Guillem Sanchez Sanchez scite author profile

γδ T cells comprise the third cell lineage of lymphocytes that use, like αβ T cells and B cells, V(D)J gene rearrangement with the potential to generate a highly diverse T cell receptor (TCR) repertoire. There is no obvious conservation of γδ T cell subsets (based on TCR repertoire and/or function) between mice and human, leading to the notion that human and mouse γδ T cells are highly different. In this review we focus on human γδ T cells, building on recent studies using highthroughput sequencing to analyze the TCR repertoire in various settings. We make then the comparison with mouse γδ T cell subsets highlighting the similarities and differences and describe the remarkable changes during lifespan of innate and adaptive γδ T cells. Finally, we propose mechanisms contributing to the generation of innate versus adaptive γδ T cells. We conclude that key elements related to the generation of the γδ TCR repertoire and γδ T cell activation/development are conserved between human and mice, highlighting the similarities between these two species.

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Identification of distinct functional thymic programming of fetal and pediatric human γδ thymocytes via single-cell analysis

Sanchez

Papadopoulou

Azouz

et al. 2022

Nat Commun

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Developmental thymic waves of innate-like and adaptive-like γδ T cells have been described, but the current understanding of γδ T cell development is mainly limited to mouse models. Here, we combine single cell (sc) RNA gene expression and sc γδ T cell receptor (TCR) sequencing on fetal and pediatric γδ thymocytes in order to understand the ontogeny of human γδ T cells. Mature fetal γδ thymocytes (both the Vγ9Vδ2 and nonVγ9Vδ2 subsets) are committed to either a type 1, a type 3 or a type 2-like effector fate displaying a wave-like pattern depending on gestation age, and are enriched for public CDR3 features upon maturation. Strikingly, these effector modules express different CDR3 sequences and follow distinct developmental trajectories. In contrast, the pediatric thymus generates only a small effector subset that is highly biased towards Vγ9Vδ2 TCR usage and shows a mixed type 1/type 3 effector profile. Thus, our combined dataset of gene expression and detailed TCR information at the single-cell level identifies distinct functional thymic programming of γδ T cell immunity in human.

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Surfing on the waves of the human γδ T cell ontogenic sea

Sanchez

Tafesse

Papadopoulou

et al. 2023

Immunological Reviews

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γδ T cells are, like αβ T cells and B cells, lymphocytes that can rearrange gene segments at the DNA level with the potential to generate a set of highly diverse antigen receptors. 1,2 This tripartite division of immune cells possessing somatically diversified antigen receptors (γδ T cell receptor (TCR), αβ TCR and B cell receptor (BCR)) is a fundamental pillar of the immune system in jawed vertebrates (Gnathostomata). 3 Indeed, this division is traced back even in distant species with cryptic lymphocyte lineages, such as cartilaginous fish (Chondrichthyes), 4 and a similar division pattern can be observed in jawless vertebrates (Agnatha), despite arising from a distinct somatic recombination system that originates around 500 million years ago. 5 This striking conservation emphasizes the non-redundant roles of γδ

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Single-cell profiling identifies a novel human polyclonal unconventional T cell lineage

Billiet

Cock

Sanchez

et al. 2023

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In the human thymus, a CD10+ PD-1+ TCRαβ+ differentiation pathway diverges from the conventional single positive T cell lineages at the early double-positive stage. Here, we identify the progeny of this unconventional lineage in antigen-inexperienced blood. These unconventional T cells (UTCs) in thymus and blood share a transcriptomic profile, characterized by hallmark transcription factors (i.e., ZNF683 and IKZF2), and a polyclonal TCR repertoire with autoreactive features, exhibiting a bias toward early TCRα chain rearrangements. Single-cell RNA sequencing confirms a common developmental trajectory between the thymic and blood UTCs and clearly delineates this unconventional lineage in blood. Besides MME+ recent thymic emigrants, effector-like clusters are identified in this heterogeneous lineage. Expression of Helios and KIR and a decreased CD8β expression are characteristics of this lineage. This UTC lineage could be identified in adult blood and intestinal tissues. In summary, our data provide a comprehensive characterization of the polyclonal unconventional lineage in antigen-inexperienced blood and identify the adult progeny.

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