Frontiers in Oncology (Aug 2024)

Single-cell RNA and T-cell receptor sequencing unveil mycosis fungoides heterogeneity and a possible gene signature

  • Nalini Srinivas,
  • Nalini Srinivas,
  • Nalini Srinivas,
  • Lukas Peiffer,
  • Lukas Peiffer,
  • Lukas Peiffer,
  • Kai Horny,
  • Kai Horny,
  • Kuan Cheok Lei,
  • Kuan Cheok Lei,
  • Terkild B. Buus,
  • Linda Kubat,
  • Linda Kubat,
  • Linda Kubat,
  • Meng Luo,
  • Meng Luo,
  • Menghong Yin,
  • Menghong Yin,
  • Ivelina Spassova,
  • Ivelina Spassova,
  • Ivelina Spassova,
  • Antje Sucker,
  • Farnoush Farahpour,
  • Jan Kehrmann,
  • Selma Ugurel,
  • Elisabeth Livingstone,
  • Thilo Gambichler,
  • Thilo Gambichler,
  • Niels Ødum,
  • Jürgen C. Becker,
  • Jürgen C. Becker,
  • Jürgen C. Becker

DOI
https://doi.org/10.3389/fonc.2024.1408614
Journal volume & issue
Vol. 14

Abstract

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BackgroundMycosis fungoides (MF) is the most common subtype of cutaneous T-cell lymphoma (CTCL). Comprehensive analysis of MF cells in situ and ex vivo is complicated by the fact that is challenging to distinguish malignant from reactive T cells with certainty.MethodsTo overcome this limitation, we performed combined single-cell RNA (scRNAseq) and T-cell receptor TCR sequencing (scTCRseq) of skin lesions of cutaneous MF lesions from 12 patients. A sufficient quantity of living T cells was obtained from 9 patients, but 2 had to be excluded due to unclear diagnoses (coexisting CLL or revision to a fixed toxic drug eruption).ResultsFrom the remaining patients we established single-cell mRNA expression profiles and the corresponding TCR repertoire of 18,630 T cells. TCR clonality unequivocally identified 13,592 malignant T cells. Reactive T cells of all patients clustered together, while malignant cells of each patient formed a unique cluster expressing genes typical of naive/memory, such as CD27, CCR7 and IL7R, or cytotoxic T cells, e.g., GZMA, NKG7 and GNLY. Genes encoding classic CTCL markers were not detected in all clusters, consistent with the fact that mRNA expression does not correlate linearly with protein expression. Nevertheless, we successfully pinpointed distinctive gene signatures differentiating reactive malignant from malignant T cells: keratins (KRT81, KRT86), galectins (LGALS1, LGALS3) and S100 genes (S100A4, S100A6) being overexpressed in malignant cells.ConclusionsCombined scRNAseq and scTCRseq not only allows unambiguous identification of MF cells, but also revealed marked heterogeneity between and within patients with unexpected functional phenotypes. While the correlation between mRNA and protein abundance was limited with respect to established MF markers, we were able to identify a single-cell gene expression signature that distinguishes malignant from reactive T cells.

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