Tore Bleckwehl, Anne Babler, Merel Tebens, Sidrah Maryam, Michael Nyberg, Markus Bosteen, Maurice Halder, Isaac Shaw, Susanne Fleig, Charles Pyke, Henning Hvid, Louise Marie Voetmann, Jaap D van Buul, Judith C Sluimer, Vivek Das, Simon Baumgart, Rafael Kramann, Sikander Hayat
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Abstract
Atherosclerosis is a pervasive contributor to ischemic heart disease and stroke. Despite the advance of lipid-lowering therapies and anti-hypertensive agents, the residual risk of an atherosclerotic event remains high, and developing therapeutic strategies has proven challenging. This is due to the complexity of atherosclerosis with a spatial interplay of multiple cell types within the vascular wall. In this study, we generated an integrative high-resolution map of human atherosclerotic plaques combining single-cell RNA sequencing from multiple studies and spatial transcriptomics data from 12 human specimens with different stages of atherosclerosis. Here we show cell-type-specific and atherosclerosis-specific expression changes and spatially constrained alterations in cell-cell communication. We highlight the possible recruitment of lymphocytes via ACKR1 endothelial cells of the vasa vasorum, the migration of vascular smooth muscle cells toward the lumen by transforming into fibromyocytes and cell-cell communication in the plaque region, indicating an intricate cellular interplay within the adventitia and the subendothelial space in human atherosclerosis.
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