The adhesion receptor CD44 promotes atherosclerosis by mediating inflammatory cell recruitment and vascular cell activation
Carolyn A. Cuff, Devashish Kothapalli, Ijeoma Azonobi, Sam Chun, Yuanming Zhang, Richard Belkin, Christine Yeh, Anthony Secreto, Richard K. Assoian, Daniel J. Rader, Ellen Puré
Carolyn A. Cuff, Devashish Kothapalli, Ijeoma Azonobi, Sam Chun, Yuanming Zhang, Richard Belkin, Christine Yeh, Anthony Secreto, Richard K. Assoian, Daniel J. Rader, Ellen Puré
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Article

The adhesion receptor CD44 promotes atherosclerosis by mediating inflammatory cell recruitment and vascular cell activation

Abstract

Atherosclerosis causes most acute coronary syndromes and strokes. The pathogenesis of atherosclerosis includes recruitment of inflammatory cells to the vessel wall and activation of vascular cells. CD44 is an adhesion protein expressed on inflammatory and vascular cells. CD44 supports the adhesion of activated lymphocytes to endothelium and smooth muscle cells. Furthermore, ligation of CD44 induces activation of both inflammatory and vascular cells. To assess the potential contribution of CD44 to atherosclerosis, we bred CD44-null mice to atherosclerosis-prone apoE-deficient mice. We found a 50–70% reduction in aortic lesions in CD44-null mice compared with CD44 heterozygote and wild-type littermates. We demonstrate that CD44 promotes the recruitment of macrophages to atherosclerotic lesions. Furthermore, we show that CD44 is required for phenotypic dedifferentiation of medial smooth muscle cells to the “synthetic” state as measured by expression of VCAM-1. Finally, we demonstrate that hyaluronan, the principal ligand for CD44, is upregulated in atherosclerotic lesions of apoE-deficient mice and that the low-molecular-weight proinflammatory forms of hyaluronan stimulate VCAM-1 expression and proliferation of cultured primary aortic smooth muscle cells, whereas high-molecular-weight forms of hyaluronan inhibit smooth muscle cell proliferation. We conclude that CD44 plays a critical role in the progression of atherosclerosis through multiple mechanisms.

Authors

Carolyn A. Cuff, Devashish Kothapalli, Ijeoma Azonobi, Sam Chun, Yuanming Zhang, Richard Belkin, Christine Yeh, Anthony Secreto, Richard K. Assoian, Daniel J. Rader, Ellen Puré

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Figure 5

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Induction of SMC VCAM-1 expression in atherosclerotic lesions is CD44-de...
Induction of SMC VCAM-1 expression in atherosclerotic lesions is CD44-dependent. Expression of VCAM-1 in intermediate to advanced (a, b, d, e) and early foam cell (c, f) lesions in the aortic root of CD44+/– apoE–/– (ac) and CD44–/– apoE–/– mice (df) was compared. VCAM-1 expression was detected on endothelial cells (arrowhead) and SMCs (arrow) in CD44+/– apoE–/– mice (a) and on endothelial cells (arrowhead) but not SMCs (arrow) in CD44–/– apoE–/– mice (d). Lesions of similar size and morphologic complexity at each stage of lesion progression from CD44–/– and CD44+/– mice are compared side by side. The architecture of an intermediate/advanced lesion from a CD44–/– mouse is detailed (g) in which a serial section of the section depicted in d was immunostained with an anti-laminin Ab. The large neointima (ni) contains a macrophage-rich foam cell region (fcr) layered above a matrix-rich layer containing a necrotic core (nc). The media is intact, but diminished in size (m). All panels ×200. Results are representative of the seven CD44-null and nine heterozygote mice analyzed.