Smooth muscle–derived adventitial progenitor cells direct atherosclerotic plaque composition complexity in a Klf4-dependent manner
Allison M. Dubner, … , Mark W. Majesky, Mary C.M. Weiser-Evans
Allison M. Dubner, … , Mark W. Majesky, Mary C.M. Weiser-Evans
Published November 22, 2023
Citation Information: JCI Insight. 2023;8(22):e174639. https://doi.org/10.1172/jci.insight.174639.
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Research Article Stem cells Vascular biology

Smooth muscle–derived adventitial progenitor cells direct atherosclerotic plaque composition complexity in a Klf4-dependent manner

Abstract

We previously established that vascular smooth muscle–derived adventitial progenitor cells (AdvSca1-SM) preferentially differentiate into myofibroblasts and contribute to fibrosis in response to acute vascular injury. However, the role of these progenitor cells in chronic atherosclerosis has not been defined. Using an AdvSca1-SM cell lineage tracing model, scRNA-Seq, flow cytometry, and histological approaches, we confirmed that AdvSca1-SM–derived cells localized throughout the vessel wall and atherosclerotic plaques, where they primarily differentiated into fibroblasts, smooth muscle cells (SMC), or remained in a stem-like state. Krüppel-like factor 4 (Klf4) knockout specifically in AdvSca1-SM cells induced transition to a more collagen-enriched fibroblast phenotype compared with WT mice. Additionally, Klf4 deletion drastically modified the phenotypes of non–AdvSca1-SM–derived cells, resulting in more contractile SMC and atheroprotective macrophages. Functionally, overall plaque burden was not altered with Klf4 deletion, but multiple indices of plaque composition complexity, including necrotic core area, macrophage accumulation, and fibrous cap thickness, were reduced. Collectively, these data support that modulation of AdvSca1-SM cells through KLF4 depletion confers increased protection from the development of potentially unstable atherosclerotic plaques.

Authors

Allison M. Dubner, Sizhao Lu, Austin J. Jolly, Keith A. Strand, Marie F. Mutryn, Tyler Hinthorn, Tysen Noble, Raphael A. Nemenoff, Karen S. Moulton, Mark W. Majesky, Mary C.M. Weiser-Evans

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Figure 5

Depletion of KLF4 in AdvSca1-SM cells modifies the fate of YFP+ cells in the setting of atherosclerosis.

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Depletion of KLF4 in AdvSca1-SM cells modifies the fate of YFP+ cells in...
Arteries from 16-week WT and Klf4 KO AdvSca1-SM lineage atherogenic mice were processed for scRNA-Seq. (A) Left: UMAP projection of YFP+ and YFP- cells from WT and Klf4 KO AdvSca1-SM cell lineage tracing mice. Right: UMAP projection showing the different fates of YFP+ cells in atherosclerosis as a consequence of depleting KLF4 in AdvSca1-SM cells. Arrows indicate major phenotypic shifts in KO mice. (B) Stacked bar graph of YFP+ cells from WT and Klf4 KO mice after 16-week atherogenic diet. Arrows indicate increases (red) or decreases (blue) in cell populations as a function of Klf4 depletion. (C) Violin plots showing higher expression of ECM related genes (Col1a1, Col1a2) in YFP+ Fib_2 cluster from Klf4 KO mice compared to WT mice after 16 weeks of atherogenic diet. Col1a1 is also higher in YFP+ Fib_3 cluster cells from Klf4 KO mice compared to WT mice, but there is no difference with Col1a2 in this cluster. (D) Violin plots showing higher expression of SMC contractile genes (Acta2, Myh11, Cnn1) in YFP+ Transitional cluster cells from Klf4 KO mice compared to WT mice after 16 weeks of atherogenic diet.