Macrophage-mediated IL-6 signaling drives ryanodine receptor–2 calcium leak in postoperative atrial fibrillation
Joshua A. Keefe, … , Dobromir Dobrev, Xander H.T. Wehrens
Joshua A. Keefe, … , Dobromir Dobrev, Xander H.T. Wehrens
Published March 6, 2025
Citation Information: J Clin Invest. 2025;135(9):e187711. https://doi.org/10.1172/JCI187711.
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Research Article Cardiology Immunology

Macrophage-mediated IL-6 signaling drives ryanodine receptor–2 calcium leak in postoperative atrial fibrillation

Abstract

Postoperative atrial fibrillation (poAF) is AF occurring days after surgery, with a prevalence of 33% among patients undergoing open-heart surgery. The degree of postoperative inflammation correlates with poAF risk, but less is known about the cellular and molecular mechanisms driving postoperative atrial arrhythmogenesis. We performed single-cell RNA-seq comparing atrial nonmyocytes from mice with and without poAF, which revealed infiltrating CCR2+ macrophages to be the most altered cell type. Pseudotime trajectory analyses identified Il-6 as a gene of interest driving in macrophages, which we confirmed in pericardial fluid collected from human patients after cardiac surgery. Indeed, macrophage depletion and macrophage-specific Il6ra conditional knockout (cKO) prevented poAF in mice. Downstream STAT3 inhibition with TTI-101 and cardiomyocyte-specific Stat3 cKO rescued poAF, indicating a proarrhythmogenic role of STAT3 in poAF development. Confocal imaging in isolated atrial cardiomyocytes (ACMs) uncovered what we believe to be a novel link between STAT3 and CaMKII-mediated ryanodine receptor–2 (RyR2)-Ser(S)2814 phosphorylation. Indeed, nonphosphorylatable RyR2S2814A mice were protected from poAF, and CaMKII inhibition prevented arrhythmogenic Ca2+ mishandling in ACMs from mice with poAF. Altogether, we provide multiomic, biochemical, and functional evidence from mice and humans that IL-6-STAT3-CaMKII signaling driven by infiltrating atrial macrophages is a pivotal driver of poAF, which portends therapeutic utility for poAF prevention.

Authors

Joshua A. Keefe, Yuriana Aguilar-Sanchez, J. Alberto Navarro-Garcia, Isabelle Ong, Luge Li, Amelie Paasche, Issam Abu-Taha, Marcel A. Tekook, Florian Bruns, Shuai Zhao, Markus Kamler, Ying H. Shen, Mihail G. Chelu, Na Li, Dobromir Dobrev, Xander H.T. Wehrens

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Figure 5

STAT3-CaMKII signaling is enhanced in poAF.

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STAT3-CaMKII signaling is enhanced in poAF. Western blotting revealed in...
Western blotting revealed increased (A) STAT3-Y705 phosphorylation, (B) CaMKIIδ, and (C) RyR2-S2814 phosphorylation in the atria of TAF versus TSR and sham mice. (D) STAT3 inhibition with S3I-201 (5 mg/kg) and TTI-101 (100 mg/kg) once a day for 3 days (E) reduced poAF incidence, (F) with a trend toward reduced poAF duration in the TTI-101 group. (G) Cardiomyocyte-specific Stat3 cKO mice (n = 8) were generated by injecting AAV9-Tnt-Cre virus into Stat3FL/FL mice 4 weeks before cardiac surgery. Controls (n = 11) consisted of mice injected with control virus 4 weeks prior to cardiac surgery. Stat3 cKO mice were protected from (H) poAF and (I) exhibited a nominal reduction in poAF duration. Please note that these data show that, among mice that underwent cardiac surgery, STAT3-CaMKII-RyR2 signaling was greatest in mice that developed poAF. Pharmacologic STAT3 inhibition and cardiomyocyte-specific Stat3 cKO prevented poAF in mice, indicating that STAT3 plays a direct proarrhythmogenic role in cardiomyocytes. P values in AC and F were from 1-way ANOVA followed by Tukey’s test for multiple correction at α = 0.05. P values in E and H were from χ2 tests. P value in I was from 2-sample 2-tailed t test. CaMKIIδ, calcium/calmodulin-dependent protein kinase II δ; cKO, conditional knockout; Inj, injection; PES, programmed electrical stimulation; pRyR2, phospho-RyR2-S2814; pSTAT3, phospho-Tyr705-STAT3; RyR2, ryanodine receptor 2; Sh, sham; SR, sinus rhythm; Thor, thoracotomy; TNT, troponin T; TSR, thoracotomy sinus rhythm; tSTAT3, total STAT3; TTI, TTI-101; TAF, thoracotomy atrial fibrillation; T2A, Thosea asigna virus 2A peptide.