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Weighted gene coexpression network analysis of human left atrial tissue identifies gene modules associated with atrial fibrillation.


ABSTRACT: Genetic mechanisms of atrial fibrillation (AF) remain incompletely understood. Previous differential expression studies in AF were limited by small sample size and provided limited understanding of global gene networks, prompting the need for larger-scale, network-based analyses.Left atrial tissues from Cleveland Clinic patients who underwent cardiac surgery were assayed using Illumina Human HT-12 mRNA microarrays. The data set included 3 groups based on cardiovascular comorbidities: mitral valve (MV) disease without coronary artery disease (n=64), coronary artery disease without MV disease (n=57), and lone AF (n=35). Weighted gene coexpression network analysis was performed in the MV group to detect modules of correlated genes. Module preservation was assessed in the other 2 groups. Module eigengenes were regressed on AF severity or atrial rhythm at surgery. Modules whose eigengenes correlated with either AF phenotype were analyzed for gene content. A total of 14 modules were detected in the MV group; all were preserved in the other 2 groups. One module (124 genes) was associated with AF severity and atrial rhythm across all groups. Its top hub gene, RCAN1, is implicated in calcineurin-dependent signaling and cardiac hypertrophy. Another module (679 genes) was associated with atrial rhythm in the MV and coronary artery disease groups. It was enriched with cell signaling genes and contained cardiovascular developmental genes including TBX5.Our network-based approach found 2 modules strongly associated with AF. Further analysis of these modules may yield insight into AF pathogenesis by providing novel targets for functional studies.

SUBMITTER: Tan N 

PROVIDER: S-EPMC3955718 | biostudies-other | 2013 Aug

REPOSITORIES: biostudies-other

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Weighted gene coexpression network analysis of human left atrial tissue identifies gene modules associated with atrial fibrillation.

Tan Nicholas N   Chung Mina K MK   Smith Jonathan D JD   Hsu Jeffrey J   Serre David D   Newton David W DW   Castel Laurie L   Soltesz Edward E   Pettersson Gosta G   Gillinov A Marc AM   Van Wagoner David R DR   Barnard John J  

Circulation. Cardiovascular genetics 20130717 4


<h4>Background</h4>Genetic mechanisms of atrial fibrillation (AF) remain incompletely understood. Previous differential expression studies in AF were limited by small sample size and provided limited understanding of global gene networks, prompting the need for larger-scale, network-based analyses.<h4>Methods and results</h4>Left atrial tissues from Cleveland Clinic patients who underwent cardiac surgery were assayed using Illumina Human HT-12 mRNA microarrays. The data set included 3 groups bas  ...[more]

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