SLAM/SAP signaling regulates discrete γδ T cell developmental checkpoints and shapes the innate-like γδ TCR repertoire

Author:

Mistri Somen K1ORCID,Hilton Brianna M.1,Horrigan Katherine J.1,Andretta Emma S.1ORCID,Savard Remi1,Dienz Oliver1ORCID,Hampel Kenneth J2,Gerrard Diana L.2,Rose Joshua T.2,Sidiropoulos Nikoletta2,Majumdar Devdoot1ORCID,Boyson Jonathan E.1ORCID

Affiliation:

1. Department of Surgery, Larner College of Medicine, University of Vermont

2. Department of Pathology and Laboratory Medicine, Larner College of Medicine, University of Vermont Medical Center

Abstract

During thymic development, most γδ T cells acquire innate-like characteristics that are critical for their function in tumor surveillance, infectious disease, and tissue repair. The mechanisms, however, that regulate γδ T cell developmental programming remain unclear. Recently, we demonstrated that the SLAM-SAP signaling pathway regulates the development and function of multiple innate-like γδ T cell subsets. Here, we used a single-cell proteogenomics approach to identify SAP-dependent developmental checkpoints and to define the SAP-dependent γδ TCR repertoire. SAP deficiency resulted in both a significant loss of an immature Gzma + Blk + Etv5 + Tox2 + γδT17 precursor population, and a significant increase in Cd4 + Cd8 + Rorc + Ptcra + Rag1 + thymic γδ T cells. SAP-dependent diversion of embryonic day 17 thymic γδ T cell clonotypes into the αβ T cell developmental pathway was associated with a decreased frequency of mature clonotypes in neonatal thymus, and an altered γδ TCR repertoire in the periphery. Finally, we identify TRGV4/TRAV13-4(DV7)-expressing T cells as a novel, SAP-dependent Vγ4 γδT1 subset. Together, the data suggest that SAP-dependent γδ/αβ T cell lineage commitment regulates γδ T cell developmental programming and shapes the γδ TCR repertoire.

Publisher

eLife Sciences Publications, Ltd

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