IL-6 in the infarcted heart is preferentially formed by fibroblasts and modulated by purinergic signaling
Christina Alter, Anne-Sophie Henseler, Christoph Owenier, Julia Hesse, Zhaoping Ding, Tobias Lautwein, Jasmin Bahr, Sikander Hayat, Rafael Kramann, Eva Kostenis, Jürgen Scheller, Jürgen Schrader
Christina Alter, Anne-Sophie Henseler, Christoph Owenier, Julia Hesse, Zhaoping Ding, Tobias Lautwein, Jasmin Bahr, Sikander Hayat, Rafael Kramann, Eva Kostenis, Jürgen Scheller, Jürgen Schrader
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Research Article Cardiology Inflammation

IL-6 in the infarcted heart is preferentially formed by fibroblasts and modulated by purinergic signaling

Abstract

Plasma IL-6 is elevated after myocardial infarction (MI) and is associated with increased morbidity and mortality. Which cardiac cell type preferentially contributes to IL-6 expression and how its production is regulated are largely unknown. Here, we studied the cellular source and purinergic regulation of IL-6 formation in a murine MI model. We found that IL-6, measured in various cell types in post-MI hearts at the protein level and by quantitative PCR and RNAscope, was preferentially formed by cardiac fibroblasts (CFs). Single-cell RNA-Seq (scRNA-Seq) in infarcted mouse and human hearts confirmed this finding. We found that adenosine stimulated fibroblast IL-6 formation via the adenosine receptor A2bR in a Gq-dependent manner. CFs highly expressed Adora2b and rapidly degraded extracellular ATP to AMP but lacked CD73. In mice and humans, scRNA-Seq revealed that Adora2B was also mainly expressed by fibroblasts. We assessed global IL-6 production in isolated hearts from mice lacking CD73 on T cells (CD4-CD73–/–), a condition known to be associated with adverse cardiac remodeling. The ischemia-induced release of IL-6 was strongly attenuated in CD4-CD73–/– mice, suggesting adenosine-mediated modulation. Together, these findings demonstrate that post-MI IL-6 was mainly derived from activated CFs and was controlled by T cell–derived adenosine. We show that purinergic metabolic cooperation between CFs and T cells is a mechanism that modulates IL-6 formation by the heart and has therapeutic potential.

Authors

Christina Alter, Anne-Sophie Henseler, Christoph Owenier, Julia Hesse, Zhaoping Ding, Tobias Lautwein, Jasmin Bahr, Sikander Hayat, Rafael Kramann, Eva Kostenis, Jürgen Scheller, Jürgen Schrader

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Figure 1

Temporal changes in expression profiles of Il6 and Adora2b in different subpopulations of cardiac cells in the infarcted heart.

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Temporal changes in expression profiles of Il6 and Adora2b in different ...
(A) qPCR measurement of Il6 mRNA expression in macrophages, monocytes, DCs, granulocytes, T cells, B cells, CFs, EpiSCs, ECs, and cardiomyocytes isolated from C57BL/6J mice on post-MI days 1, 3, and 7 (n = 3–5). (B) Adora2b mRNA expression in different cardiac cell populations (same post-MI time points and cells as in A) (n = 5). Values are the median with the IQR. (C and D) Analysis of Il6 (C) and Adora2b (D) expression following scRNA-Seq analysis of hearts 5 days after MI. Populations of activated CFs, EpiSCs, and ICs isolated from the infarcted hearts of 3 C57BL/6J mice per group were combined (Supplemental Figure 1) and analyzed for their fractional contribution within the combined cluster (Supplemental Figure 3), resulting in 26 well-defined cell populations with the indicated cell identities. Mono, monocytes; Mac, macrophages; VSMC, vascular smooth muscle cells.