Genetic Predisposition To Thoracic Aortic Aneurysms/Dissections
University Of Texas Hlth Sci Ctr Houston, Houston TX
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Abstract
DESCRIPTION (provided by applicant): Thoracic aortic aneurysms and dissections are the major diseases affecting the thoracic aorta and a common cause of morbidity and mortality in the United States. Thoracic aortic aneurysms progressively enlarge over time and ultimately lead to acute aortic dissections (TAAD); if the aneurysm is surgically repaired prior to dissection premature deaths can be prevented. TAAD is inherited in an autosomal dominant manner with variable expression and decreased penetrance in up to 20% of TAAD patients (Familial TAAD). We have mapped five chromosomal loci for FTAAD and identified five genes that when mutated cause FTAAD, FBN1, TGFBR2, TGFBR1, ACTA2, and MYLK; other investigators have identified MYH11 as a sixth gene. Recently, family-based exome sequencing identified mutations in SMAD3 as the seventh gene causing FTAAD. In total, mutations in these genes are responsible for approximately 20% of FTAAD. Identification of these genes has provided insight into the pathogenesis of the disease, highlighting aberrant transforming growth factor-¿ signaling and disrupted smooth muscle contraction as factors contributing to TAAD. Correlation between mutations in specific genes and the corresponding phenotype has revealed unique features associated with each gene, leading to recommendation that disease management in FTAAD families be based on the specific genetic defect. We hypothesize that there are multiple genes responsible for familial TAAD, and this genetic heterogeneity underlies the significant clinical heterogeneity observed in FTAAD. The long term goal of the project is to identify the genes that cause FTAAD and characterize the associated phenotype. The first aim is to recruit families with two or more members with TAAD, collect samples, and characterize the clinical phenotype of these families. The second aim is to map chromosomal loci for FTAAD using large families with multiple affected members. The third aim is to identify novel FTAAD genes through exome sequencing of affected relative pairs from large families and combining these data with the linkage data to efficiently identify rare variants in disease-causing genes. Finally, initial pathologic, cellular, and molecular studies will be done to begin to understand the effect of gene mutations on aortic function. Through these studies, we will improve understanding of the etiology of aortic diseases and provide data critical for the proper clinical management of familia thoracic aortic disease.
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