iRhom2-mediated proinflammatory signalling regulates heart repair following myocardial infarction
Damien N. Barnette, Thomas J. Cahill, Mala Gunadasa-Rohling, Carolyn A. Carr, Matthew Freeman, Paul R. Riley
Damien N. Barnette, Thomas J. Cahill, Mala Gunadasa-Rohling, Carolyn A. Carr, Matthew Freeman, Paul R. Riley
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Research Article Cardiology Immunology

iRhom2-mediated proinflammatory signalling regulates heart repair following myocardial infarction

Abstract

The role of proinflammation, and specifically TNF-α, on downstream fibrosis and healing after cardiac injury remains unknown. Using iRhom2-deficient mice, which lack myeloid-specific shedding of TNF-α, we reveal increased macrophages (MΦs) that were skewed towards a more proinflammatory (M1) state at day 4, followed by more reparative, antiinflammatory (M2) state at day 7 after myocardial infarction (MI). However, associated functional cytokine expression was significantly reduced in iRhom2-mutant M1 and M2 MΦs, respectively. A dampened proinflammatory signature in iRhom2-deficient mice during the acute phase of injury and subsequent changes in MΦ polarization were associated with reduced phagocytosis and a more sparse distribution within the scar region. This resulted in impaired collagen deposition and fibrosis, and increased left ventricular remodelling and mortality in iRhom2-deficient mice after MI. Our findings reveal a requirement for an iRhom2-mediated proinflammatory response during downstream scarring and fibrosis, which is driven in part by TNF-α signaling. These conclusions challenge the existing model that infarct repair is determined exclusively by antiinflammatory signaling of M2 MΦs, and as such we propose an alternative view of immunomodulation to maintain effective healing after infarction.

Authors

Damien N. Barnette, Thomas J. Cahill, Mala Gunadasa-Rohling, Carolyn A. Carr, Matthew Freeman, Paul R. Riley

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Figure 3

Collagen fiber deposition in the infarct region of iRhom2-deficient hearts at day 21 after myocardial infarction (MI).

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Collagen fiber deposition in the infarct region of iRhom2-deficient hear...
(A and B) Masson’s trichrome staining revealed wild-type hearts with strong collagen expression in the infarct region, with minimal viable myocardial tissue remaining 21 days after injury. However, iRhom2-deficient (iRhom2–/–) hearts had reduced collagen staining within the scar, with evidence of viable myocardium (arrows). Representative images are based on 3 biological replicates. (C and D) Immunohistochemistry showed a significant reduction in type I collagen expression in the scar of iRhom2–/– hearts compared with wild-type hearts, and (right panel) collagen expression was quantified. (E and F) Picrosirius red staining imaged using bright-field microscopy showed a less uniform distribution of collagen in iRhom2–/– hearts at 21 days after MI compared with controls. (G and H) Polarized-light microscopy revealed reduced mature type I collagen (red) in iRhom2–/– compared with control injured hearts, while no differences in immature type III collagen (green) were observed, (right panel), which was quantified. Scale bars: 1 mm and 100 μm (insets). Data are shown as the mean ± SEM, n = 3 per experimental group. *P ≤ 0.05, Student’s t test.