Quantifying size and diversity of the human T cell alloresponse
Susan DeWolf, Boris Grinshpun, Thomas Savage, Sai Ping Lau, Aleksandar Obradovic, Brittany Shonts, Suxiao Yang, Heather Morris, Julien Zuber, Robert Winchester, Megan Sykes, Yufeng Shen
Susan DeWolf, Boris Grinshpun, Thomas Savage, Sai Ping Lau, Aleksandar Obradovic, Brittany Shonts, Suxiao Yang, Heather Morris, Julien Zuber, Robert Winchester, Megan Sykes, Yufeng Shen
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Research Article Immunology Transplantation

Quantifying size and diversity of the human T cell alloresponse

Abstract

Alloreactive T lymphocytes are the primary mediators of immune responses in transplantation, both in the graft-versus-host and host-versus-graft directions. While essentially all clones comprising the human T cell repertoire have been selected on self-peptide presented by self–human leukocyte antigens (self-HLAs), much remains to be understood about the nature of clones capable of responding to allo-HLA molecules. Quantitative tools to study these cells are critical to understand fundamental features of this important response; however, the large size and diversity of the alloreactive T cell repertoire in humans presents a great technical challenge. We have developed a high-throughput T cell receptor (TCR) sequencing approach to characterize the human alloresponse. We present a statistical method to model T cell clonal frequency distribution and quantify repertoire diversity. Using these approaches, we measured the diversity and frequency of distinct alloreactive CD4+ and CD8+ T cell populations in HLA-mismatched responder-stimulator pairs. Our findings indicate that the alloimmune repertoire is highly specific for a given pair of individuals, that most alloreactive clones circulate at low frequencies, and that a high proportion of TCRs is likely able to recognize alloantigens.

Authors

Susan DeWolf, Boris Grinshpun, Thomas Savage, Sai Ping Lau, Aleksandar Obradovic, Brittany Shonts, Suxiao Yang, Heather Morris, Julien Zuber, Robert Winchester, Megan Sykes, Yufeng Shen

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Figure 4

Allospecificity of the alloreactive repertoire and the role of HLA.

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Allospecificity of the alloreactive repertoire and the role of HLA. (A) ...
(A) Scatter plots showing lack of overlap between alloreactive clones for 2 distinct alloreactive repertoires generated by 1 responder (R) paired with 2 different stimulators (S) (2-fold-expansion criterion). (B) Jensen-Shannon divergence (JSD) quantitatively compares T cell receptor (TCR) repertoire overlap between the distinct alloreactive populations in A, taking into account clone frequency (JSD 0 = complete overlap; JSD 1 = complete divergence). HLA matches between stimulators shown for class I; for class II, 0 or 1 of 4 (HLA-DR, -DQ) (2 fold-expansion criterion). (C) Schematic highlighting that different analytic strategies for investigating role of HLA-disparities in the alloresponse: comparisons can be between different stimulators (S) or between responder (R) and stimulator (S). (D) Illustrative example of 2 alloreactive repertoires, one HLA mismatched (red) and the other haploidentical (blue), showing power law abundance with a best-fit line used for slope calculation. Alloreactive populations were obtained from a kidney transplant subject. (E) Comparison of CD4 and CD8 slope measurement of alloreactive repertoires for 4 kidney transplant subjects each in response to 2 distinct stimulators, one unrelated HLA-mismatched (left) and one related haploidentical with 2 or more class I (HLA-A, -B) and class II (HLA-DR, -DQ) matches (right). Dashed line connects stimulator pairs for the same subject; Wilcoxon’s test for statistical comparison, P = 0.05). Supplemental Figure 7A shows individual slope plots for each subject (n = 4); raw data included in Supplemental Table 3 along including clonality and R20.