Pathological Angiogenesis Precedes the Onset of Aortic Dissection

Aortic dissection (AD) is a severe, life-threatening disease that occurs abruptly ¹ . Although remodeling and inherent vulnerability of the aortic media, as observed in heritable connective tissue disorders such as Marfan syndrome, have been implicated in the onset of AD, the precise pathological mechanisms underlying the non-heritable form, which accounts for most cases, remains largely unknown ² . Here, using hyperacute AD patient-derived samples, we show that pathological angiogenesis within the aortic media precedes the onset of dissection. Integrating single-cell transcriptomic analysis of aortic medial endothelial cells with high-resolution imaging revealed temporal changes preceding dissection. Hypoxic alterations in the media triggered osteochondrogenic changes in smooth muscle cells, promoted hydroxyapatite deposition, and induced angiogenesis via VEGF secretion from AD-specific CD14 ⁺ CD68 ⁺ CD163 ⁺ MRC1(CD206) ^neg-low macrophages. Atomic force microscopy revealed that these processes culminated in the formation of a soft capillary layer, potentially concentrating stress on this region and contributing to AD onset. H&E staining of archived specimens revealed that non-heritable AD can be classified into angiogenic or non-angiogenic subtypes, with more than half exhibiting the former. In contrast, acute AD cases associated with Marfan syndrome typically exhibit a non-angiogenic pattern, suggesting distinct underlying mechanisms. This study reports angiogenesis as a key pathological driver in non-heritable AD and highlight potential targets for early diagnosis, prevention, and treatment.