Genetic blockade of lymphangiogenesis does not impair cardiac function after myocardial infarction
T.C. Stevenson Keller IV, … , Phyllis A. Gimotty, Mark L. Kahn
T.C. Stevenson Keller IV, … , Phyllis A. Gimotty, Mark L. Kahn
Published August 17, 2021
Citation Information: J Clin Invest. 2021;131(20):e147070. https://doi.org/10.1172/JCI147070.
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Research Article Cardiology Vascular biology

Genetic blockade of lymphangiogenesis does not impair cardiac function after myocardial infarction

Abstract

In recent decades, treatments for myocardial infarction (MI), such as stem and progenitor cell therapy, have attracted considerable scientific and clinical attention but failed to improve patient outcomes. These efforts indicate that more rigorous mechanistic and functional testing of potential MI therapies is required. Recent studies have suggested that augmenting post-MI lymphatic growth via VEGF-C administration improves cardiac function. However, the mechanisms underlying this proposed therapeutic approach remain vague and untested. To more rigorously test the role of lymphatic vessel growth after MI, we examined the post-MI cardiac function of mice in which lymphangiogenesis had been blocked genetically by pan-endothelial or lymphatic endothelial loss of the lymphangiogenic receptor VEGFR3 or global loss of the VEGF-C and VEGF-D ligands. The results obtained using all 3 genetic approaches were highly concordant and demonstrated that loss of lymphatic vessel growth did not impair left ventricular ejection fraction 2 weeks after MI in mice. We observed a trend toward excess fluid in the infarcted region of the left ventricle, but immune cell infiltration and clearance were unchanged with loss of expanded lymphatics. These studies refute the hypothesis that lymphangiogenesis contributes significantly to cardiac function after MI, and suggest that any effect of exogenous VEGF-C is likely to be mediated by nonlymphangiogenic mechanisms.

Authors

T.C. Stevenson Keller IV, Lillian Lim, Swapnil V. Shewale, Kendra McDaid, Íngrid Martí-Pàmies, Alan T. Tang, Carl Wittig, Andrea A. Guerrero, Stephanie Sterling, N. Adrian Leu, Marielle Scherrer-Crosbie, Phyllis A. Gimotty, Mark L. Kahn

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Figure 4

Aggregate findings demonstrate no correlation between lymphangiogenesis and cardiac performance after MI.

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Aggregate findings demonstrate no correlation between lymphangiogenesis ...
(A) The ejection fraction data for all control animals [2 Flt4fl/fl groups, and Vegfd–/–; Vegfcfl/fl animals, combined as Cre(–)] and animals genetically deficient in lymphangiogenesis [due to loss of pan-endothelial VEGFR3 (Flt4fl/fl; Cdh5-CreERT2), lymphatic endothelial VEGFR3 (Flt4fl/fl; Prox1-CreERT2), or the VEGFC and VEGFD ligands (Vegfd–/–; Vegfcfl/fl; R26-CreERT2), combined as Cre(+)] are shown. Unweighted combination of all ejection fraction experiments for the Cre(–) (n = 30) and Cre(+) (n = 38) groups is shown. (B) The relationship between ejection fraction and the number of lymphatic endothelial cells detected in the infarct zone after MI using data from all studies is shown by dot plot. The overall correlation trendline and R2 are shown. Cre(+) animals clustered to the left of the vertical dotted line, and Cre(–) animals clustered to the right. For A and B, littermates from Flt4fl/fl; Cdh5-CreERT2 experiments are denoted with a purple symbol (EC VEGFR3 cKO); littermates from Flt4fl/fl; Prox1-CreERT2 experiments are denoted with a white symbol (LEC VEGFR3 cKO); and littermates from Vegfd–/–; Vegfcfl/fl; R26-CreERT2 experiments are denoted with a green symbol (VEGF-C cKO; VEGF-D KO). Female animals in A and B are shown as triangles, males are circles. Bar graphs represent mean ± SEM. Statistical comparison in A was made with a 2-tailed t test, and the trendline in B is a linear regression.