Repository logo
 

Handling variability and incompleteness of biological data by flexible nets: a case study for Wilson disease.

Published version
Peer-reviewed

Type

Article

Change log

Authors

Dikicioglu, Duygu 

Abstract

Mathematical models that combine predictive accuracy with explanatory power are central to the progress of systems and synthetic biology, but the heterogeneity and incompleteness of biological data impede our ability to construct such models. Furthermore, the robustness displayed by many biological systems means that they have the flexibility to operate under a range of physiological conditions and this is difficult for many modeling formalisms to handle. Flexible nets (FNs) address these challenges and represent a paradigm shift in model-based analysis of biological systems. FNs can: (i) handle uncertainties, ranges and missing information in concentrations, stoichiometry, network topology, and transition rates without having to resort to statistical approaches; (ii) accommodate different types of data in a unified model that integrates various cellular mechanisms; and (iii) be employed for system optimization and model predictive control. We present FNs and illustrate their capabilities by modeling a well-established system, the dynamics of glucose consumption by a microbial population. We further demonstrate the ability of FNs to take control actions in response to genetic or metabolic perturbations. Having bench-marked the system, we then construct the first quantitative model for Wilson disease-a rare genetic disorder that impairs copper utilization in the liver. We used this model to investigate the feasibility of using vitamin E supplementation therapy for symptomatic improvement. Our results indicate that hepatocytic inflammation caused by copper accumulation was not aggravated by limitations on endogenous antioxidant supplies, which means that treating patients with antioxidants is unlikely to be effective.

Description

Keywords

0102 Applied Mathematics, Bioengineering, Nutrition

Journal Title

NPJ Syst Biol Appl

Conference Name

Journal ISSN

2056-7189
2056-7189

Volume Title

4

Publisher

Springer Science and Business Media LLC
Sponsorship
European Commission (623995)
European Commission (289126)
Biotechnology and Biological Sciences Research Council (BB/N02348X/1)