OBJECTIVE: Mast cells (MCs) are inflammatory cells present in atherosclerotic lesions and neovascularized tissues. Recently, MCs were shown to modulate abdominal aortic aneurysm (AAA) formation in a mouse model. Progression of aneurysmatic disease process may also depend on intraluminal thrombus and neovascularization of the aneurysm wall. Here we investigated the relationship between MCs and inflammation, neovascularization, and the presence of intraluminal thrombus in human AAA. METHODS AND RESULTS: Specimens from AAAs and normal control aortas were analyzed with basic histology, immunohistochemical staining, and quantitative real-time polymerase chain reaction (PCR). Double immunostainings with endothelial cell markers CD31/CD34 and MC tryptase showed that, in contrast to histologically normal aorta, MCs in AAA were abundant in the media, but absent from the intima. Medial MCs and (CD31/CD34)(+) neovessels increased significantly in AAA compared with normal aorta (P < .0001 for both), and the highest densities of neovessels and MCs were observed in the media of thrombus-covered AAA samples. Also, the proportional thickness of aortic wall penetrated by the neovessels was significantly higher in the AAA samples (P < .0001), and the neovascularized area correlated with the density of medial MCs (P < .0001). In histologic analysis, the medial MCs were mainly located adjacent to the stem cell factor (SCF)(+) medial neovessels. Real-time PCR analysis also showed that mRNA levels of genes associated with neovascularization (vascular endothelial growth factor [VEGF], FLT1, VE-cadherin, CD31), and MCs (tryptase, chymase, cathepsin G) were higher in AAA samples than in controls. Demonstration of adhered platelets by CD42b staining and lack of endothelial cell (CD31/CD34) staining in the luminal surface of AAA specimens suggest endothelial erosion of the aneurysm walls. CONCLUSIONS: The results support participation of MCs in the pathogenesis of AAA, particularly regarding neovascularization of aortic wall.
OBJECTIVE: Mast cells (MCs) are inflammatory cells present in atherosclerotic lesions and neovascularized tissues. Recently, MCs were shown to modulate abdominal aortic aneurysm (AAA) formation in a mouse model. Progression of aneurysmatic disease process may also depend on intraluminal thrombus and neovascularization of the aneurysm wall. Here we investigated the relationship between MCs and inflammation, neovascularization, and the presence of intraluminal thrombus in human AAA. METHODS AND RESULTS: Specimens from AAAs and normal control aortas were analyzed with basic histology, immunohistochemical staining, and quantitative real-time polymerase chain reaction (PCR). Double immunostainings with endothelial cell markers CD31/CD34 and MC tryptase showed that, in contrast to histologically normal aorta, MCs in AAA were abundant in the media, but absent from the intima. Medial MCs and (CD31/CD34)(+) neovessels increased significantly in AAA compared with normal aorta (P < .0001 for both), and the highest densities of neovessels and MCs were observed in the media of thrombus-covered AAA samples. Also, the proportional thickness of aortic wall penetrated by the neovessels was significantly higher in the AAA samples (P < .0001), and the neovascularized area correlated with the density of medial MCs (P < .0001). In histologic analysis, the medial MCs were mainly located adjacent to the stem cell factor (SCF)(+) medial neovessels. Real-time PCR analysis also showed that mRNA levels of genes associated with neovascularization (vascular endothelial growth factor [VEGF], FLT1, VE-cadherin, CD31), and MCs (tryptase, chymase, cathepsin G) were higher in AAA samples than in controls. Demonstration of adhered platelets by CD42b staining and lack of endothelial cell (CD31/CD34) staining in the luminal surface of AAA specimens suggest endothelial erosion of the aneurysm walls. CONCLUSIONS: The results support participation of MCs in the pathogenesis of AAA, particularly regarding neovascularization of aortic wall.
Authors: Mark W Majesky; Xiu Rong Dong; Virginia Hoglund; Gunter Daum; William M Mahoney Journal: Cells Tissues Organs Date: 2011-10-14 Impact factor: 2.481
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