Diverse cellular architecture of atherosclerotic plaque derives from clonal expansion of a few medial SMCs
Kevin Jacobsen, … , Laura Carramolino, Jacob Fog Bentzon
Kevin Jacobsen, … , Laura Carramolino, Jacob Fog Bentzon
Published October 5, 2017
Citation Information: JCI Insight. 2017;2(19):e95890. https://doi.org/10.1172/jci.insight.95890.
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Research Article Vascular biology

Diverse cellular architecture of atherosclerotic plaque derives from clonal expansion of a few medial SMCs

Abstract

Fibrous cap smooth muscle cells (SMCs) protect atherosclerotic lesions from rupturing and causing thrombosis, while other plaque SMCs may have detrimental roles in plaque development. To gain insight into recruitment of different plaque SMCs, we mapped their clonal architecture in aggregation chimeras of eGFP+Apoe–/– and Apoe–/– mouse embryos and in mice with a mosaic expression of fluorescent proteins in medial SMCs that were rendered atherosclerotic by PCSK9-induced hypercholesterolemia. Fibrous caps in aggregation chimeras were found constructed from large, endothelial-aligned layers of either eGFP+ or nonfluorescent SMCs, indicating substantial clonal expansion of a few cells. Similarly, plaques in mice with SMC-restricted Confetti expression showed oligoclonal SMC populations with little intermixing between the progeny of different medial SMCs. Phenotypes comprised both ACTA2+ SMCs in the cap and heterogeneous ACTA2– SMCs in the plaque interior, including chondrocyte-like cells and cells with intracellular lipid and crystalline material. Fibrous cap SMCs were invariably arranged in endothelium-aligned clonal sheets, confirming results in the aggregation chimeras. Analysis of the clonal structure showed that a low number of local medial SMCs partake in atherosclerosis and that single medial SMCs can produce several different SMC phenotypes in plaque. The combined results show that few medial SMCs proliferate to form the entire phenotypically heterogeneous plaque SMC population in murine atherosclerosis.

Authors

Kevin Jacobsen, Marie Bek Lund, Jeong Shim, Stine Gunnersen, Ernst-Martin Füchtbauer, Mads Kjolby, Laura Carramolino, Jacob Fog Bentzon

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Figure 7

The plaque interior accumulates lipid-filled modulated SMCs.

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The plaque interior accumulates lipid-filled modulated SMCs. (A and B) S...
(A and B) Serial sections, 200 μm apart, of a plaque at 24 weeks of development showing a large patch of RFP+ SMCs comprising cells with foamy cytoplasm (white arrows point to examples) and also elongated EC-associated cap SMCs (cyan arrows). (C) LGALS3+ cells are present in the plaque (yellow arrows), but no SMCs stain positive for LGALS3. LGALS3 staining was performed with a near-infrared fluorochrome but shown in green for clarity. The section did not contain nGFP+ SMCs. (D) Laser confocal reflection microscopy reveals that some of the accumulating cytoplasmatic material in modulated SMCs is reflective (yellow arrows), consistent with cholesterol crystals. (EG) Oil Red O staining shows accumulation of neutral lipids in many modulated SMCs. The displayed series of images show an mCFP+ patch of SMCs (E); subsequent Oil Red O staining of the same section (F); and an overlay of the Oil Red O and fluorescent images (G). The inset shows Oil Red O–stained SMCs in higher magnification. L, Lumen. M, Media. Scale bars: 50 μm.