BACKGROUND: Macrophages are present before the onset of blood flow, but very little is known about their function in vascular development. We have developed a technique to concurrently label both endothelial cells and macrophages for time-lapse microscopy using co-injection of fluorescently conjugated acetylated low-density lipoprotein (AcLDL) and phagocytic dye PKH26-PCL. RESULTS: We characterize double-labeled cells to confirm specific labeling of macrophages. Double-labeled cells circulate, roll along the endothelium, and extravasate from vessels. Most observed macrophages are integrated into the vessel wall, showing an endothelial-like morphology. We used transgenic quail that express a fluorescent protein driven by the endothelial-specific promoter Tie1 in conjugation with the phagocytic dye to analyze these cells. Circulating PKH26-PCL-labeled cells are mostly Tie1-, but those which have integrated into the vessel wall are largely Tie1+. The endothelial-like phagocytic cells were generally stationary during normal vascular development. We, therefore, induced vascular remodeling and found that these cells could be recruited to sites of remodeling. CONCLUSIONS: The active interaction of endothelial cells and macrophages support the hypothesis that these cells are involved in vascular remodeling. The presence of phagocytic endothelial-like cells suggests either a myeloid-origin to certain endothelial cells or that circulating endothelial cells/hematopoietic stem cells have phagocytic capacity.
BACKGROUND: Macrophages are present before the onset of blood flow, but very little is known about their function in vascular development. We have developed a technique to concurrently label both endothelial cells and macrophages for time-lapse microscopy using co-injection of fluorescently conjugated acetylated low-density lipoprotein (AcLDL) and phagocytic dye PKH26-PCL. RESULTS: We characterize double-labeled cells to confirm specific labeling of macrophages. Double-labeled cells circulate, roll along the endothelium, and extravasate from vessels. Most observed macrophages are integrated into the vessel wall, showing an endothelial-like morphology. We used transgenic quail that express a fluorescent protein driven by the endothelial-specific promoter Tie1 in conjugation with the phagocytic dye to analyze these cells. Circulating PKH26-PCL-labeled cells are mostly Tie1-, but those which have integrated into the vessel wall are largely Tie1+. The endothelial-like phagocytic cells were generally stationary during normal vascular development. We, therefore, induced vascular remodeling and found that these cells could be recruited to sites of remodeling. CONCLUSIONS: The active interaction of endothelial cells and macrophages support the hypothesis that these cells are involved in vascular remodeling. The presence of phagocytic endothelial-like cells suggests either a myeloid-origin to certain endothelial cells or that circulating endothelial cells/hematopoietic stem cells have phagocytic capacity.
Authors: Huanhuan He; Julia J Mack; Esra Güç; Carmen M Warren; Mario Leonardo Squadrito; Witold W Kilarski; Caroline Baer; Ryan D Freshman; Austin I McDonald; Safiyyah Ziyad; Melody A Swartz; Michele De Palma; M Luisa Iruela-Arispe Journal: Arterioscler Thromb Vasc Biol Date: 2016-09-15 Impact factor: 8.311
Authors: Adam Balic; Carla Garcia-Morales; Lonneke Vervelde; Hazel Gilhooley; Adrian Sherman; Valerie Garceau; Maria W Gutowska; David W Burt; Pete Kaiser; David A Hume; Helen M Sang Journal: Development Date: 2014-07-25 Impact factor: 6.868
Authors: Cheng Cui; Michael B Filla; Elizabeth A V Jones; Rusty Lansford; Tracey Cheuvront; Sarah Al-Roubaie; Brenda J Rongish; Charles D Little Journal: PLoS One Date: 2013-05-30 Impact factor: 3.240
Authors: Jonathan Stefanowski; Annemarie Lang; Ariana Rauch; Linus Aulich; Markus Köhler; Alexander F Fiedler; Frank Buttgereit; Katharina Schmidt-Bleek; Georg N Duda; Timo Gaber; Raluca A Niesner; Anja E Hauser Journal: Front Immunol Date: 2019-11-26 Impact factor: 7.561