1. SVEP1, a novel human coronary artery disease locus, promotes atherosclerosis
- Author
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Arturo Alisio, In-Hyuk Jung, Nathan O. Stitziel, Puja Kachroo, Robert P. Mecham, Erica P. Young, Jared S. Elenbaas, Kory J. Lavine, Babak Razani, Katherine Santana, and Chul Joo Kang
- Subjects
Vascular smooth muscle ,biology ,business.industry ,Integrin ,Notch signaling pathway ,Inflammation ,medicine.disease ,Extracellular matrix ,Coronary artery disease ,Fibroblast growth factor receptor ,Mendelian randomization ,Cancer research ,biology.protein ,Medicine ,medicine.symptom ,business - Abstract
SummaryA low-frequency variant of SVEP1, an extracellular matrix protein, is associated with risk of coronary disease in humans independent of plasma lipids. Despite a robust statistical association, however, it was unclear if and how SVEP1 might contribute to atherosclerosis. Here, using Mendelian randomization and complementary mouse models, we provide evidence that SVEP1 promotes atherosclerosis in humans and mice. We find that SVEP1 is expressed by vascular smooth muscle cells (VSMCs) within the atherosclerotic plaque. VSMCs also interact with SVEP1, causing proliferation and dysregulation of key differentiation pathways, including integrin and Notch signaling. Fibroblast growth factor receptor transcription increases in VSMCs interacting with SVEP1, and is further increased by the coronary disease-associated SVEP1 variant. These effects ultimately drive inflammation and promote atherosclerosis. Taken together, our results suggest that VSMC-derived SVEP1 is a pro-atherogenic factor, and support the concept that pharmacological inhibition of SVEP1 should protect against atherosclerosis in humans.
- Published
- 2020