Abstract
Abstract Background Elevated lipoprotein(a) [Lp(a)] is a prevalent, independent risk factor of atherosclerotic cardiovascular disease and aortic valve stenosis. Recent studies have reported that high levels of Lp(a) are strongly associated with aortic dissection (AD), independent of other cardiovascular risk factors. However, orthologues of Lp(a) are only found in humans, Old World monkeys, apes, and hedgehogs. The lack of a proper animal model has hindered elucidation of the true pathophysiological mechanisms of Lp(a). Here, we conducted the first humanized Lp(a) transgenic mice experiment to verify the pathological mechanism of Lp(a) in aortic dissection. Methods We conducted ApoE knock out and human ApoA transgenic mice via CRISPR-Cas9 and then crossed with human ApoB transgenic mice to achieve high levels of human-like Lp(a) particles in plasma. Plasma was assayed by ELISA for the concentrations of each lipoprotein. Echocardiography was performed to detect aortic morphology in vivo. Single cell transcriptome analysis was performed on the dissection lesion. Cell interaction was examined in macrophage from Lp(a) transgenic mice and vascular smooth muscle cell (VSMC) coculture system. Result Our results indicate that the concentration of ApoA and ApoB in plasma were increased in transgenic mice fed a chow diet. Low density lipoprotein (LDL) levels were increased and shows that LDL is the major cholesterol carrier in these mice. We were surprised to find that the dissection of the ascending aortic arch could be seen by echocardiography in transgenic mice as early as 2 months, and transgenic mice showed significant increase in aortic enlargement, dissection, and rupture in both the thoracic and abdominal aortic regions, resulting in a survival rate of only 58% after 12 months. Single cell transcriptome analysis revealed that Lp(a) transgene induced the inflammatory response, dedifferentiation and pathological VSMC phenotypical switch, and matrix metalloproteinase expression in macrophages. Monocytes isolated from transgenic mice with elevated Lp(a) remain in a long-lasting primed state, as evidenced by an increased capacity to transmigrate and produce proinflammatory cytokines on stimulation. Monocytes isolated from wild type mice cultured in media with high level Lp(a) for 24h also showed the ability to facilitated cocultured VSMC phenotype transformation, which was reversed by E06, a monoclonal antibody blocking the oxidized phospholipids in Lp(a). Conclusion These findings demonstrate that Lp(a) induces spontaneous aortic dissection via increasing monocyte trafficking to the arterial wall, mediating proinflammatory responses and VSMC phenotype transformation through its OxPL content. The study presents a rodent model of spontaneous aortic dissection and provide a novel mechanism by which Lp(a) mediates aortic dissection.Graphical abstract
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