Abstract
Pathogenic variants of MYH11, which encode smooth muscle myosin heavy chain 11, have been linked to familial thoracic aortic aneurysms and dissections (FTAAD). However, molecular pathways affected by these mutations have not been well understood. To explore downstream consequences of Myh11 disruption, we analyzed transcriptomic and proteomic profiles of aortas from male Myh11 mice with homozygous deletion of lysine 1256 (K1256) and of wild-type controls. Of 6499 proteins quantified, 1763 were differentially expressed (adjusted p < 0.05), including 942 that were downregulated and 821 that were upregulated in mutant aortas. Enrichment analysis of downregulated genes and proteins revealed a consistent reduction in extracellular matrix-related pathways. Among downregulated proteins, we identified tenascin Xb, transforming growth factor β (Tgfb) 2, and Tgfb receptor 1/2, malfunctions of which are linked to connective tissue diseases, such as Ehlers-Danlos and Loeys-Dietz syndromes. Nevertheless, unlike these syndromic diseases, mice with Myh11 pathogenic variants and patients with FTAAD do not exhibit syndromic features, likely reflecting expression of Myh11 restricted to smooth muscle. These results suggest that loss of Myh11 disrupts maintenance of extracellular matrix by SMCs, the loss of which contributes to aortic fragility without affecting other tissues.