The endothelial angiotensin II type 1 receptor/Akt1 axis mediates vascular remodeling during hypertension

Angiotensin II (ANGII)‐induced endothelial dysfunction is recognized to be an important mediator of hypertension‐induced vascular remodeling. However, the mechanisms by which ANGII‐induced endothelial dysfunction contributes to this process are not fully understood. We addressed the role of angiotensin receptor type 1 (AT1R)/Akt1 signaling in endothelial cells in the genesis of vascular remodeling during ANGII‐induced hypertension. We employed two mice models, one lacking both isoforms of AT1 receptors on endothelial cells (AT1aR EC−/− xAT1bR −/− ) and a second model lacking endothelial Akt1 (Akt1 Tie2−/− ). Mice were infused with 1.5 mg/kg/day ANGII using osmotic minipumps. Systolic blood pressure (SBP) was measured using the tail‐cuff method. After 4 weeks, vascular remodeling was assessed using histology and endothelial function was measured using Mulvany myography. Matrix metalloproteinase 2 (MMP2) activity was determined with gelatin zymography and inflammatory cell count in vascular tissue by flow cytometry. After 4 weeks of ANGII infusion, AT1aR EC−/− xAT1bR −/− mice had ~12 mmHg lower SBP compared to WT mice. The mice were protected from vascular remodeling and showed less aortic hypertrophy (P<0.01) and fibrosis (P<0.01). AT1aR EC−/− xAT1bR −/− mice had more elastin (P<0.05) content and less MMP2 activity (P<0.01) in aorta. Endothelium‐dependent relaxation was ~35 % greater in AT1aR EC−/− xAT1bR −/− compared to WTs. Inflammatory cell count (CD45+, TCR‐β+, CD4+ and CD8+ cells) was lower in aorta of AT1aR EC−/− xAT1bR −/− mice (P<0.01) compared to WT mice. While AT1aR EC−/− xAT1bR −/− mice were protected from vascular remodeling, mice lacking only one isoform of AT1R ‐ AT1aR wt/wt xAT1bR −/− or AT1aR EC−/− xAT1bR wt/wt mice were not protected and did not differ from WT mice. Akt1 Tie2−/− mice showed a similar protective vascular phenotype as AT1aR EC−/− xAT1bR −/− mice. Experiments with cultured cells confirmed the importance of the AT1R/Akt1 axis in vascular remodeling. MMP2 activity was significantly (P<0.01) lower in ANGII‐stimulated human aortic smooth muscle cells co‐cultured with endothelial cells where Akt1 was silenced compared to control. Supplementation of endothelin‐1 (ET1) reversed this effect and led to activation of MMP2. Inhibition of ETa, but not ETb receptor, on smooth muscle cells blocked the activation of MMP2 in these cells. Experiments on isolated human aorta showed that ANGII‐stimulated aortas without endothelium had less (P<0.01) MMP2 activity compared to aortas with endothelium. Addition of ET1 reversed this effect, whereas inhibition of ETa, but not ETb, receptor blocked the activation of MMP2. We demonstrate that the endothelial AT1R/Akt1 axis mediates ANGII‐induced endothelial dysfunction, which causes ET1/ETa receptor dependent activation of MMP2. This axis appears to be the mechanistic link for enhanced vascular inflammation and consequent remodeling. Our findings advance the understanding of ANGII‐induced endothelial dysfunction and its contribution to vascular remodeling. Support or Funding Information Research training grant of German Academic Exchange Service (N.: 91531223‐57048249).