Smooth muscle cell-specific CD47 deletion suppresses atherosclerosis

Life Sci. 2024 Dec 13:361:123315. doi: 10.1016/j.lfs.2024.123315. Online ahead of print.

Abstract

Background: Recent smooth muscle cell (SMC)-lineage tracing and single-cell RNA sequencing (scRNA-seq) experiments revealed a significant role of SMC-derived cells in atherosclerosis development. Further, thrombospondin-1 (TSP1), a matricellular protein, and activation of its receptor cluster of differentiation (CD) 47 have been linked with atherosclerosis. However, the role of vascular SMC TSP1-CD47 signaling in regulating VSMC phenotype and atherogenesis remains unknown.

Methods: We investigated the role of SMC CD47 activation by TSP1 in regulating VSMC phenotype and atherosclerosis development using various in vitro cell-based assays, molecular biological techniques, immunohistological approaches, reanalysis of publicly available scRNA-seq data, and cell-specific knockout mice.

Results: We observed elevated TSP1 expression in human atherosclerotic vascular tissues and VSMCs. TSP1-treated VSMCs exhibited decreased expression of contractile SMC markers (ACTA2, CNN1, and TAGLN) and increased proliferation. Additional experiments and reanalysis of the scRNA-seq dataset showed CD47 as the major TSP1 receptor in VSMCs, with its expression increased in SMC-derived modulated cells of murine atherosclerotic arteries. Knockdown of CD47 gene in human VSMCs upregulated expression of contractile SMC markers and abrogated TSP1's effects on these genes. SMC-specific Cd47 deletion in mice suppressed atherosclerotic lesion formation, reduced macrophage accumulation, and decreased necrotic area. However, no significant differences were observed in weight gain, liver and adipose tissue mass, plasma total cholesterol, and fasting blood glucose between control and SMC-restricted Cd47-deficient mice. Further experiments demonstrated increased efferocytosis of apoptotic CD47-silenced VSMCs by macrophages.

Conclusions: These findings suggest that CD47 plays a crucial role in regulating VSMC phenotype, and SMC-specific-Cd47 deletion suppresses atherosclerosis.

New and noteworthy: VSMC phenotypic switching contributes to atherosclerosis development. The present study reports the novel observations that Cd47 levels are upregulated in phenotypically modulated SMCs within atherosclerotic arteries and targeted deletion of Cd47 specifically in SMCs attenuates atherosclerosis. Mechanistic in vitro investigations further showed that TSP1-CD47 signaling regulates VSMC phenotype. Therefore, targeting SMC CD47 represents a promising therapeutic target to suppress atherogenesis.

Keywords: Atherosclerosis; CD47; Efferocytosis; Lipid accumulation; Phenotypic switching; Vascular smooth muscle cells.