K-Raman Purushothaman scite author profile

Endothelial to mesenchymal transition (EndMT) plays a major role during development, and also contributes to several adult cardiovascular diseases. Importantly, mesenchymal cells including fibroblasts are prominent in atherosclerosis, with key functions including regulation of: inflammation, matrix and collagen production, and plaque structural integrity. However, little is known about the origins of atherosclerosis-associated fibroblasts. Here we show using endothelial-specific lineage-tracking that EndMT-derived fibroblast-like cells are common in atherosclerotic lesions, with EndMT-derived cells expressing a range of fibroblast-specific markers. In vitro modelling confirms that EndMT is driven by TGF-β signalling, oxidative stress and hypoxia; all hallmarks of atherosclerosis. ‘Transitioning' cells are readily detected in human plaques co-expressing endothelial and fibroblast/mesenchymal proteins, indicative of EndMT. The extent of EndMT correlates with an unstable plaque phenotype, which appears driven by altered collagen-MMP production in EndMT-derived cells. We conclude that EndMT contributes to atherosclerotic patho-biology and is associated with complex plaques that may be related to clinical events.

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Plaque Neovascularization Is Increased in Ruptured Atherosclerotic Lesions of Human Aorta

Moreno

et al. 2004

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Background-Growth of atherosclerotic plaques is accompanied by neovascularization from vasa vasorum microvessels extending through the tunica media into the base of the plaque and by lumen-derived microvessels through the fibrous cap. Microvessels are associated with plaque hemorrhage and may play a role in plaque rupture. Accordingly, we tested this hypothesis by investigating whether microvessels in the tunica media, the base of the plaque, and the fibrous cap are increased in ruptured atherosclerotic plaques in human aorta. Methods and Results-Microvessels, defined as CD34-positive tubuloluminal capillaries recognized in cross-sectional and longitudinal profiles, were quantified in 269 advanced human plaques by bicolor immunohistochemistry. Macrophages/T lymphocytes and smooth muscle cells were defined as CD68/CD3-positive and ␣-actin-positive cells. Total microvessel density was increased in ruptured plaques when compared with nonruptured plaques (Pϭ0.0001). Furthermore, microvessel density was increased in lesions with severe macrophage infiltration at the fibrous cap (Pϭ0.0001) and at the shoulders of the plaque (Pϭ0.0001). In addition, microvessel density was also increased in lesions with intraplaque hemorrhage (Pϭ0.04) and in thin-cap fibroatheromas (Pϭ0.038). Logistic regression analysis identified plaque base microvessel density (Pϭ0.003) as an independent correlate to plaque rupture. Conclusions-Thus, neovascularization as manifested by the localized appearance of microvessels is increased in ruptured plaques in the human aorta. Furthermore, microvessel density is increased in lesions with inflammation, with intraplaque hemorrhage, and in thin-cap fibroatheromas. Microvessels at the base of the plaque are independently correlated with plaque rupture, suggesting a contributory role for neovascularization in the process of plaque rupture. (Circulation.

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K-Raman Purushothaman

Endothelial to mesenchymal transition is common in atherosclerotic lesions and is associated with plaque instability

Plaque Neovascularization Is Increased in Ruptured Atherosclerotic Lesions of Human Aorta

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