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Pathologic Gene Network Rewiring Implicates Ppp1r3a As A Central Regulator In Pressure Overload Heart Failure., Pablo Cordero, Victoria N Parikh, Elizabeth T Chin, Ayca Erbilgin, Michael J Gloudemans, Ching Shang, Yong Huang, Alex C Chang, Kevin S Smith, Frederick Dewey, Kathia Zaleta, Michael Morley, Jeff Brandimarto, Nicole Glazer, Daryl Waggott, Aleksandra Pavlovic, Mingming Zhao, Christine S Moravec, W H Wilson Tang, Jamie Skreen, Christine Malloy, Sridhar Hannenhalli, Hongzhe Li, Scott Ritter, Mingyao Li, Daniel Bernstein, Andrew Connolly, Hakon Hakonarson, Aldons J Lusis, Kenneth B Margulies, Anna A Depaoli-Roach, Stephen B Montgomery, Matthew T Wheeler, Thomas Cappola, Euan A Ashley
Pathologic Gene Network Rewiring Implicates Ppp1r3a As A Central Regulator In Pressure Overload Heart Failure., Pablo Cordero, Victoria N Parikh, Elizabeth T Chin, Ayca Erbilgin, Michael J Gloudemans, Ching Shang, Yong Huang, Alex C Chang, Kevin S Smith, Frederick Dewey, Kathia Zaleta, Michael Morley, Jeff Brandimarto, Nicole Glazer, Daryl Waggott, Aleksandra Pavlovic, Mingming Zhao, Christine S Moravec, W H Wilson Tang, Jamie Skreen, Christine Malloy, Sridhar Hannenhalli, Hongzhe Li, Scott Ritter, Mingyao Li, Daniel Bernstein, Andrew Connolly, Hakon Hakonarson, Aldons J Lusis, Kenneth B Margulies, Anna A Depaoli-Roach, Stephen B Montgomery, Matthew T Wheeler, Thomas Cappola, Euan A Ashley
Articles, Abstracts, and Reports
Heart failure is a leading cause of mortality, yet our understanding of the genetic interactions underlying this disease remains incomplete. Here, we harvest 1352 healthy and failing human hearts directly from transplant center operating rooms, and obtain genome-wide genotyping and gene expression measurements for a subset of 313. We build failing and non-failing cardiac regulatory gene networks, revealing important regulators and cardiac expression quantitative trait loci (eQTLs). PPP1R3A emerges as a regulator whose network connectivity changes significantly between health and disease. RNA sequencing after PPP1R3A knockdown validates network-based predictions, and highlights metabolic pathway regulation associated with increased cardiomyocyte size and …
Commonly Integrated Epigenetic Modifications Of Differentially Expressed Genes Lead To Adaptive Resistance In Cancer., Abdullah Al Emran, Diego M Marzese, Dinoop R Menon, Heinz Hammerlindl, Farzana Ahmed, Erika Richtig, Pascal Duijf, Dave Hoon, Helmut Schaider
Commonly Integrated Epigenetic Modifications Of Differentially Expressed Genes Lead To Adaptive Resistance In Cancer., Abdullah Al Emran, Diego M Marzese, Dinoop R Menon, Heinz Hammerlindl, Farzana Ahmed, Erika Richtig, Pascal Duijf, Dave Hoon, Helmut Schaider
Articles, Abstracts, and Reports
Aim: To investigate the integrated epigenetic regulation of acquired drug resistance in cancer. Materials & methods: Our gene expression data of five induced drug-tolerant cell models, one resistant cell line and one publicly available drug-resistant dataset were integrated to identify common differentially expressed genes and pathways. ChIP-seq and DNA methylation by HM450K beadchip were used to study the epigenetic profile of differential expressed genes. Results & conclusion: Integrated transcriptomic analysis identified a common 'viral mimicry' related gene signature in induced drug-tolerant cells and the resistant state. Analysis of the epigenetic regulation revealed a common set of down-regulated genes, which are …