Author
Listed:
- Momiao Xiong
- Frank C Arnett
- Xinjian Guo
- Hao Xiong
- Xiaodong Zhou
Abstract
Diseases are believed to arise from dysregulation of biological systems (pathways) perturbed by environmental triggers. Biological systems as a whole are not just the sum of their components, rather ever-changing, complex and dynamic systems over time in response to internal and external perturbation. In the past, biologists have mainly focused on studying either functions of isolated genes or steady-states of small biological pathways. However, it is systems dynamics that play an essential role in giving rise to cellular function/dysfunction which cause diseases, such as growth, differentiation, division and apoptosis. Biological phenomena of the entire organism are not only determined by steady-state characteristics of the biological systems, but also by intrinsic dynamic properties of biological systems, including stability, transient-response, and controllability, which determine how the systems maintain their functions and performance under a broad range of random internal and external perturbations. As a proof of principle, we examine signal transduction pathways and genetic regulatory pathways as biological systems. We employ widely used state-space equations in systems science to model biological systems, and use expectation-maximization (EM) algorithms and Kalman filter to estimate the parameters in the models. We apply the developed state-space models to human fibroblasts obtained from the autoimmune fibrosing disease, scleroderma, and then perform dynamic analysis of partial TGF-β pathway in both normal and scleroderma fibroblasts stimulated by silica. We find that TGF-β pathway under perturbation of silica shows significant differences in dynamic properties between normal and scleroderma fibroblasts. Our findings may open a new avenue in exploring the functions of cells and mechanism operative in disease development.
Suggested Citation
Momiao Xiong & Frank C Arnett & Xinjian Guo & Hao Xiong & Xiaodong Zhou, 2008.
"Differential Dynamic Properties of Scleroderma Fibroblasts in Response to Perturbation of Environmental Stimuli,"
PLOS ONE, Public Library of Science, vol. 3(2), pages 1-12, February.
Handle:
RePEc:plo:pone00:0001693
DOI: 10.1371/journal.pone.0001693
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