Communications Biology (Apr 2024)

Single-cell T-cell receptor repertoire profiling in dogs

  • My H. Hoang,
  • Zachary L. Skidmore,
  • Hans Rindt,
  • Shirley Chu,
  • Bryan Fisk,
  • Jennifer A. Foltz,
  • Catrina Fronick,
  • Robert Fulton,
  • Mingyi Zhou,
  • Nathan J. Bivens,
  • Carol N. Reinero,
  • Todd A. Fehniger,
  • Malachi Griffith,
  • Jeffrey N. Bryan,
  • Obi L. Griffith

DOI
https://doi.org/10.1038/s42003-024-06174-w
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 16

Abstract

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Abstract Spontaneous cancers in companion dogs are robust models of human disease. Tracking tumor-specific immune responses in these models requires reagents to perform species-specific single cell T cell receptor sequencing (scTCRseq). scTCRseq and integration with scRNA data have not been demonstrated on companion dogs with cancer. Here, five healthy dogs, two dogs with T cell lymphoma and four dogs with melanoma are selected to demonstrate applicability of scTCRseq in a cancer immunotherapy setting. Single-cell suspensions of PBMCs or lymph node aspirates are profiled using scRNA and dog-specific scTCRseq primers. In total, 77,809 V(D)J-expressing cells are detected, with an average of 3498 (348 - 5,971) unique clonotypes identified per sample. In total, 29/34, 40/40, 22/22 and 9/9 known functional TRAV, TRAJ, TRBV and TRBJ gene segments are observed respectively. Pseudogene or otherwise defective gene segments are also detected supporting re-annotation of several as functional. Healthy dogs exhibit highly diverse repertoires, T cell lymphomas exhibit clonal repertoires, and vaccine-treated melanoma dogs are dominated by a small number of highly abundant clonotypes. scRNA libraries define large clusters of V(D)J-expressing CD8+ and CD4 + T cells. Dominant clonotypes observed in melanoma PBMCs are predominantly CD8 + T cells, with activated phenotypes, suggesting possible anti-tumor T cell populations.