
- The NCBI Gene Expression Omnibus, BioProject, and SRA databases provide open access to these files.
- Associated Publications
- Equipment Used
- Dataset Format(s)
- RDS
- Dataset Size
- 8.2 GB (RDS), 1.3 MB (RDS)
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