Frontiers in Immunology (Aug 2019)

Quantification of T-Cell and B-Cell Replication History in Aging, Immunodeficiency, and Newborn Screening

  • Ruud H. J. Verstegen,
  • Ruud H. J. Verstegen,
  • Ruud H. J. Verstegen,
  • Pei M. Aui,
  • Pei M. Aui,
  • Eliza Watson,
  • Eliza Watson,
  • Samuel De Jong,
  • Sophinus J. W. Bartol,
  • Julian J. Bosco,
  • Julian J. Bosco,
  • Paul U. Cameron,
  • Paul U. Cameron,
  • Robert G. Stirling,
  • Robert G. Stirling,
  • Esther de Vries,
  • Esther de Vries,
  • Jacques J. M. van Dongen,
  • Menno C. van Zelm,
  • Menno C. van Zelm,
  • Menno C. van Zelm,
  • Menno C. van Zelm

DOI
https://doi.org/10.3389/fimmu.2019.02084
Journal volume & issue
Vol. 10

Abstract

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Quantification of T-cell receptor excision circles (TRECs) has impacted on human T-cell research, but interpretations on T-cell replication have been limited due to the lack of a genomic coding joint. We here overcome this limitation with multiplex TRG rearrangement quantification (detecting ~0.98 alleles per TCRαβ+ T cell) and the HSB-2 cell line with a retrovirally introduced TREC construct. We uncovered <5 cell divisions in naive and >10 cell divisions in effector memory T-cell subsets. Furthermore, we show that TREC dilution with age in healthy adults results mainly from increased T cell replication history. This proliferation was significantly increased in patients with predominantly antibody deficiency. Finally, Guthrie cards of neonates with Down syndrome have fewer T and B cells than controls, with similar T-cell and slightly higher B-cell replication. Thus, combined analysis of TRG coding joints and TREC signal joints can be utilized to quantify in vivo T-cell replication, and has direct applications for research into aging, immunodeficiency, and newborn screening.

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