OBJECTIVE: Reduced fibrinolytic activity is associated with adverse cardiovascular events. Although insulin-regulated aminopeptidase (IRAP) was recently identified as the angiotensin (Ang) IV receptor (AT4R), the impact of AngIV-AT4R signaling distal to AngII on the activation of type-1 plasminogen activator inhibitor (PAI-1) in the fibrinolytic process and subsequent formation of thrombosis remains unclarified. METHODS AND RESULTS: To determine whether AngIV would inhibit fibrinolysis via PAI-1 activation and promote thrombosis, we evaluated the degree of fibrinolysis in thrombosis models and investigated the roles of AT4R after vascular injury using IRAP knockout mice (IRAP(-/-)). In endothelial cells from control mice (WT; C57Bl6/J), both AngII and AngIV treatments increased PAI-1 mRNA expression in a dose-dependent manner, whereas the response was blunted in endothelial cells from IRAP(-/-) mice. FeCl(3)-induced thrombosis was suppressed in the carotid arteries of IRAP(-/-) mice when compared with WT mice. Similarly, in a model of carotid artery ligation and cuff placement, IRAP(-/-) mice demonstrated accelerated fibrinolysis 7 days after surgery and reduced occlusive thrombosis with negative remodeling at 28 days. CONCLUSIONS: AngIV-AT4R signaling has a key role in fibrinolysis and the subsequent formation of arterial thrombosis after vascular injury. AT4R may be a novel therapeutic target against cardiovascular disease.
OBJECTIVE: Reduced fibrinolytic activity is associated with adverse cardiovascular events. Although insulin-regulated aminopeptidase (IRAP) was recently identified as the angiotensin (Ang) IV receptor (AT4R), the impact of AngIV-AT4R signaling distal to AngII on the activation of type-1 plasminogen activator inhibitor (PAI-1) in the fibrinolytic process and subsequent formation of thrombosis remains unclarified. METHODS AND RESULTS: To determine whether AngIV would inhibit fibrinolysis via PAI-1 activation and promote thrombosis, we evaluated the degree of fibrinolysis in thrombosis models and investigated the roles of AT4R after vascular injury using IRAP knockout mice (IRAP(-/-)). In endothelial cells from control mice (WT; C57Bl6/J), both AngII and AngIV treatments increased PAI-1 mRNA expression in a dose-dependent manner, whereas the response was blunted in endothelial cells from IRAP(-/-) mice. FeCl(3)-induced thrombosis was suppressed in the carotid arteries of IRAP(-/-) mice when compared with WT mice. Similarly, in a model of carotid artery ligation and cuff placement, IRAP(-/-) mice demonstrated accelerated fibrinolysis 7 days after surgery and reduced occlusive thrombosis with negative remodeling at 28 days. CONCLUSIONS: AngIV-AT4R signaling has a key role in fibrinolysis and the subsequent formation of arterial thrombosis after vascular injury. AT4R may be a novel therapeutic target against cardiovascular disease.
Authors: Elena Y Senchenkova; Janice Russell; Lidiana D Almeida-Paula; Joseph W Harding; D Neil Granger Journal: Hypertension Date: 2010-10-25 Impact factor: 10.190
Authors: Elena Y Senchenkova; Janice Russell; Elvira Kurmaeva; Dmitry Ostanin; D Neil Granger Journal: Hypertension Date: 2011-09-12 Impact factor: 10.190
Authors: Hyung Wook Kim; Young Ok Kim; Sun Ae Yoon; Jeong-Sun Han; Hyun-Bae Chun; Young Soo Kim Journal: Korean J Intern Med Date: 2015-12-28 Impact factor: 2.884