Cadherin-11 blockade reduces inflammation-driven fibrotic remodeling and improves outcomes after myocardial infarction
Alison K. Schroer, Matthew R. Bersi, Cynthia R. Clark, Qinkun Zhang, Lehanna H. Sanders, Antonis K. Hatzopoulos, Thomas L. Force, Susan M. Majka, Hind Lal, W. David Merryman
Alison K. Schroer, Matthew R. Bersi, Cynthia R. Clark, Qinkun Zhang, Lehanna H. Sanders, Antonis K. Hatzopoulos, Thomas L. Force, Susan M. Majka, Hind Lal, W. David Merryman
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Research Article Cardiology

Cadherin-11 blockade reduces inflammation-driven fibrotic remodeling and improves outcomes after myocardial infarction

Abstract

Over one million Americans experience myocardial infarction (MI) annually, and the resulting scar and subsequent cardiac fibrosis gives rise to heart failure. A specialized cell-cell adhesion protein, cadherin-11 (CDH11), contributes to inflammation and fibrosis in rheumatoid arthritis, pulmonary fibrosis, and aortic valve calcification but has not been studied in myocardium after MI. MI was induced by ligation of the left anterior descending artery in mice with either heterozygous or homozygous knockout of CDH11, wild-type mice receiving bone marrow transplants from Cdh11-deficient animals, and wild-type mice treated with a functional blocking antibody against CDH11 (SYN0012). Flow cytometry revealed significant CDH11 expression in noncardiomyocyte cells after MI. Animals given SYN0012 had improved cardiac function, as measured by echocardiogram, reduced tissue remodeling, and altered transcription of inflammatory and proangiogenic genes. Targeting CDH11 reduced bone marrow–derived myeloid cells and increased proangiogenic cells in the heart 3 days after MI. Cardiac fibroblast and macrophage interactions increased IL-6 secretion in vitro. Our findings suggest that CDH11-expressing cells contribute to inflammation-driven fibrotic remodeling after MI and that targeting CDH11 with a blocking antibody improves outcomes by altering recruitment of bone marrow–derived cells, limiting the macrophage-induced expression of IL-6 by fibroblasts and promoting vascularization.

Authors

Alison K. Schroer, Matthew R. Bersi, Cynthia R. Clark, Qinkun Zhang, Lehanna H. Sanders, Antonis K. Hatzopoulos, Thomas L. Force, Susan M. Majka, Hind Lal, W. David Merryman

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Figure 1

Specific cell populations in the heart express CDH11 after MI.

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Specific cell populations in the heart express CDH11 after MI. Non-CM po...
Non-CM populations, including cardiac endothelial cells (CECs), cardiac mesenchymal cells (CMCs), and bone marrow–derived cells (BMDCs), express a baseline amount of CDH11 (hatched wedges) that is increased after MI. Pie chart radii (A) are scaled by either the number of live single cells (top) or the number of CDH11+ cells (bottom) relative to sham hearts at day 3. Representative dot plots (B) show changes in CDH11 expression (magenta) within each population (colored gates). CDH11+ cells (C) within each population are shown as either a percentage of live cells (top) or of all CDH11+ cells (bottom). CDH11 expression in BMDC (CD45+) subpopulations (D) revealed predominant expression in neutrophils and M1- and M2-like macrophages (light blue, dark green, and light green, respectively). Representative dot plots (E) show changes in CDH11 expression (magenta) within each subpopulation (colored gates). CDH11+ cells (F) within each subpopulation are shown as either a percentage of all BMDCs (top) or all CDH11+ BMDCs (bottom). Percentages of each population, relative to all live cell events, are denoted within colored gates. Data are presented as mean ± SEM, with n = 3–6 per group; dots in C and F denote individual animals. Pie charts represent average values. Significance was determined by 2-way ANOVA with a Holms-Sidak’s multiple comparison test. *P < 0.05 between sham and MI at the same time, ^P < 0.05 over time; color of significance marker denotes group.