Clonally expanding smooth muscle cells promote atherosclerosis by escaping efferocytosis and activating the complement cascade

Author:

Wang Ying,Nanda Vivek,Direnzo DanielORCID,Ye Jianqin,Xiao SophiaORCID,Kojima Yoko,Howe Kathryn L.ORCID,Jarr Kai-Uwe,Flores Alyssa M.,Tsantilas Pavlos,Tsao Noah,Rao Abhiram,Newman Alexandra A. C.ORCID,Eberhard Anne V.ORCID,Priest James R.,Ruusalepp Arno,Pasterkamp Gerard,Maegdefessel Lars,Miller Clint L.,Lind Lars,Koplev SimonORCID,Björkegren Johan L. M.,Owens Gary K.,Ingelsson Erik,Weissman Irving L.ORCID,Leeper Nicholas J.

Abstract

Atherosclerosis is the process underlying heart attack and stroke. Despite decades of research, its pathogenesis remains unclear. Dogma suggests that atherosclerotic plaques expand primarily via the accumulation of cholesterol and inflammatory cells. However, recent evidence suggests that a substantial portion of the plaque may arise from a subset of “dedifferentiated” vascular smooth muscle cells (SMCs) which proliferate in a clonal fashion. Herein we use multicolor lineage-tracing models to confirm that the mature SMC can give rise to a hyperproliferative cell which appears to promote inflammation via elaboration of complement-dependent anaphylatoxins. Despite being extensively opsonized with prophagocytic complement fragments, we find that this cell also escapes immune surveillance by neighboring macrophages, thereby exacerbating its relative survival advantage. Mechanistic studies indicate this phenomenon results from a generalized opsonin-sensing defect acquired by macrophages during polarization. This defect coincides with the noncanonical up-regulation of so-called don’t eat me molecules on inflamed phagocytes, which reduces their capacity for programmed cell removal (PrCR). Knockdown or knockout of the key antiphagocytic molecule CD47 restores the ability of macrophages to sense and clear opsonized targets in vitro, allowing for potent and targeted suppression of clonal SMC expansion in the plaque in vivo. Because integrated clinical and genomic analyses indicate that similar pathways are active in humans with cardiovascular disease, these studies suggest that the clonally expanding SMC may represent a translational target for treating atherosclerosis.

Funder

HHS | NIH | National Heart, Lung, and Blood Institute

Fondation Leducq

American Heart Association

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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