ACE2 Antagonizes VEGFa to Reduce Vascular Permeability During Acute Lung Injury

Abstract

Background/Aims: Angiotensin converting enzyme 2 (ACE2) treatment suppresses the severity of acute lung injury (ALI), through antagonizing hydrolyzing angiotensin II (AngII) and the ALI-induced apoptosis of pulmonary endothelial cells. Nevertheless, the effects of ACE2 on vessel permeability and its relationship with vascular endothelial growth factor a (VEGFa) remain ill-defined. In the current study, we examined the relationship between ACE2 and VEGFa in ALI model in mice. Methods: Here, we used a previously published bleomycin method to induce ALI in mice, and treated the mice with ACE2. We analyzed the levels of VEGFa in these mice. The mouse lung vessel permeability was determined by a fluorescence pharmacokinetic assay following i.v. injection of 62.5µg/kg Visudyne. VEGFa pump or SU5416 pump was given to increase or decrease VEGFa effects, respectively. The long-term effects on lung function were determined by measurement of lung resistance using methacholine. Results: ACE2 treatment did not alter VEGFa levels in lung, but antagonized the effects of VEGFa on increases of lung vessel permeability. Ectogenic VEGFa abolished the antagonizing effects of ACE2 on the vessel permeability against VEGFa. On the other hand, suppression of VEGF signaling mimicked the effects of ACE2 on the vessel permeability against VEGFa. The suppression of vessel permeability resulted in improvement of lung function after ALI. Conclusion: ACE2 may antagonize the VEGFa-mediated increases in lung vessel permeability during ALI, resulting in improvement of lung function after ALI.