Strategies to Enhance Logic Modeling-Based Cell Line-Specific Drug Synergy Prediction

Discrete dynamical modeling shows promise in prioritizing drug combinations for screening efforts by reducing the experimental workload inherent to the vast numbers of possible drug combinations. We have investigated approaches to predict combination responses across different cancer cell lines usin...

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Bibliographic Details
Published in:Frontiers in physiology 2020-07, Vol.11, p.862
Main Authors: Niederdorfer, Barbara, Touré, Vasundra, Vazquez, Miguel, Thommesen, Liv, Kuiper, Martin, Lægreid, Astrid, Flobak, Åsmund
Format: Article
Language:English
Subjects:
cell signaling network
drug combination
high-influence nodes
logic modeling
Physiology
synergy prediction
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Summary:Discrete dynamical modeling shows promise in prioritizing drug combinations for screening efforts by reducing the experimental workload inherent to the vast numbers of possible drug combinations. We have investigated approaches to predict combination responses across different cancer cell lines using logic models generated from one generic prior-knowledge network representing 144 nodes covering major cancer signaling pathways. Cell-line specific models were configured to agree with baseline activity data from each unperturbed cell line. Testing against experimental data demonstrated a high number of true positive and true negative predictions, including also cell-specific responses. We demonstrate the possible enhancement of predictive capability of models by curation of literature knowledge further detailing subtle biologically founded signaling mechanisms in the model topology. model analysis pinpointed a subset of network nodes highly influencing model predictions. Our results indicate that the performance of logic models can be improved by focusing on high-influence node protein activity data for model configuration and that these nodes accommodate high information flow in the regulatory network.
ISSN:1664-042X
1664-042X
DOI:10.3389/fphys.2020.00862