Mast cells modulate the pathogenesis of elastase-induced abdominal aortic aneurysms in mice
Jiusong Sun, Galina K. Sukhova, Min Yang, Paul J. Wolters, Lindsey A. MacFarlane, Peter Libby, Chongxiu Sun, Yadong Zhang, Jian Liu, Terri L. Ennis, Rebecca Knispel, Wanfen Xiong, Robert W. Thompson, B. Timothy Baxter, Guo-Ping Shi
Jiusong Sun, Galina K. Sukhova, Min Yang, Paul J. Wolters, Lindsey A. MacFarlane, Peter Libby, Chongxiu Sun, Yadong Zhang, Jian Liu, Terri L. Ennis, Rebecca Knispel, Wanfen Xiong, Robert W. Thompson, B. Timothy Baxter, Guo-Ping Shi
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Research Article Cardiology

Mast cells modulate the pathogenesis of elastase-induced abdominal aortic aneurysms in mice

Abstract

Abdominal aortic aneurysm (AAA), an inflammatory disease, involves leukocyte recruitment, immune responses, inflammatory cytokine production, vascular remodeling, neovascularization, and vascular cell apoptosis, all of which contribute to aortic dilatation. This study demonstrates that mast cells, key participants in human allergic immunity, participate in AAA pathogenesis in mice. Mast cells were found to accumulate in murine AAA lesions. Mast cell–deficient KitW-sh/KitW-sh mice failed to develop AAA elicited by elastase perfusion or periaortic chemical injury. KitW-sh/KitW-sh mice had reduced aortic expansion and internal elastic lamina degradation; decreased numbers of macrophages, CD3+ T lymphocytes, SMCs, apoptotic cells, and CD31+ microvessels; and decreased levels of aortic tissue IL-6 and IFN-γ. Activation of mast cells in WT mice via C48/80 injection resulted in enhanced AAA growth while mast cell stabilization with disodium cromoglycate diminished AAA formation. Mechanistic studies demonstrated that mast cells participated in angiogenesis, aortic SMC apoptosis, and matrix-degrading protease expression. Reconstitution of KitW-sh/KitW-sh mice with bone marrow–derived mast cells from WT or TNF-α–/– mice, but not from IL-6–/– or IFN-γ–/– mice, caused susceptibility to AAA formation to be regained. These results demonstrate that mast cells participate in AAA pathogenesis in mice by releasing proinflammatory cytokines IL-6 and IFN-γ, which may induce aortic SMC apoptosis, matrix-degrading protease expression, and vascular wall remodeling, important hallmarks of arterial aneurysms.

Authors

Jiusong Sun, Galina K. Sukhova, Min Yang, Paul J. Wolters, Lindsey A. MacFarlane, Peter Libby, Chongxiu Sun, Yadong Zhang, Jian Liu, Terri L. Ennis, Rebecca Knispel, Wanfen Xiong, Robert W. Thompson, B. Timothy Baxter, Guo-Ping Shi

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Figure 5

AAA lesion protease activities.

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AAA lesion protease activities. (A) [125I]JPM cysteine protease active s...
(A) [125I]JPM cysteine protease active site labeling and gelatin gel zymography to detect MMP activities in aortic tissue extracts from different groups of mice. Coomassie staining of SDS-PAGE showed equal protein loading. (B) Densitometric analysis of cathepsin activity changes relative to the density of [125I]JPM labeling in WT mice. (C) Densitometric analysis of MMP activity changes relative to the density of MMP activity in WT mice. Data are presented as mean ± SE of 4 independent experiments, and P < 0.05 was considered significant (Mann-Whitney test). *Compared with WT mice. (D) In situ elastin activity zymography. Normal aorta, saline-treated aorta, heat-inactivated elastase–treated aorta, and active elastase-treated aorta without DQ elastin substrate were used for experimental controls. The first panel (top left) and last panel (bottom right) show parallel sections. The percentage of fluorescence intensity is indicated in each panel. Images were obtained using the same magnification (×400) and shutter speed. All data are from the 14-day time point experiments.