Understanding the causes and implications of endothelial metabolic variation in cardiovascular disease through genome scale metabolic modeling

• Main Authors: Sarah eMcGarrity, Haraldur eHalldórsson, Sirus ePalsson, Pӓr Ingemar Johansson, Óttar eRolfsson
• Format: Article
• Language: English
• Published: Frontiers Media S.A. 2016-04-01
• Series: Frontiers in Cardiovascular Medicine
• Subjects: Endothelium; Genetics; Metabolism; Metabolomics; metabolic modeling; personalized/precision medicine
• Online Access: http://journal.frontiersin.org/Journal/10.3389/fcvm.2016.00010/full

High-throughput biochemical profiling has led to a requirement for advanced data interpretation techniques capable of integrating the analysis of gene, protein, and metabolic profiles to shed light on genotype-phenotype relationships. Herein, we consider the current state of knowledge of endothelial cell (EC) metabolism and its connections to cardiovascular disease, and explore the use of genome scale metabolic models (GEMs) for integrating metabolic and genomic data. GEMs combine gene expression and metabolic data acting as frameworks for their analysis and, ultimately, afford mechanistic understanding of how genetic variation impacts metabolism. We demonstrate how GEMs can be used to investigate cardiovascular disease-related genetic variation, drug resistance mechanisms, and novel metabolic pathways, in ECs. The application of GEMs in personalized medicine is also highlighted. Particularly, we focus on the potential of GEMs to identify metabolic biomarkers of endothelial dysfunction and to discover methods of stratifying treatments for cardiovascular diseases based on individual genetic markers. Recent advances in systems biology methodology, and how these methodologies can be applied to understand EC metabolism in both health and disease, are thus highlighted.