EBioMedicine (Apr 2023)

Cytotoxic CD161−CD8+ TEMRA cells contribute to the pathogenesis of systemic lupus erythematosusResearch in context

  • Hui Xiong,
  • Mintian Cui,
  • Ni Kong,
  • Jiongjie Jing,
  • Ying Xu,
  • Xiuting Liu,
  • Fan Yang,
  • Zhen Xu,
  • Yu Yan,
  • Dongyang Zhao,
  • Ziqi Zou,
  • Meng Xia,
  • Junjie Cen,
  • Guozhen Tan,
  • Cong Huai,
  • Qiong Fu,
  • Qing Guo,
  • Kun Chen

Journal volume & issue
Vol. 90
p. 104507

Abstract

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Summary: Background: Systemic lupus erythematosus (SLE) is a prototypical autoimmune disease affecting multiple organs and tissues with high cellular heterogeneity. CD8+ T cell activity is involved in the SLE pathogenesis. However, the cellular heterogeneity and the underlying mechanisms of CD8+ T cells in SLE remain to be identified. Methods: Single-cell RNA sequencing (scRNA-seq) of PBMCs from a SLE family pedigree (including 3 HCs and 2 SLE patients) was performed to identify the SLE-associated CD8+ T cell subsets. Flow cytometry analysis of a SLE cohort (including 23 HCs and 33 SLE patients), qPCR analysis of another SLE cohort (including 30 HCs and 25 SLE patients) and public scRNA-seq datasets of autoimmune diseases were employed to validate the finding. Whole-exome sequencing (WES) of this SLE family pedigree was used to investigate the genetic basis in dysregulation of CD8+ T cell subsets identified in this study. Co-culture experiments were performed to analyze the activity of CD8+ T cells. Findings: We elucidated the cellular heterogeneity of SLE and identified a new highly cytotoxic CD8+ T cell subset, CD161−CD8+ TEMRA cell subpopulation, which was remarkably increased in SLE patients. Meanwhile, we discovered a close correlation between mutation of DTHD1 and the abnormal accumulation of CD161−CD8+ TEMRA cells in SLE. DTHD1 interacted with MYD88 to suppress its activity in T cells and DTHD1 mutation promoted MYD88-dependent pathway and subsequently increased the proliferation and cytotoxicity of CD161−CD8+ TEMRA cells. Furthermore, the differentially expressed genes in CD161−CD8+ TEMRA cells displayed a strong out-of-sample prediction for case–control status of SLE. Interpretation: This study identified DTHD1-associated expansion of CD161−CD8+ TEMRA cell subpopulation is critical for SLE. Our study highlights genetic association and cellular heterogeneity of SLE pathogenesis and provides a mechanistical insight into the diagnosis and treatment of SLE. Fundings: Stated in the Acknowledgements section of the manuscript.

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