Macrophage-produced VEGFC is induced by efferocytosis to ameliorate cardiac injury and inflammation
Kristofor E. Glinton, Wanshu Ma, Connor Lantz, Lubov S. Grigoryeva, Matthew DeBerge, Xiaolei Liu, Maria Febbraio, Mark Kahn, Guillermo Oliver, Edward B. Thorp
Kristofor E. Glinton, Wanshu Ma, Connor Lantz, Lubov S. Grigoryeva, Matthew DeBerge, Xiaolei Liu, Maria Febbraio, Mark Kahn, Guillermo Oliver, Edward B. Thorp
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Research Article Inflammation Vascular biology

Macrophage-produced VEGFC is induced by efferocytosis to ameliorate cardiac injury and inflammation

Abstract

Clearance of dying cells by efferocytosis is necessary for cardiac repair after myocardial infarction (MI). Recent reports have suggested a protective role for vascular endothelial growth factor C (VEGFC) during acute cardiac lymphangiogenesis after MI. Here, we report that defective efferocytosis by macrophages after experimental MI led to a reduction in cardiac lymphangiogenesis and Vegfc expression. Cell-intrinsic evidence for efferocytic induction of Vegfc was revealed after adding apoptotic cells to cultured primary macrophages, which subsequently triggered Vegfc transcription and VEGFC secretion. Similarly, cardiac macrophages elevated Vegfc expression levels after MI, and mice deficient for myeloid Vegfc exhibited impaired ventricular contractility, adverse tissue remodeling, and reduced lymphangiogenesis. These results were observed in mouse models of permanent coronary occlusion and clinically relevant ischemia and reperfusion. Interestingly, myeloid Vegfc deficiency also led to increases in acute infarct size, prior to the amplitude of the acute cardiac lymphangiogenesis response. RNA-Seq and cardiac flow cytometry revealed that myeloid Vegfc deficiency was also characterized by a defective inflammatory response, and macrophage-produced VEGFC was directly effective at suppressing proinflammatory macrophage activation. Taken together, our findings indicate that cardiac macrophages promote healing through the promotion of myocardial lymphangiogenesis and the suppression of inflammatory cytokines.

Authors

Kristofor E. Glinton, Wanshu Ma, Connor Lantz, Lubov S. Grigoryeva, Matthew DeBerge, Xiaolei Liu, Maria Febbraio, Mark Kahn, Guillermo Oliver, Edward B. Thorp

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Figure 5

Myeloid Vegfc deficiency leads to impaired cardiac function after MI.

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Myeloid Vegfc deficiency leads to impaired cardiac function after MI. (A...
(A) Vegfcfl/fl LysMCre mice along with littermate Vegfcfl/fl controls were subjected to permanent ligation of the LAD artery. Representative M-mode still frames used for analysis showed a significant reduction in ventricular wall thickness and contraction in Vegfc-deficient animals. Parasternal short-axis M-mode measurements were collected prior to surgery (day 0) and again on day 28 after the ligation procedure. Using EF measurements as an indicator of cardiac function, no inherent differences were observed prior to injury, however, after 28 days, the Vegfc-deficient animals showed a significant reduction in EF. n = 9 control Vegfcfl/fl controls; n = 7 Vegfcfl/fl LysMCre mice. ***P < 0.005, by 2-tailed, unpaired t test. (B) Additional indices measured by echocardiography show significantly worsened indicators of systolic function including ventricular wall thickness, internal diameter, and volume. *P < 0.05, **P < 0.01, and ***P < 0.005, by 2-tailed, unpaired t test. FS, fractional shortening, LV Vol, left ventricular volume; LVID, left ventricular internal diameter; LVAW, left ventricular anterior wall thickness; LVPW, left ventricular posterior wall thickness.