Mesenchymal TNFR2 promotes the development of polyarthritis and comorbid heart valve stenosis
Maria Sakkou, Panagiotis Chouvardas, Lydia Ntari, Alejandro Prados, Kristin Moreth, Helmut Fuchs, Valerie Gailus-Durner, Martin Hrabe de Angelis, Maria C. Denis, Niki Karagianni, George Kollias
Maria Sakkou, Panagiotis Chouvardas, Lydia Ntari, Alejandro Prados, Kristin Moreth, Helmut Fuchs, Valerie Gailus-Durner, Martin Hrabe de Angelis, Maria C. Denis, Niki Karagianni, George Kollias
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Research Article

Mesenchymal TNFR2 promotes the development of polyarthritis and comorbid heart valve stenosis

Abstract

Mesenchymal TNF signaling is etiopathogenic for inflammatory diseases such as rheumatoid arthritis and spondyloarthritis (SpA). The role of Tnfr1 in arthritis has been documented; however, Tnfr2 functions are unknown. Here, we investigate the mesenchymal-specific role of Tnfr2 in the TnfΔARE mouse model of SpA in arthritis and heart valve stenosis comorbidity by cell-specific, Col6a1-cre–driven gene targeting. We find that TNF/Tnfr2 signaling in resident synovial fibroblasts (SFs) and valvular interstitial cells (VICs) is detrimental for both pathologies, pointing to common cellular mechanisms. In contrast, systemic Tnfr2 provides protective signaling, since its complete deletion leads to severe deterioration of both pathologies. SFs and VICs lacking Tnfr2 fail to acquire pathogenic activated phenotypes and display increased expression of antiinflammatory cytokines associated with decreased Akt signaling. Comparative RNA sequencing experiments showed that the majority of the deregulated pathways in TnfΔARE mesenchymal-origin SFs and VICs, including proliferation, inflammation, migration, and disease-specific genes, are regulated by Tnfr2; thus, in its absence, they are maintained in a quiescent nonpathogenic state. Our data indicate a pleiotropy of Tnfr2 functions, with mesenchymal Tnfr2 driving cell activation and arthritis/valve stenosis pathogenesis only in the presence of systemic Tnfr2, whereas nonmesenchymal Tnfr2 overcomes this function, providing protective signals and, thus, containing both pathologies.

Authors

Maria Sakkou, Panagiotis Chouvardas, Lydia Ntari, Alejandro Prados, Kristin Moreth, Helmut Fuchs, Valerie Gailus-Durner, Martin Hrabe de Angelis, Maria C. Denis, Niki Karagianni, George Kollias

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Figure 6

Tnfr2 regulates proinflammatory and proliferative gene expression in mesenchymal cells in the ankle joint and the heart valve in the TnfΔARE/+ mouse model, thus influencing their pathogenic function.

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Tnfr2 regulates proinflammatory and proliferative gene expression in mes...
Representative images of SFs and VICs isolated from 8-week-old WT (A), TnfΔARE/+ (B), TnfΔARE/+;Tnfrsf1bMCKO (C), and TnfΔARE/+;Tnfrsf1bD/D mice (D), stained with phalloidin for the cortical actin filaments. Scale bar: 100 μm. (E) Quantification of phalloidin staining; graph bars represent means of corrected total cell fluorescence quantification by ImageJ ± SEM (n = 30 cells/6 mice/genotype). Cell proliferation quantification performed by ELISA colorimetric BrdU on isolated SFs (F) and VICs (G) (n = 12 wells/4 mice/genotype). Representative Western blots showing the expression of known downstream TNF signaling components, upon TNF stimulation time course as indicated (H and I) (n = 3). Wound closure measurements depicted as % of the initial wound on confluent plates over 24-hour imaging of SFs (J) and VICs (K) as calculated by ImageJ (n = 8 mice/genotype). Adhesion quantification on fibronectin substrate quantified in both mesenchymal cell types by OD measurements of cells stained with crystal violet (n = 6 mice/genotype) (L). Quantitation for all data sets was performed with 1-way ANOVA and Bonferroni’s multiple comparison tests were used to analyze groups for statistical significance (**P < 0.001, ***P < 0.0001).