The cardiac lymphatic system stimulates resolution of inflammation following myocardial infarction
Joaquim Miguel Vieira, … , David G. Jackson, Paul R. Riley
Joaquim Miguel Vieira, … , David G. Jackson, Paul R. Riley
Published July 9, 2018
Citation Information: J Clin Invest. 2018;128(8):3402-3412. https://doi.org/10.1172/JCI97192.
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Research Article Inflammation Vascular biology

The cardiac lymphatic system stimulates resolution of inflammation following myocardial infarction

Abstract

Myocardial infarction (MI) arising from obstruction of the coronary circulation engenders massive cardiomyocyte loss and replacement by non-contractile scar tissue, leading to pathological remodeling, dysfunction, and ultimately heart failure. This is presently a global health problem for which there is no effective cure. Following MI, the innate immune system directs the phagocytosis of dead cell debris in an effort to stimulate cell repopulation and tissue renewal. In the mammalian adult heart, however, the persistent influx of immune cells, coupled with the lack of an inherent regenerative capacity, results in cardiac fibrosis. Here, we reveal that stimulation of cardiac lymphangiogenesis with VEGF-C improves clearance of the acute inflammatory response after MI by trafficking immune cells to draining mediastinal lymph nodes (MLNs) in a process dependent on lymphatic vessel endothelial hyaluronan receptor 1 (LYVE-1). Deletion of Lyve1 in mice, preventing docking and transit of leukocytes through the lymphatic endothelium, results in exacerbation of chronic inflammation and long-term deterioration of cardiac function. Our findings support targeting of the lymphatic/immune cell axis as a therapeutic paradigm to promote immune modulation and heart repair.

Authors

Joaquim Miguel Vieira, Sophie Norman, Cristina Villa del Campo, Thomas J. Cahill, Damien N. Barnette, Mala Gunadasa-Rohling, Louise A. Johnson, David R. Greaves, Carolyn A. Carr, David G. Jackson, Paul R. Riley

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Figure 2

VEGF-C–driven cardiac lymphangiogenesis increases clearance of immune cells after injury.

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VEGF-C–driven cardiac lymphangiogenesis increases clearance of immune ce...
(AF) CD68 (green) and LYVE-1 (red) immunostaining of tissue sections derived from adult intact hearts (A and B) from hearts day 4 (C and D) and day 7 (E and F) after MI, documenting close association of macrophages to lymphatic vessels (white arrowheads). (B) Magnified view of box shown in A. (D) Magnified view of box shown in C. (F) Magnified view of box shown in E. DAPI (blue) labels cell nuclei. Asterisk in E denotes fibrotic scarring. (GK) Characterization of immune cell content in vehicle- and VEGF-C–treated hearts collected on day 7 after MI and analyzed by flow cytometry using antibodies against CD45 (pan-leukocyte marker), CD11b (CD45+CD11b+, myeloid cells), Ly6G (CD45+CD11b+Ly6G+, neutrophils), F4/80 (CD45+CD11b+Ly6GF4/80+, macrophages), and CD11c (CD45+CD11b+Ly6GF4/80CD11c+, dendritic cells). Animals received i.p. injections of vehicle (PBS) or recombinant VEGF-C(C156S) on days 0, 2, 4, and 6 after MI. Data are presented as mean ± SEM; vehicle, n = 5 hearts; VEGF-C, n = 6 hearts. Significant differences were calculated using an unpaired, 2-tailed Student’s t test (*P ≤ 0.05). (LO) CD68 (green) and TUNEL (red) immunostaining of tissue sections derived from vehicle- (L and M) and recombinant VEGF–C(C156S)–treated (N and O) hearts on day 7 after MI. (M) Magnified view of box shown in L. (O) Magnified view of box shown in N. Asterisks in L and N indicate fibrotic scarring; DAPI (blue) labels cell nuclei. White arrowheads mark rare macrophage cells undergoing apoptosis (CD68+TUNEL+). Scale bars: A, C, E, L, and N, 100 μm; B, D, F, M, and O, 20 μm.