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Single-cell transcriptomic analysis deciphers the inflammatory microenvironment characterized by CXCL9+ fibroblasts and ACKR1+ endothelial cells in immune-related myocarditis

Boyu Sun, Ziyu Xun, Zixiang Zhou, Nan Zhang, Mingjian Piao, Chengjie Li, Jiongyuan Li, Shuofeng Li, Longhao Zhang, Xiangqi Chen, Hanping Wang, Haitao Zhao

2025Journal of Translational Medicine13 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Immune-related myocarditis induced by immune checkpoint inhibitors (ICIs) is a rare immune-related adverse event (irAE) but is characterized by a high mortality rate. However, the specific pathological mechanisms underlying immune-related myocarditis remain largely unclear. In this study, we aimed to elucidate the inflammatory microenvironment within cardiac tissues affected by immune-related myocarditis at the single-cell level to identify potential therapeutic targets. METHODS: We performed single-cell RNA sequencing (scRNA-seq) on an endomyocardial biopsy specimen obtained from a patient with pancreatic neuroendocrine carcinoma who developed immune-related myocarditis following treatment with ICIs. Additionally, the scRNA-seq data of heart specimens from deceased donors without cardiovascular diseases were collected and applied as normal control. To validate our findings and assess their specificity to ICI-related pathology, we analyzed mouse scRNA-seq data, including controls, ICI-related myocarditis, viral myocarditis, and autoimmune myocarditis. RESULTS: We found elevated proportions of lymphocytes, myeloid cells, and fibroblasts in the irAE group, suggesting an intensified inflammatory microenvironment in human immune-related myocarditis. Within the lymphocyte compartment, increased proportions of CD8 + T exhausted cells and CD8 + T proliferative cells were observed in the irAE group. The upregulated differentially expressed genes in myeloid cells in the irAE group were enriched in pro-inflammatory pathways, consistent with the observed metabolic shift from oxidative phosphorylation to glycolysis. CXCL9 + fibroblasts, characterized by the production of multiple pro-inflammatory cytokines and enriched in the JAK-STAT and TNFα signaling pathways, were predominantly found in the irAE group. Venous endothelial cells specifically expressing atypical chemokine receptor-1 (ACKR1) interacted with myeloid cells and CXCL9 + fibroblasts through the CXCL signaling pathway, facilitating chemokine transcytosis and leukocyte recruitment. Analysis of murine scRNA-seq data further supported these findings, revealing that exhausted CD8 + T cells and pro-inflammatory fibroblasts were uniquely enriched in ICI-related myocarditis, reflecting its distinct inflammatory microenvironment. CONCLUSIONS: We elucidated the unique inflammatory microenvironment of immune-related myocarditis at the single-cell level. Our work revealed key cell subpopulations that were significantly implicated in inflammation, thus offering potential therapeutic targets.

Topics & Concepts

Immune systemMyocarditisTranscriptomeCXCL9InflammationImmunologyBiologyCell biologyChemokineMedicineCXCL10GeneInternal medicineGeneticsGene expressionCancer Immunotherapy and BiomarkersCardiac Fibrosis and RemodelingSingle-cell and spatial transcriptomics
Single-cell transcriptomic analysis deciphers the inflammatory microenvironment characterized by CXCL9+ fibroblasts and ACKR1+ endothelial cells in immune-related myocarditis | Litcius