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Coronary Artery Disease Risk Variant Dampens the Expression of CALCRL by Reducing HSF Binding to Shear Stress Responsive Enhancer in Endothelial Cells In Vitro

Authors :
Selvarajan, Ilakya
Kiema, Miika
Huang, Ru-Ting
Li, Jin
Zhu, Jiayu
Polonen, Petri
Ord, Tiit
Ounap, Kadri
Godiwala, Mehvash
Golebiewski, Anna Kathryn
Ravindran, Aarthi
Maeklin, Kiira
Toropainen, Anu
Stolze, Lindsey K.
Arce, Maximiliano
Magnusson, Peetra
White, Stephen
Romanoski, Casey E.
Heinaniemi, Merja
Laakkonen, Johanna P.
Fang, Yun
Kaikkonen, Minna U.
Selvarajan, Ilakya
Kiema, Miika
Huang, Ru-Ting
Li, Jin
Zhu, Jiayu
Polonen, Petri
Ord, Tiit
Ounap, Kadri
Godiwala, Mehvash
Golebiewski, Anna Kathryn
Ravindran, Aarthi
Maeklin, Kiira
Toropainen, Anu
Stolze, Lindsey K.
Arce, Maximiliano
Magnusson, Peetra
White, Stephen
Romanoski, Casey E.
Heinaniemi, Merja
Laakkonen, Johanna P.
Fang, Yun
Kaikkonen, Minna U.
Publication Year :
2024

Abstract

BACKGROUND:CALCRL (calcitonin receptor-like) protein is an important mediator of the endothelial fluid shear stress response, which is associated with the genetic risk of coronary artery disease. In this study, we functionally characterized the noncoding regulatory elements carrying coronary artery disease that risks single-nucleotide polymorphisms and studied their role in the regulation of CALCRL expression in endothelial cells.METHODS:To functionally characterize the coronary artery disease single-nucleotide polymorphisms harbored around the gene CALCRL, we applied an integrative approach encompassing statistical, transcriptional (RNA-seq), and epigenetic (ATAC-seq [transposase-accessible chromatin with sequencing], chromatin immunoprecipitation assay-quantitative polymerase chain reaction, and electromobility shift assay) analyses, alongside luciferase reporter assays, and targeted gene and enhancer perturbations (siRNA and clustered regularly interspaced short palindromic repeats/clustered regularly interspaced short palindromic repeat-associated 9) in human aortic endothelial cells.RESULTS:We demonstrate that the regulatory element harboring rs880890 exhibits high enhancer activity and shows significant allelic bias. The A allele was favored over the G allele, particularly under shear stress conditions, mediated through alterations in the HSF1 (heat shock factor 1) motif and binding. CRISPR deletion of rs880890 enhancer resulted in downregulation of CALCRL expression, whereas HSF1 knockdown resulted in a significant decrease in rs880890-enhancer activity and CALCRL expression. A significant decrease in HSF1 binding to the enhancer region in endothelial cells was observed under disturbed flow compared with unidirectional flow. CALCRL knockdown and variant perturbation experiments indicated the role of CALCRL in mediating eNOS (endothelial nitric oxide synthase), APLN (apelin), angiopoietin, prostaglandins, and EDN1 (endothelin-1) signaling pathways leading to a

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1457644821
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1161.ATVBAHA.123.318964