Myocardial infarction triggers cardioprotective antigen-specific T helper cell responses
Max Rieckmann, … , Ulrich Hofmann, Gustavo Campos Ramos
Max Rieckmann, … , Ulrich Hofmann, Gustavo Campos Ramos
Published August 13, 2019
Citation Information: J Clin Invest. 2019;129(11):4922-4936. https://doi.org/10.1172/JCI123859.
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Research Article Cardiology Immunology

Myocardial infarction triggers cardioprotective antigen-specific T helper cell responses

Abstract

T cell autoreactivity is a hallmark of autoimmune diseases but can also benefit self-maintenance and foster tissue repair. Here, we investigated whether heart-specific T cells exert salutary or detrimental effects in the context of myocardial infarction (MI), the leading cause of death worldwide. After screening more than 150 class II–restricted epitopes, we found that myosin heavy chain α (MYHCA) was a dominant cardiac antigen triggering post-MI CD4+ T cell activation in Balb/c mice. Transferred MYHCA614–629-specific CD4+ T cells (TCR-M cells) selectively accumulated in the myocardium and mediastinal lymph nodes (med-LNs) of infarcted mice, acquired a Treg phenotype with a distinct prohealing gene expression profile, and mediated cardioprotection. Myocardial Tregs were also detected in autopsy samples from patients who had had a MI. Noninvasive PET/CT imaging using a CXCR4 radioligand revealed enlarged med-LNs with increased cellularity in patients with MI. Notably, the med-LN alterations observed in MI patients correlated with the infarct size and cardiac function. Taken together, the results obtained in our study provide evidence that MI context induces prohealing T cell autoimmunity in mice and confirm the existence of an analogous heart/med-LN/T cell axis in patients with MI.

Authors

Max Rieckmann, Murilo Delgobo, Chiara Gaal, Lotte Büchner, Philipp Steinau, Dan Reshef, Cristina Gil-Cruz, Ellis N. ter Horst, Malte Kircher, Theresa Reiter, Katrin G. Heinze, Hans W.M. Niessen, Paul A.J. Krijnen, Anja M. van der Laan, Jan J. Piek, Charlotte Koch, Hans-Jürgen Wester, Constantin Lapa, Wolfgang R. Bauer, Burkhard Ludewig, Nir Friedman, Stefan Frantz, Ulrich Hofmann, Gustavo Campos Ramos

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Figure 3

In vivo TCR-M conversion to FOXP3+ Tregs.

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In vivo TCR-M conversion to FOXP3+ Tregs. (A) Experimental design and ga...
(A) Experimental design and gating strategy. Before adoptive transfer, Thy1.1+ TCR-M cells were enriched for Tconv cells (CD25) and Tregs (CD25+) through magnetic cell sorting and labeled with distinct, subset-specific cell-tracer dyes (CFSE and VIO, respectively). Treg and Tconv TCR-M cell populations were mixed at a 1:20 ratio (resembling the physiological condition) and then transferred into Thy1.2 WT recipients 1 day before MI or sham operation. The flow cytometric plots depict the pre-transfer levels of FOXP3 in each compartment. (B) Analysis of Treg conversion from TCR-M cells in si-LNs, med-LNs, and heart tissues from mice 5 days after MI. Converted Tregs are defined as Thy1.1+CFSE+ cells that acquired FOXP3 expression after MI, as the CFSE+ cells were FOXP3 prior to cell transfer. (C and D) Proliferation of Tconv TCR-M cells (Thy1.1+CFSE+FOXP3) and Treg TCR-M cells (Thy1.1+VIO+FOXP3+) was assessed through the dilution of CFSE and VIO dyes, respectively. Histograms show the dilution of intracellular fluorescent tracers (CFSE or VIO), indicating the frequency of proliferating cells in each compartment analyzed. **P < 0.01, by 2-way ANOVA followed by Tukey’s multiple comparisons test (B); *P < 0.05 and P = 0.06, by 2-tailed, unpaired t test (C and D).