Haplotype Analysis of the T-Cell Receptor Beta (TCRB) Locus by Long-amplicon TCRB Repertoire Sequencing

Abstract

Abstract Background: Polymorphism within the human T-cell receptor beta variable (TRBV) gene has been proposed as a risk factor for autoimmune disease and immune-related adverse events (IRAEs) during immunotherapy. Previous efforts to evaluate TRBV polymorphism by whole genome sequencing have been hampered by the repetitive nature of the T-cell receptor beta (TCRB) locus. We present a novel long-amplicon TCRB repertoire sequencing approach to enable TRBV haplotype analysis from peripheral blood. Methods: Peripheral blood leukocyte total RNA from 81 Caucasians was used for sequencing of TCRB chains via the Oncomine TCRB-LR assay (amplicon spanning CDR1, 2 and 3) and the Ion Gene Studio S5. VDJ rearrangements were annotated by comparison to the IMGT database, then mined to construct TRBV allele profiles for each individual including, where detected, novel alleles not present in the ImMunoGeneTics (IMGT) database. Finally, TRBV allele profiles were subjected to principal component analysis and k-means clustering to identify TRBV allele haplotypes. Results: Clustering analysis revealed the presence of six major sets of coincident TRBV alleles, which we term haplotype groups. Allelic diversity varied markedly across haplotype groups, with approximately one third of the cohort showing limited TRBV allelic diversity and few uncommon alleles compared to members of other groups. Analysis revealed 37 putatively novel TRBV alleles that are absent from the IMGT database. Conclusion: We demonstrate a straightforward and cost-efficient method for TRBV haplotype analysis from long-amplicon TCRB sequencing data.