Authors
Emma Monte, Takaaki Furihata, Guangwen Wang, Isaac Perea-Gil, Eric Wei, Hassan Chaib, Ramesh Nair, Julio Vicente Guevara, Rene Mares, Xun Cheng, Yan Zhuge, Katelyn Black, Ricardo Serrano, Orit Dagan-Rosenfeld, Peter Maguire, Mark Mercola, Ioannis Karakikes, Joseph C Wu, Michael P Snyder
Publication date
2024/5/14
Journal
bioRxiv
Publisher
Cold Spring Harbor Laboratory Preprints
Description
BACKGROUND:
There is growing evidence that pathogenic mutations do not fully explain hypertrophic (HCM) or dilated (DCM) cardiomyopathy phenotypes. We hypothesized that if a patient’s genetic background was influencing cardiomyopathy this should be detectable as signatures in gene expression. We built a cardiomyopathy biobank resource for interrogating personalized genotype phenotype relationships in human cell lines.
METHODS:
We recruited 308 diseased and control patients for our cardiomyopathy stem cell biobank. We successfully reprogrammed PBMCs (peripheral blood mononuclear cells) into induced pluripotent stem cells (iPSCs) for 300 donors. These iPSCs underwent whole genome sequencing and were differentiated into cardiomyocytes for RNA-seq. In addition to annotating pathogenic variants, mutation burden in a panel of cardiomyopathy genes was assessed for correlation with …
Total citations
20241
Scholar articles
E Monte, T Furihata, G Wang, I Perea-Gil, E Wei… - bioRxiv, 2024