[PDF][PDF] Endothelial regeneration of large vessels is a biphasic process driven by local cells with distinct proliferative capacities

AI McDonald, AS Shirali, R Aragón, F Ma, G Hernandez… - Cell stem cell, 2018 - cell.com
AI McDonald, AS Shirali, R Aragón, F Ma, G Hernandez, DA Vaughn, JJ Mack, TY Lim…
Cell stem cell, 2018cell.com
The cellular and mechanistic bases underlying endothelial regeneration of adult large
vessels have proven challenging to study. Using a reproducible in vivo aortic endothelial
injury model, we characterized cellular dynamics underlying the regenerative process
through a combination of multi-color lineage tracing, parabiosis, and single-cell
transcriptomics. We found that regeneration is a biphasic process driven by distinct
populations arising from differentiated endothelial cells. The majority of cells immediately …
Summary
The cellular and mechanistic bases underlying endothelial regeneration of adult large vessels have proven challenging to study. Using a reproducible in vivo aortic endothelial injury model, we characterized cellular dynamics underlying the regenerative process through a combination of multi-color lineage tracing, parabiosis, and single-cell transcriptomics. We found that regeneration is a biphasic process driven by distinct populations arising from differentiated endothelial cells. The majority of cells immediately adjacent to the injury site re-enter the cell cycle during the initial damage response, with a second phase driven by a highly proliferative subpopulation. Endothelial regeneration requires activation of stress response genes including Atf3, and aged aortas compromised in their reparative capacity express less Atf3. Deletion of Atf3 reduced endothelial proliferation and compromised the regeneration. These findings provide important insights into cellular dynamics and mechanisms that drive responses to large vessel injury.
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