PLoS ONE (Jan 2012)

Regression of atherosclerosis is characterized by broad changes in the plaque macrophage transcriptome.

  • Jonathan E Feig,
  • Yuliya Vengrenyuk,
  • Vladimir Reiser,
  • Chaowei Wu,
  • Alexander Statnikov,
  • Constantin F Aliferis,
  • Michael J Garabedian,
  • Edward A Fisher,
  • Oscar Puig

DOI
https://doi.org/10.1371/journal.pone.0039790
Journal volume & issue
Vol. 7, no. 6
p. e39790

Abstract

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We have developed a mouse model of atherosclerotic plaque regression in which an atherosclerotic aortic arch from a hyperlipidemic donor is transplanted into a normolipidemic recipient, resulting in rapid elimination of cholesterol and monocyte-derived macrophage cells (CD68+) from transplanted vessel walls. To gain a comprehensive view of the differences in gene expression patterns in macrophages associated with regressing compared with progressing atherosclerotic plaque, we compared mRNA expression patterns in CD68+ macrophages extracted from plaque in aortic aches transplanted into normolipidemic or into hyperlipidemic recipients. In CD68+ cells from regressing plaque we observed that genes associated with the contractile apparatus responsible for cellular movement (e.g. actin and myosin) were up-regulated whereas genes related to cell adhesion (e.g. cadherins, vinculin) were down-regulated. In addition, CD68+ cells from regressing plaque were characterized by enhanced expression of genes associated with an anti-inflammatory M2 macrophage phenotype, including arginase I, CD163 and the C-lectin receptor. Our analysis suggests that in regressing plaque CD68+ cells preferentially express genes that reduce cellular adhesion, enhance cellular motility, and overall act to suppress inflammation.