Mutations in smooth muscle alpha-actin (ACTA2) lead to thoracic aortic aneurysms and dissections by Guo Dong-Chuan, Pannu Hariyadarshi, Tran-Fadulu Van, Papke Christina L, Yu Robert K, Avidan Nili, Bourgeois Scott, Estrera Anthony L, Safi Hazim J, Sparks Elizabeth, Amor David, Ades Lesley, McConnell Vivienne, Willoughby Colin E, Abuelo Dianne, Willing Marcia, Lewis Richard A, Kim Dong H, Scherer Steve, Tung Poyee P, Ahn Chul, Buja L Maximilian, Raman C S, Shete Sanjay S, Milewicz Dianna M in Nature genetics (2007). PubMed

Abstract

The major function of vascular smooth muscle cells (SMCs) is contraction to regulate blood pressure and flow. SMC contractile force requires cyclic interactions between SMC alpha-actin (encoded by ACTA2) and the beta-myosin heavy chain (encoded by MYH11). Here we show that missense mutations in ACTA2 are responsible for 14% of inherited ascending thoracic aortic aneurysms and dissections (TAAD). Structural analyses and immunofluorescence of actin filaments in SMCs derived from individuals heterozygous for ACTA2 mutations illustrate that these mutations interfere with actin filament assembly and are predicted to decrease SMC contraction. Aortic tissues from affected individuals showed aortic medial degeneration, focal areas of medial SMC hyperplasia and disarray, and stenotic arteries in the vasa vasorum due to medial SMC proliferation. These data, along with the previously reported MYH11 mutations causing familial TAAD, indicate the importance of SMC contraction in maintaining the structural integrity of the ascending aorta.

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