A CD57+CD8+ T cell subset links T cell cytotoxicity to fibrotic lung disease in systemic sclerosis
Takanori Sasaki, Ye Cao, John M. Sowerby, Kazuhiko Higashioka, Kathryne E. Marks, Mehreen Elahee, Mari Kamiya, Paul F. Dellaripa, Richard I. Ainsworth, Kimberly E. Taylor, Nunzio Bottini, Paul Wolters, Edy Y. Kim, Francesco Boin, Deepak A. Rao
Takanori Sasaki, Ye Cao, John M. Sowerby, Kazuhiko Higashioka, Kathryne E. Marks, Mehreen Elahee, Mari Kamiya, Paul F. Dellaripa, Richard I. Ainsworth, Kimberly E. Taylor, Nunzio Bottini, Paul Wolters, Edy Y. Kim, Francesco Boin, Deepak A. Rao
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Research Article Autoimmunity Immunology

A CD57+CD8+ T cell subset links T cell cytotoxicity to fibrotic lung disease in systemic sclerosis

Abstract

Interstitial lung disease (ILD) is a major cause of morbidity and mortality in systemic sclerosis (SSc); however, the immunopathologic mechanisms driving lung disease in SSc are unclear. T cells have been implicated as a likely driver of lung injury in SSc. Here, we evaluated T cells in the blood of patients with SSc-ILD and identified a specific population of cytotoxic CD8+ T cells that was expanded in patients with SSc-ILD. Cytotoxic effector memory CD8+ T cells marked by CD57 expression were preferentially expanded in patients with SSc-ILD compared with patients with SSc but no ILD and control individuals and showed prominent clonal expansion. These CD57+ T effector memory (Tem) cells differed from T effector memory cells reexpressing CD45RA (Temra) transcriptomically and functionally, with cytotoxic function that was enhanced by CD155 engagement of the costimulatory receptor CD226. We performed immunostaining of lung tissue samples obtained from independent patients with SSc-ILD (biopsy or explant) and confirmed the presence of CD57+ Tem cells. In parallel, we analyzed publicly available lung scRNA-seq datasets from multiple ILD cohorts and identified endothelial cells as a likely source of CD155 for the activation of CD57+ cytotoxic T cells. Together, the results implicate a CD57+ cytotoxic CD8+ T cell population as a potential mediator of lung injury in SSc-ILD.

Authors

Takanori Sasaki, Ye Cao, John M. Sowerby, Kazuhiko Higashioka, Kathryne E. Marks, Mehreen Elahee, Mari Kamiya, Paul F. Dellaripa, Richard I. Ainsworth, Kimberly E. Taylor, Nunzio Bottini, Paul Wolters, Edy Y. Kim, Francesco Boin, Deepak A. Rao

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Figure 5

Endothelial cells are the main source of CD155 and CD112 in ILD tissues.

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Endothelial cells are the main source of CD155 and CD112 in ILD tissues....
(A) UMAP clustering of all cells in lung tissue scRNA-seq data generated from 66 patients with ILD and 48 control donors (25). (B) Expression of EPCAM, THY1, PECAM1, and PTPRC in the cell subsets from B. (C) Expression of CD155/PVR and CD112/NECTIN2 in cell subsets from B. (D) UMAP clustering of endothelial cells in scRNA-seq data from B. (E) Expression of CD155/PVR and CD112/NECTIN2 in endothelial clusters. (F) CNA of endothelial cells from B, comparing ILD versus control samples. Red indicates cell neighborhoods that were enriched in the ILD samples. (G) Proposed model of CD57+ Tem cell–driven pathogenic mechanisms in SSc-ILD.