Genetic analysis of 47,803 UK Biobank participants identified 68 common loci and 56 rare variant genes associated with myocardial trabecular complexity, which modified cardiomyopathy phenotypes.
Observational (n=47,803)
Yes
Genetic analysis of cardiac MRI reveals that myocardial trabeculation is regulated by genes involved in sarcomeric function and modifies the phenotypic expression of hypertrophic and dilated cardiomyopathies.
p-value: p=<5x10^-8
Cardiac trabeculae form a network of muscular strands that line the inner surfaces of the heart. Their development depends on multiscale morphogenetic processes and, while highly conserved across vertebrate evolution, their role in the pathophysiology of the mature heart is not fully understood. Here we report variant associations across the allele frequency spectrum for trabecular morphology in 47,803 participants of the UK Biobank using fractal dimension analysis of cardiac imaging. We identified an association between trabeculation and rare variants in 56 genes that regulate myocardial contractility and ventricular development. Genome-wide association studies identified 68 loci in pathways that regulate sarcomeric function, differentiation of the conduction system and cell fate determination. We found that trabeculation-associated variants were modifiers of cardiomyopathy phenotypes with opposing effects in hypertrophic and dilated cardiomyopathy. Together, these data provide insights into mechanisms that regulate trabecular development and plasticity, and identify a potential role in modifying monogenic disease expression.
McGurk et al. (Wed,) conducted a observational in Myocardial trabeculation (n=47,803). Genetic variants (GWAS and RVAS) was evaluated on Genetic associations with trabecular morphology (fractal dimension) (p=<5x10^-8). Genetic analysis of 47,803 UK Biobank participants identified 68 common loci and 56 rare variant genes associated with myocardial trabecular complexity, which modified cardiomyopathy phenotypes.