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Cardiac myosin-Th17 responses promote heart failure in human myocarditis
Jennifer M. Myers, Leslie T. Cooper, David C. Kem, Stavros Stavrakis, Stanley D. Kosanke, Ethan M. Shevach, DeLisa Fairweather, Julie A. Stoner, Carol J. Cox, Madeleine W. Cunningham
Jennifer M. Myers, Leslie T. Cooper, David C. Kem, Stavros Stavrakis, Stanley D. Kosanke, Ethan M. Shevach, DeLisa Fairweather, Julie A. Stoner, Carol J. Cox, Madeleine W. Cunningham
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Research Article Immunology

Cardiac myosin-Th17 responses promote heart failure in human myocarditis

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Abstract

In human myocarditis and its sequela dilated cardiomyopathy (DCM), the mechanisms and immune phenotype governing disease and subsequent heart failure are not known. Here, we identified a Th17 cell immunophenotype of human myocarditis/DCM with elevated CD4+IL17+ T cells and Th17-promoting cytokines IL-6, TGF-β, and IL-23 as well as GM-CSF–secreting CD4+ T cells. The Th17 phenotype was linked with the effects of cardiac myosin on CD14+ monocytes, TLR2, and heart failure. Persistent heart failure was associated with high percentages of IL-17–producing T cells and IL-17–promoting cytokines, and the myocarditis/DCM phenotype included significantly low percentages of FOXP3+ Tregs, which may contribute to disease severity. We demonstrate a potentially novel mechanism in human myocarditis/DCM in which TLR2 peptide ligands from human cardiac myosin stimulated exaggerated Th17-related cytokines including TGF-β, IL-6, and IL-23 from myocarditic CD14+ monocytes in vitro, and an anti-TLR2 antibody abrogated the cytokine response. Our translational study explains how an immune phenotype may be initiated by cardiac myosin TLR ligand stimulation of monocytes to generate Th17-promoting cytokines and development of pathogenic Th17 cells in human myocarditis and heart failure, and provides a rationale for targeting IL-17A as a therapeutic option.

Authors

Jennifer M. Myers, Leslie T. Cooper, David C. Kem, Stavros Stavrakis, Stanley D. Kosanke, Ethan M. Shevach, DeLisa Fairweather, Julie A. Stoner, Carol J. Cox, Madeleine W. Cunningham

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Figure 2

Th17 immunophenotype in human myocarditis and dilated cardiomyopathy (DCM) contributes to heart failure.

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Th17 immunophenotype in human myocarditis and dilated cardiomyopathy (DC...
Th17 percentages in peripheral blood mononuclear cells (PBMCs) were compared among myocarditis/DCM subjects with left heart failure (LHF) (n = 4), right heart failure (RHF) (n = 5), or no heart failure (No HF) (n = 7), as determined by clinical observations and compared to heart failure determined by New York Heart Association (NYHA) class. (A) Elevated Th17 cells were associated with heart failure. Mann-Whitney, P = 0.0061 (adjusted alpha level: 0.0167). (B) Th17 cells were significantly elevated in peripheral blood of NYHA class III and IV (n = 3) heart failure compared to class I and II (n = 10) heart failure in myocarditis/DCM. Mann-Whitney, P = 0.0223. (C) IL-17A was significantly elevated at 6 months in NYHA class III and IV (n = 9) heart failure compared to NYHA class I and II (n = 18) heart failure in myocarditis/DCM. Mann-Whitney, P = 0.0236 (adjusted alpha level: 0.0167). Healthy controls, n = 27. (D) IL-17A was significantly elevated at 12 months in NYHA class III and IV (n = 7) compared to NYHA class I and II (n = 16) heart failure in myocarditis/DCM. Mann-Whitney, P = 0.044 (adjusted alpha level: 0.0167). Healthy controls, n = 27. (E) IL17A+ myocarditis heart biopsies (n = 11) with representative IL-17A+ cells indicated with arrows. Of 11 different biopsies, 45% contained IL17A+ cells. As controls, alkaline phosphatase–conjugated secondary antibody and PBS-treated biopsies were negative. The total original magnification for magnified panels was ×200 (20× objective × 10× eyepiece). FACS analysis was performed on fresh PBMCs, which were analyzed immediately upon receiving the blood sample. Cytokine analysis was performed in triplicate to determine the serum cytokine concentration. Single-biopsy specimens were stained once with anti–IL-17A antibody, but compared to biopsy sections cut serially from the same piece of tissue. Controls for the biopsy tissues were taken from the serial sections of the same piece of tissue.

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