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RESEARCH PRODUCT

Role of antiangiogenic VEGF-A165b in angiogenesis and systolic function after reperfused myocardial infarction

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Abstract Introduction and objectives Angiogenesis helps to reestablish microcirculation after myocardial infarction (MI). In this study, we aimed to further understand the role of the antiangiogenic isoform vascular endothelial growth factor (VEGF)-A165b after MI and to explore its potential as a coadjuvant therapy to coronary reperfusion. Methods Two mice MI models were formed: a) permanent coronary ligation (nonreperfused MI); b) transient 45-minute coronary occlusion followed by reperfusion (reperfused MI); in both models, animals underwent echocardiography before euthanasia at day 21 after MI induction. We determined serum and myocardial VEGF-A165b levels. In both experimental MI models, we assessed the functional and structural role of VEGF-A165b blockade. In a cohort of 104 ST-segment elevation MI patients, circulating VEGF-A165b levels were correlated with cardiovascular magnetic resonance-derived left ventricular ejection fraction at 6 months and with the occurrence of adverse events (death, heart failure, and/or reinfarction). Results In both models, circulating and myocardial VEGF-A165b levels were increased 21 days after MI induction. Serum VEGF-A165b levels inversely correlated with systolic function evaluated by echocardiography. VEGF-A165b blockade increased capillary density, reduced infarct size, and enhanced left ventricular function in reperfused, but not in nonreperfused, MI experiments. In patients, higher VEGF-A165b levels correlated with depressed ejection fraction and worse outcomes. Conclusions In experimental and clinical studies, higher serum VEGF-A165b levels are associated with worse systolic function. Their blockade enhances neoangiogenesis, reduces infarct size, and increases ejection fraction in reperfused, but not in nonreperfused, MI experiments. Therefore, VEGF-A165b neutralization represents a potential coadjuvant therapy to coronary reperfusion.