Apelin modulates pathological remodeling of lymphatic endothelium after myocardial infarction
Florence Tatin, Edith Renaud-Gabardos, Anne-Claire Godet, Fransky Hantelys, Francoise Pujol, Florent Morfoisse, Denis Calise, Fanny Viars, Philippe Valet, Bernard Masri, Anne-Catherine Prats, Barbara Garmy-Susini
Florence Tatin, Edith Renaud-Gabardos, Anne-Claire Godet, Fransky Hantelys, Francoise Pujol, Florent Morfoisse, Denis Calise, Fanny Viars, Philippe Valet, Bernard Masri, Anne-Catherine Prats, Barbara Garmy-Susini
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Research Article Vascular biology

Apelin modulates pathological remodeling of lymphatic endothelium after myocardial infarction

Abstract

Lymphatic endothelium serves as a barrier to control fluid balance and immune cell trafficking to maintain tissue homeostasis. Long-term alteration of lymphatic vasculature promotes edema and fibrosis, which is an aggravating factor in the onset of cardiovascular diseases such as myocardial infarction. Apelin is a bioactive peptide that plays a central role in angiogenesis and cardiac contractility. Despite an established role of apelin in lymphangiogenesis, little is known about its function in the cardiac lymphatic endothelium. Here, we show that apelin and its receptor APJ were exclusively expressed on newly formed lymphatic vasculature in a pathological model of myocardial infarction. Using an apelin-knockout mouse model, we identified morphological and functional defects in lymphatic vasculature associated with a proinflammatory status. Surprisingly, apelin deficiency increased the expression of lymphangiogenic growth factors VEGF-C and VEGF-D and exacerbated lymphangiogenesis after myocardial infarction. Conversely, the overexpression of apelin in ischemic heart was sufficient to restore a functional lymphatic vasculature and to reduce matrix remodeling and inflammation. In vitro, the expression of apelin prevented the alteration of cellular junctions in lymphatic endothelial cells induced by hypoxia. In addition, we demonstrated that apelin controls the secretion of the lipid mediator sphingosine-1-phosphate in lymphatic endothelial cells by regulating the level of expression of sphingosine kinase 2 and the transporter SPNS2. Taken together, our results show that apelin plays a key role in lymphatic vessel maturation and stability in pathological settings. Thus, apelin may represent a novel candidate to prevent pathological lymphatic remodeling in diseases.

Authors

Florence Tatin, Edith Renaud-Gabardos, Anne-Claire Godet, Fransky Hantelys, Francoise Pujol, Florent Morfoisse, Denis Calise, Fanny Viars, Philippe Valet, Bernard Masri, Anne-Catherine Prats, Barbara Garmy-Susini

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Figure 5

Apelin-KO mice exhibit strong inflammatory and prolymphangiogenic responses after myocardial infarction.

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Apelin-KO mice exhibit strong inflammatory and prolymphangiogenic respon...
(A) Lymphatic remodeling in WT mice 4 days after myocardial infarction (MI) examined by LYVE-1 and CD31 immunostaining. Note the presence of highly dilated and hyperplastic lymphatic vessels in the peri-infarcted and infarcted zone. (B) Visualization of lymphatic vessels (LYVE-1+) and macrophages (CD68+) in the infarct border zone 4 days after MI in apelin-KO versus control mice. Higher magnification is shown in the upper boxes. For scale, the dimensions of the higher-magnification boxes are 60 × 60 μm. (C) Expression of inflammatory cytokines IL-6 and Tnfα 2 days after MI (n = 4 per group; horizontal bars represent the mean ± SD). *P < 0.0002. (D) Expression of the chemokine Ccl21 and prolymphangiogenic factors Vegf-C and Vegf-D in apelin-KO mice 2 days after MI in apelin-KO mice versus control mice (n = 4 per group; horizontal bars represent the mean ± SD). *P < 0.0003, **P < 0.002. (E) Tile scan analysis by confocal microscopy of whole heart showing LYVE-1–positive lymphatic vessels. Dotted lines delimit the heart and the left ventricle (LV). Lymphangiogenesis is further amplified in apelin-deficient mice 6 weeks after MI compared with control. Arrows show the localization of lymphatic vessels in the right ventricle. Statistical analysis was done with 1-way ANOVA with Bonferroni post-hoc test. Scale bars: 100 μm (A and B) and 500 μm (E). APL, apelin.