Biological Models Volume Title: From Knowledge Networks to Biological Models

Sub-Network Enrichment and Cluster Analysis Reveal Possible Pathways for Cetuximab Sensitivity

Author(s): Mikhail A. Pyatnitskiy, Maria A. Shkrob, Nikolai D. Daraselia and Ekaterina A. Kotelnikova

Pp: 151-172 (22)

DOI: 10.2174/978160805437411201010151

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Abstract

Patient stratification or, a personalized approach to medical treatment, is a promising approach in modern medicine. Finding biological patterns within a group of patients with the same diagnosis could lead to more precise and effective therapies. To address this issue it is necessary to reveal different mechanisms within the same disease, to find new biomarkers, and to develop new diagnostic tests that would distinguish patients from different subgroups.

Cancer sub-typing based on clustering of individual patient gene expression profiles has been widely used for various types of cancer. Here we propose a new approach which includes the consecutive use of Sub-network enrichment analysis algorithm (SNEA) for individual differential expression profiles and biclustering of found expression regulators and samples.

We analyzed nine publicly available microarray datasets with data from patients suffering from colorectal cancer as compared to healthy donors, including one dataset containing supplementary information on patient response to anti-EGFR therapy with cetuximab. We have identified several patient subtypes characterized by specific regulatory clusters (pathways) and mapped the data about cetuximab response onto the heat map of pathway activity for each patient. We found that the most prominent mechanism that distinguished responders from non-responders is dependent on regulators from the TGF-β/SMAD pathway and corresponds to the epithelial-tomesenchymal transition (EMT).


Keywords: Bioinformatics, colorectal cancer, microarray, gene expression, subnetwork enrichment analysis, patient stratification, cluster analysis, cetuximab, EGFR, KRAS, regulator, epithelial-to-mesenchymal transition, pathway analysis, biomarker, text-mining, pathway studio, MedScan, CRC, differential profile, biclustering.

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