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A cell and transcriptome atlas of human arterial vasculature

Quanyi Zhao, Albert J Pedroza, Disha Sharma, Wenduo Gu, Alex R. Dalal, Chad S. Weldy, William Jackson, D. Li, Yana Ryan, Trieu Nguyen, Rohan Shad, Brian T. Palmisano, João P Monteiro, Matthew Worssam, Alexa Berezwitz, Meghana Iyer, Huitong Shi, Ramendra Kundu, Lasemahang Limbu, Juyong Brian Kim, Anshul Kundaje, Michael P. Fischbein, Robert Wirka, Thomas Quertermous, Paul Cheng

2025Cell Genomics7 citationsDOIOpen Access PDF

Abstract

Arterial segments show differing disease propensities, yet mechanisms remain unknown. We compiled a transcriptomic and spatial atlas of healthy human arterial cells across multiple segments to understand these differences. Arteries demonstrated a stereotyped pattern of cell-specific, segmental heterogeneity not captured by common marker genes. Arterial identities are encoded in fibroblast and smooth muscle cell (SMC) transcriptomes. Differentially expressed genes enrich for disease loci. Fibroblast gene expression enriches for a disproportionate number of disease loci, highlighting an underrecognized role for fibroblasts in disease risk. Cells of different segments cluster more by embryonic origin than anatomy. Global analysis of disease regulons in fibroblasts and SMCs identified developmental transcription factors that persist into adulthood, suggesting a functional role of these factors in disease. Lastly, the heterogeneity of non-coding transcriptomes rivals that of protein-coding transcriptomes. Differentially expressed lncRNAs enrich for genetic signals for vascular diseases, suggesting a role for lncRNAs in vascular disease.

Topics & Concepts

TranscriptomeBiologyFibroblastGene expression profilingGeneCellCell biologyVascular smooth muscleEmbryonic stem cellGene expressionCell typeTranscription factorDiseaseComputational biologyGeneticsTranscription (linguistics)Regulation of gene expressionAtlas (anatomy)Fibroblast growth factorPhenotypeHuman diseaseMyocyteArterial diseaseBioinformaticsHuman Protein AtlasAtherosclerosis and Cardiovascular DiseasesCell Adhesion Molecules ResearchAngiogenesis and VEGF in Cancer