Growth Arrest of Thoracic Aortic Aneurysms in Aging Marfan Mice
Weiss, D.; Means, C.; Mays, G.; Yeung, N.; Cavinato, C.; Manning, E.; Lam, T. T.; Humphrey, J.
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There is a pressing need to identify pathologic mechanisms that render a thoracic aortic aneurysm susceptible to continued enlargement, dissection, or rupture, but additional insight can be gleaned by understanding potential compensatory mechanisms that prevent disease progression and thereby stabilize a lesion. Our biomechanical data suggest that the ascending aorta within a common mouse model of Marfan syndrome, Fbn1C1041G/+, exhibits progressive disease from 12 weeks to 1 year of age, but near growth arrest from 1 to 2 years of age. Comparison of the biomechanical phenotype, histological characteristics, proteomic signature, and transcriptional profile from 12 weeks to 1 year to 2 years suggests that numerous differentially expressed genes (including downregulated Ilk, Ltbp3, and Rictor) and associated proteins may contribute to late-term growth arrest. There is also a conspicuous absence of proteins associated with inflammation from 1 to 2 years of age. Although there is a need to understand better the interconnected roles of temporal changes in differential gene expression and protein abundance, reducing mTOR signaling and reducing excessive inflammation appears to merit increased attention in preventing continued aneurysmal expansion in Marfan syndrome.
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