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<i>LIPA</i> , a risk locus for coronary artery disease: decoding the variant-to-function relationship

Fang Li, Elise D. Flynn, Philip Ha, Mazal Zebak, Haoxiang Cheng, Chenyi Xue, Jianting Shi, Xun Wu, Ziyi Wang, Yujiao Meng, Jian Cui, Yizhou Zhu, Annie Rozenblyum, Jeana Chun, Antonio Hernández‐Ono, Ali Javaheri, Babak Razani, Marit Westerterp, Robert C. Bauer, Yousin Suh, Ke Hao, Tuuli Lappalainen, Hanrui Zhang

2025European Heart Journal11 citationsDOIOpen Access PDF

Abstract

BACKGROUND AND AIMS: Translating human genomic discoveries into mechanistic insights requires linking genetic variations to candidate genes and their causal functional phenotypes. Genome-wide association studies have consistently identified LIPA (lipase A, lysosomal acid type) as a risk locus for coronary artery disease, with previous analyses prioritising LIPA as a likely causal gene. However, functional studies elucidating causal variants, regulatory mechanisms, target cell types, and their causal impact on atherosclerosis have been lacking. This study aims to address this gap by establishing the variant-to-function relationship at the LIPA locus. METHODS: Post-genome-wide association study pipelines and molecular biology techniques, including expression quantitative trait loci analysis, Tri-HiC, luciferase assay, CRISPRi, allele-specific binding, motif analysis, and electrophoretic mobility shift assay, were used to link functional variants to target genes and define the direction of their regulatory effects in causal cell types. To determine how increased myeloid LIPA impacts atherosclerosis, myeloid-specific Lipa overexpression mice on an Ldlr-/- background were generated. RESULTS: Coronary artery disease-risk alleles in the LIPA locus increase LIPA expression and enzyme activity specifically in monocytes/macrophages by enhancing PU.1 binding to an intronic enhancer region that interacts with the LIPA promoter. Myeloid-specific Lipa overexpression in Ldlr-/- mice fed a western diet resulted in larger atherosclerotic lesions, accompanied by altered macrophage function, characterized by increased accumulation of lesional macrophages derived from circulating monocytes, reduced neutral lipid content, and up-regulation of integrin and extracellular matrix pathway genes. CONCLUSIONS: The work establishes a direct causal link between LIPA-risk alleles and increased monocyte/macrophage LIPA that exacerbates atherosclerosis, bridging human functional genomic evidence to the mechanistic understanding of coronary artery disease.

Topics & Concepts

MedicineCoronary artery diseaseLocus (genetics)CardiologyInternal medicineDiseaseGeneticsGeneBiologyLysosomal Storage Disorders ResearchDiabetes, Cardiovascular Risks, and LipoproteinsCholesterol and Lipid Metabolism
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