Two were the aims of this study: first, to translate whole-genome expression profiles into computational predictions of functional associations between signaling pathways that regulate aorta homeostasis and the activity of angiotensin II type 1a receptor (At1ar) in either vascular endothelial or smooth muscle cells; and second, to characterize the impact of endothelial cell- or smooth muscle cell-specific At1ar disruption on the development of thoracic aortic aneurysm in fibrillin-1 hypomorphic (<i>Fbn1<sup>mgR/mgR</sup></i> ) mice, a validated animal model of early onset progressively severe Marfan syndrome.
Wild-type B6.129 mice and MFS Fbn1<sup>C1039G/+</sup> mice underwent subcutaneous, cervical osmotic minipump installation with sodium chloride (wild-type mice, n = 39; MFS mice, n = 12) or angiotensin II, 4.5 mg/kg daily (wild-type mice, n = 11; MFS mice; n = 35) for as long as 28 days.