Nature Communications (Nov 2023)

High-sensitive spatially resolved T cell receptor sequencing with SPTCR-seq

  • Jasim Kada Benotmane,
  • Jan Kueckelhaus,
  • Paulina Will,
  • Junyi Zhang,
  • Vidhya M. Ravi,
  • Kevin Joseph,
  • Roman Sankowski,
  • Jürgen Beck,
  • Catalina Lee-Chang,
  • Oliver Schnell,
  • Dieter Henrik Heiland

DOI
https://doi.org/10.1038/s41467-023-43201-6
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 17

Abstract

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Abstract Spatial resolution of the T cell repertoire is essential for deciphering cancer-associated immune dysfunction. Current spatially resolved transcriptomic technologies are unable to directly annotate T cell receptors (TCR). We present spatially resolved T cell receptor sequencing (SPTCR-seq), which integrates optimized target enrichment and long-read sequencing for highly sensitive TCR sequencing. The SPTCR computational pipeline achieves yield and coverage per TCR comparable to alternative single-cell TCR technologies. Our comparison of PCR-based and SPTCR-seq methods underscores SPTCR-seq’s superior ability to reconstruct the entire TCR architecture, including V, D, J regions and the complementarity-determining region 3 (CDR3). Employing SPTCR-seq, we assess local T cell diversity and clonal expansion across spatially discrete niches. Exploration of the reciprocal interaction of the tumor microenvironmental and T cells discloses the critical involvement of NK and B cells in T cell exhaustion. Integrating spatially resolved omics and TCR sequencing provides as a robust tool for exploring T cell dysfunction in cancers and beyond.