Author:
Deng Lihua,Harms Anna,Ravens Sarina,Prinz Immo,Tan Likai
Abstract
BackgroundVγ9Vδ2+T cells are a major innate T cell subset in human peripheral blood. Their Vδ2+VDJ-rearrangements are short and simple in the fetal thymus and gradually increase in diversity and CDR3 length along with development. So-called “public” versions of Vδ2+TCRs are shared among individuals of all ages. However, it is unclear whether such frequently occurring “public” Vγ9Vδ2+T cell clones are derived from the fetal thymus and whether they are fitter to proliferate and persist than infrequent “private” clones.MethodsShared “public” Vδ2+TCRs were identified from Vδ2+TCR-repertoires collected from 89 individuals, including newborns (cord blood), infants, and adults (peripheral blood). Distance matrices of Vδ2+CDR3 were generated by TCRdist3 and then embedded into a UMAP for visualizing the heterogeneity of Vδ2+TCRs.ResultsVδ2+CDR3 distance matrix embedded by UMAP revealed that the heterogeneity of Vδ2+TCRs is primarily determined by the J-usage and CDR3aa length, while age or publicity-specific motifs were not found. The most prevalent public Vδ2+TCRs showed germline-like rearrangement with low N-insertions. Age-related features were also identified. Public Vδ2+TRDJ1TCRs from cord blood showed higher N-insertions and longer CDR3 lengths. Synonymous codons resulting from VDJ rearrangement also contribute to the generation of public Vδ2+TCRs. Each public TCR was always produced by multiple different transcripts, even with different D gene usage, and the publicity of Vδ2+TCRs was positively associated with expansion status.ConclusionTo conclude, the heterogeneity of Vδ2+TCRs is mainly determined byTRDJ-usage and the length of CDR3aa sequences. Public Vδ2+TCRs result from germline-like rearrangement and synonymous codons, associated with a higher expansion status.
Funder
Universitätsklinikum Hamburg-Eppendorf
Subject
Immunology,Immunology and Allergy
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献