IL-13 promotes functional recovery after myocardial infarction via direct signaling to macrophages
Santiago Alvarez-Argote, Samantha J. Paddock, Michael A. Flinn, Caelan W. Moreno, Makenna C. Knas, Victor A. Almeida, Sydney L. Buday, Amirala Bakhshian Nik, Michaela Patterson, Yi-Guang Chen, Chien-Wei Lin, Caitlin C. O’Meara
Santiago Alvarez-Argote, Samantha J. Paddock, Michael A. Flinn, Caelan W. Moreno, Makenna C. Knas, Victor A. Almeida, Sydney L. Buday, Amirala Bakhshian Nik, Michaela Patterson, Yi-Guang Chen, Chien-Wei Lin, Caitlin C. O’Meara
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Research Article Cardiology

IL-13 promotes functional recovery after myocardial infarction via direct signaling to macrophages

Abstract

There is great interest in identifying signaling pathways that promote cardiac repair after myocardial infarction (MI). Prior studies suggest a beneficial role for IL-13 signaling in neonatal heart regeneration; however, the cell types mediating cardiac regeneration and the extent of IL-13 signaling in the adult heart after injury are unknown. We identified an abundant source of IL-13 and the related cytokine, IL-4, in neonatal cardiac type 2 innate lymphoid cells, but this phenomenon declined precipitously in adult hearts. Moreover, IL-13 receptor deletion in macrophages impaired cardiac function and resulted in larger scars early after neonatal MI. By using a combination of recombinant IL-13 administration and cell-specific IL-13 receptor genetic deletion models, we found that IL-13 signaling specifically to macrophages mediated cardiac functional recovery after MI in adult mice. Single transcriptomics revealed a subpopulation of cardiac macrophages in response to IL-13 administration. These IL-13–induced macrophages were highly efferocytotic and were identified by high IL-1R2 expression. Collectively, we elucidated a strongly proreparative role for IL-13 signaling directly to macrophages following cardiac injury. While this pathway is active in proregenerative neonatal stages, reactivation of macrophage IL-13 signaling is required to promote cardiac functional recovery in adults.

Authors

Santiago Alvarez-Argote, Samantha J. Paddock, Michael A. Flinn, Caelan W. Moreno, Makenna C. Knas, Victor A. Almeida, Sydney L. Buday, Amirala Bakhshian Nik, Michaela Patterson, Yi-Guang Chen, Chien-Wei Lin, Caitlin C. O’Meara

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Figure 2

IL-4 and IL-13 expression is enriched in neonatal ILC2s.

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IL-4 and IL-13 expression is enriched in neonatal ILC2s. (A) Schematic o...
(A) Schematic of IL-4GFPKI and IL-13YFPKI transgenic mouse line alleles. (B) Quantification of GFP+ cells in P5 versus adult mice in uninjured and at 4 dpi after MI. GFP+ cells in IL-4GFPKI/WT mice were normalized to WT age-matched littermates. (C) Quantifications of YFP+ cells in P5 versus adult mice in uninjured and at 4 dpi. YFP+ cells in IL-13YFPKI/WT mice were normalized to WT age-matched littermates. (D and E) Representative contour plots of CD127 versus IL-1RL1 in cardiac non–B/T lymphoid cells in neonatal (D) and adult (E) mouse hearts. (F) Quantification of ILC2 frequency in P5 versus adult mouse hearts either uninjured or at 4 dpi. Data are shown as mean ± SD. Each data point represents 1 mouse. **P < 0.01, ****P < 0.0001. Age effect by 2-way ANOVA and Sidak’s post hoc test for uninjured and after MI conditions in B and C. Interaction effect of age and condition by 2-way ANOVA and Sidak’s post hoc test in F.