Issue 6, 2009

Systems biology approaches and pathway tools for investigating cardiovascular disease

Abstract

Systems biology aims to understand the nonlinear interactions of multiple biomolecular components that characterize a living organism. One important aspect of systems biology approaches is to identify the biological pathways or networks that connect the differing elements of a system, and examine how they evolve with temporal and environmental changes. The utility of this method becomes clear when applied to multifactorial diseases with complex etiologies, such as inflammatory-related diseases, herein exemplified by atherosclerosis. In this paper, the initial studies in this discipline are reviewed and examined within the context of the development of the field. In addition, several different software tools are briefly described and a novel application for the KEGG database suite called KegArray is presented. This tool is designed for mapping the results of high-throughput omics studies, including transcriptomics, proteomics and metabolomics data, onto interactive KEGG metabolic pathways. The utility of KegArray is demonstrated using a combined transcriptomics and lipidomics dataset from a published study designed to examine the potential of cholesterol in the diet to influence the inflammatory component in the development of atherosclerosis. These data were mapped onto the KEGG PATHWAY database, with a low cholesterol diet affecting 60 distinct biochemical pathways and a high cholesterol exposure affecting 76 biochemical pathways. A total of 77 pathways were differentially affected between low and high cholesterol diets. The KEGG pathways “Biosynthesis of unsaturated fatty acids” and “Sphingolipid metabolism” evidenced multiple changes in gene/lipid levels between low and high cholesterol treatment, and are discussed in detail. Taken together, this paper provides a brief introduction to systems biology and the applications of pathway mapping to the study of cardiovascular disease, as well as a summary of available tools. Current limitations and future visions of this emerging field are discussed, with the conclusion that combining knowledge from biological pathways and high-throughput omics data will move clinical medicine one step further to individualize medical diagnosis and treatment.

Graphical abstract: Systems biology approaches and pathway tools for investigating cardiovascular disease

Supplementary files

Article information

Article type
Review Article
Submitted
04 Feb 2009
Accepted
26 Mar 2009
First published
27 Apr 2009

Mol. BioSyst., 2009,5, 588-602

Systems biology approaches and pathway tools for investigating cardiovascular disease

C. E. Wheelock, Å. M. Wheelock, S. Kawashima, D. Diez, M. Kanehisa, M. van Erk, R. Kleemann, J. Z. Haeggström and S. Goto, Mol. BioSyst., 2009, 5, 588 DOI: 10.1039/B902356A

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