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Macrophage-derived SPP1 exacerbate myocardial injury by interacting with fibroblasts in viral myocarditis

Xiuyun Duan, Zhang Li, Keyu Liu, Kaiyin Guo, Yingnan You, Hailin Jia, Shan Zhou, Bo Han

2025Biology Direct13 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Viral myocarditis (VMC) is an inflammatory myocardial condition triggered by viral infections which involves pathogenic-related damage and immune-mediated damage. However, the precise immunopathogenic mechanisms underlying VMC remain elusive. METHODS: We performed single-cell RNA sequencing on mouse hearts during the acute phase of CVB3-induced VMC. After manually annotating cell types, functional analyses of macrophage were performed by cell ratio changes, customized gene set module scoring and CellPhoneDB. Utilizing indirect co-culture experiments in vitro, the effects of macrophage-derived SPP1 on cardiac fibroblasts were investigated. Depletion of macrophages and inhibition of SPP1 expression in mice were carried out to study the effects of macrophage-derived SPP1 on cardiac function, inflammation levels, and myocardial injury in mice with VMC. RESULTS: macrophages communicate extensively with fibroblasts during VMC, and that SPP1 promotes fibroblast conversion to an inflammatory phenotype with high Ccl2/Ccl7 expression. This in turn increases monocyte chemotaxis to the heart. Besides, a partial depletion of macrophages in the early stages of VMC attenuated myocardial inflammation and myocardial injury in mice. Inhibition of SPP1 reduced cardiac macrophage infiltration, attenuated myocardial inflammation, and improved cardiac function in VMC mice. CONCLUSION: macrophages could self-recruit, and macrophage-derived SPP1 exacerbated myocardial immune injury by promoting high Ccl2/Ccl7 expression in fibroblasts. Our study advances understandings of VMC pathogenesis, and provides novel insight into potential immunotherapies for VMC.

Topics & Concepts

BiologyMyocarditisViral MyocarditisMacrophageImmunologyVirologyVirusInternal medicineGeneticsMedicineIn vitroViral Infections and Immunology ResearchCardiac Fibrosis and RemodelingCardiomyopathy and Myosin Studies