Abstract
The clone size distribution of the human naive T-cell receptor (TCR) repertoire is an important determinant of adaptive immunity. We estimated the abundance of TCR sequences in samples of naive T cells from blood using an accurate quantitative sequencing protocol. We observe most TCR sequences only once, consistent with the enormous diversity of the repertoire. However, a substantial number of sequences were observed multiple times. We detect abundant TCR sequences even after exclusion of methodological confounders such as sort contamination, and multiple mRNA sampling from the same cell. By combining experimental data with predictions from models we describe two mechanisms contributing to TCR sequence abundance. TCRα abundant sequences can be primarily attributed to many identical recombination events in different cells, while abundant TCRβ sequences are primarily derived from large clones, which make up a small percentage of the naive repertoire, and could be established early in the development of the T-cell repertoire.
Highlights
The human adaptive immune system employs a vast number (> 1011 [Clark et al, 1999]) of T lymphocytes, to detect and control pathogens
We analysed the frequency distribution of T-cell receptor (TCR) sequences in the naive T-cell compartment, using TCRa and TCRb sequences published in Oakes et al (2017)
TCRa and TCRb mRNA was reverse transcribed to cDNA molecules to which unique molecular identifiers (UMIs) were attached, followed by PCR-amplification and high-throughput sequencing (HTS) on an Illumina MiSeq platform
Summary
The human adaptive immune system employs a vast number (> 1011 [Clark et al, 1999]) of T lymphocytes, to detect and control pathogens. Most T cells express a single T-cell receptor (TCR) variant, which binds antigen in the form of a short peptide presented by the Major Histocompatibility Complex (pMHC) (Davis and Bjorkman, 1988). Generation of ab TCRs occurs in the thymus, where thymocytes randomly rearrange and imprecisely recombine gene segments to create a complete receptor (Nikolich-Zugich et al, 2004). This heterodimer is generated by random recombination of Variable, Diversity, and Joining (V, D and J) segments for TCRb, and V and J segments for TCRa sequences (Davis and Bjorkman, 1988).
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