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http://hdl.handle.net/11375/26710
Title: | Investigating the Impact of Cigarette Smoke on Myeloid Cell Function and Kinetics During the Pathogenesis of Atherosclerosis and Aortic Aneurysm |
Other Titles: | MYELOID CELL FUNCTION AND KINETICS IN ARTERIAL DISEASE |
Authors: | Thayaparan, Dharneya |
Advisor: | Stampfli, Martin |
Department: | Medical Sciences (Molecular Virology and Immunology Program) |
Keywords: | Atherosclerosis;Aneurysm;Macrophage;Monocyte;Cigarette smoke;Immunology |
Publication Date: | 2021 |
Abstract: | Rationale. Cigarette smoking is a well-known risk factor for cardiovascular disease, including arterial diseases such as atherosclerosis and abdominal aortic aneurysm. However, our understanding of how exposure to cigarette smoke impacts arterial disease pathogenesis is not well known. Consequently, this doctoral thesis focuses on understanding the development of atherosclerosis and aortic aneurysm in the context of exposure to cigarette smoke. In particular, since monocytes and macrophage are key immune cells implicated in arterial pathology, this work concentrates on understanding the impact of cigarette smoke exposure on the function and kinetics of monocytes and arterial macrophages. Main Findings. Using a mouse model that combines two clinically relevant risk factors, hyperlipidemia and cigarette smoke, we showed that smoke exposure increases atherosclerosis and induces the spontaneous formation, progression, and rupture of abdominal aneurysms. We also provide experimental evidence that atherosclerosis strongly associates with regions of elastin damage and arterial dilation, suggesting atherogenesis may directly contribute to abdominal aneurysm formation. Given the importance of macrophages in arterial disease, we investigated arterial macrophage heterogeneity and function following exposure to cigarette smoke. We report that cigarette smoke exposure increased the abundance of arterial monocytes and macrophages, whereas heterogeneity was primarily driven by hypercholesterolemia in aneurysmal tissue. Specifically, hypercholesterolemia is associated with an increase in macrophage populations with putative functions in inflammation and tissue remodelling including Trem2 foamy macrophages, inflammatory macrophages, and interferon-inducible macrophages. Moreover, we demonstrated that arterial macrophages play a critical role in elastin fragmentation within the arterial wall of smoke exposed mice. Finally, we investigated the impact of cigarette smoke on kinetic factors that can contribute to arterial macrophage accumulation. We found that, despite increased development of arterial disease, exposure to cigarette smoke is associated with an overall suppression of circulating monocytes and pro-inflammatory cytokines. Using a parabiosis model, we show monocyte recruitment is significantly increased and is likely a key factor contributing to accumulation of arterial macrophages following exposure to cigarette smoke. We also present evidence suggesting that endothelial dysfunction, related to a loss of endothelial nitric oxide synthase, contributes to increased arterial monocyte recruitment following exposure to cigarette smoke. Conclusions and Significance. Overall, we provide evidence that atherosclerosis likely contributes to abdominal aneurysm pathology in a model of cigarette smoke-induced aneurysm formation. We further provide insight into how tobacco smoke promotes arterial disease development through increased local accumulation of arterial macrophages despite suppressed monopoiesis and systemic inflammation. We identify monocyte recruitment and endothelial dysfunction as key factors contributing to the increased accumulation of arterial macrophages, with no overall differences in macrophage heterogeneity, following smoke exposure. In addition to providing insight into the increased risk of arterial disease following exposure to cigarette smoke, this study also provides experimental evidence that atherogenesis can contribute to abdominal aneurysm pathology. Overall, this thesis furthers our understanding of arterial disease pathogenesis and can provide a foundation for further mechanistic or therapeutic focused research aimed at reducing the burden of cardiovascular disease. |
URI: | http://hdl.handle.net/11375/26710 |
Appears in Collections: | Open Access Dissertations and Theses |
Files in This Item:
File | Description | Size | Format | |
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Thayaparan_Dharneya_2021July_PhD.pdf | PhD thesis for Dharneya (Danya) Thayaparan, successfully defended June 29 2021 | 6.8 MB | Adobe PDF | View/Open |
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