Every person carries a vast repertoire of CD4(+) T-helper cells and CD8(+) cytotoxic T cells for a healthy immune system. Somatic VDJ recombination at genomic loci that encode the Tcell receptor (TCR) is a key step during T-cell development, but how a single T cell commits to become either CD4(+) or CD8(+) is poorly understood. To evaluate the influence of TCR sequence variation on CD4(+)/CD8(+) lineage commitment, we sequenced rearranged TCRs for both a and beta chains in naive T cells isolated from healthy donors and investigated gene segment usage and recombination patterns in CD4(+) and CD8(+) T-cell subsets. Our data demonstrate that most V and J gene segments are strongly biased in the naive CD4(+) and CD8(+) subsets with some segments increasing the odds of being CD4(+) (or CD8(+)) up to fivefold. These V and J gene associations are highly reproducible across individuals and independent of classical HLA genotype, explaining similar to 11% of the observed variance in the CD4(+) vs. CD8(+) propensity. In addition, we identified a strong independent association of the electrostatic charge of the complementarity determining region 3 (CDR3) in both a and beta chains, where a positively charged CDR3 is associated with CD4(+) lineage and a negatively charged CDR3 with CD8(+) lineage. Our findings suggest that somatic variation in different parts of the TCR influences T-cell lineage commitment in a predominantly additive fashion. This notion can help delineate how certain structural features of the TCR-peptide-HLA complex influence thymic selection.
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