Systematic verification of upstream regulators of a computable cellular proliferation network model on non-diseased lung cells using a dedicated dataset.

Authors:
Belcastro V1, Poussin C, Gebel S, Mathis C, Schlage WK, Lichtner RB, Quadt-Humme S, Wagner S, Hoeng J, Peitsch MC.
In:
Source: Bioinform Biol Insights
Publication Date: (2013)
Issue: 7: 217-30
Research Area:
Basic Research
Cells used in publication:
Epithelial, bronchial (NHBE), human
Species: human
Tissue Origin: lung
Abstract
We recently constructed a computable cell proliferation network (CPN) model focused on lung tissue to unravel complex biological processes and their exposure-related perturbations from molecular profiling data. The CPN consists of edges and nodes representing upstream controllers of gene expression largely generated from transcriptomics datasets using Reverse Causal Reasoning (RCR). Here, we report an approach to biologically verify the correctness of upstream controller nodes using a specifically designed, independent lung cell proliferation dataset. Normal human bronchial epithelial cells were arrested at G1/S with a cell cycle inhibitor. Gene expression changes and cell proliferation were captured at different time points after release from inhibition. Gene set enrichment analysis demonstrated cell cycle response specificity via an overrepresentation of proliferation related gene sets. Coverage analysis of RCR-derived hypotheses returned statistical significance for cell cycle response specificity across the whole model as well as for the Growth Factor and Cell Cycle sub-network models.