Modeling of signal-response cascades using decision tree analysis

MOTIVATION Signal transduction cascades governing cell functional responses to stimulatory cues play crucial roles in cell regulatory systems and represent promising therapeutic targets for complex human diseases. however, mathematical analysis of how cell responses are governed by signaling activities is challenging due to their multivariate and non-linear nature. diverse computational methods are potentially available, but most are ineffective for protein-level data that is limited in extent and replication. RESULTS We apply a decision tree approach to analyze the relationship of cell functional response to signaling activity across a spectrum of stimulatory cues. as a specific example, we studied five intracellular signals influencing fibroblast migration under eight conditions: four substratum fibronectin levels and presence versus absence of epidermal growth factor. we propose techniques for preprocessing and extending the experimental measurement set via interpolative modeling in order to gain statistical reliability. for this specific case study, our approach has 70% overall classification accuracy and the decision tree model reveals insights concerning the combined roles of the various signaling activities in governing cell migration speed. we conclude that decision tree methodology may facilitate elucidation of signal-response cascade relationships and generate experimentally testable predictions, which can be used as directions for future experiments.

[1]  Shinichi Morishita,et al.  On Classification and Regression , 1998, Discovery Science.

[2]  Alan Wells,et al.  Growth Factor-Induced Cell Motility in Tumor Invasion , 2002, Acta oncologica.

[3]  Ken Jacobson,et al.  MAP kinases and cell migration , 2004, Journal of Cell Science.

[4]  Alan Wells,et al.  Epidermal Growth Factor Induces Fibroblast Contractility and Motility via a Protein Kinase C δ-dependent Pathway* , 2004, Journal of Biological Chemistry.

[5]  大西 仁,et al.  Pearl, J. (1988, second printing 1991). Probabilistic Reasoning in Intelligent Systems: Networks of Plausible Inference. Morgan-Kaufmann. , 1994 .

[6]  G. Borisy,et al.  Cell Migration: Integrating Signals from Front to Back , 2003, Science.

[7]  J. Nazuno Haykin, Simon. Neural networks: A comprehensive foundation, Prentice Hall, Inc. Segunda Edición, 1999 , 2000 .

[8]  Jorma Rissanen,et al.  MDL Denoising , 2000, IEEE Trans. Inf. Theory.

[9]  D. Lauffenburger,et al.  Cell Migration: A Physically Integrated Molecular Process , 1996, Cell.

[10]  G. Yarrington Molecular Cell Biology , 1987, The Yale Journal of Biology and Medicine.

[11]  Axthonv G. Oettinger,et al.  IEEE Transactions on Information Theory , 1998 .

[12]  A. Tamhane,et al.  Multiple Comparison Procedures , 1989 .

[13]  H. Keselman,et al.  Multiple Comparison Procedures , 2005 .

[14]  D A Lauffenburger,et al.  Epidermal Growth Factor Receptor Activation of Calpain Is Required for Fibroblast Motility and Occurs via an ERK/MAP Kinase Signaling Pathway* , 2000, The Journal of Biological Chemistry.

[15]  S. T. Buckland,et al.  An Introduction to the Bootstrap. , 1994 .

[16]  Jorma Rissanen,et al.  Stochastic Complexity in Statistical Inquiry , 1989, World Scientific Series in Computer Science.

[17]  Christopher M. Bishop,et al.  Classification and regression , 1997 .

[18]  S. Hyakin,et al.  Neural Networks: A Comprehensive Foundation , 1994 .

[19]  Jaakko Astola,et al.  A novel strategy for microarray quality control using Bayesian networks , 2003, Bioinform..

[20]  L G Griffith,et al.  Biophysical integration of effects of epidermal growth factor and fibronectin on fibroblast migration. , 1999, Biophysical journal.

[21]  J. Rissanen,et al.  Modeling By Shortest Data Description* , 1978, Autom..

[22]  Miki Ebisuya,et al.  ERK Activation Propagates in Epithelial Cell Sheets and Regulates Their Migration during Wound Healing , 2004, Current Biology.

[23]  A. Hasman,et al.  Probabilistic reasoning in intelligent systems: Networks of plausible inference , 1991 .

[24]  Donna J. Webb,et al.  FAK–Src signalling through paxillin, ERK and MLCK regulates adhesion disassembly , 2004, Nature Cell Biology.

[25]  Peter J. Woolf,et al.  Bayesian analysis of signaling networks governing embryonic stem cell fate decisions , 2005, Bioinform..

[26]  M. Kenward,et al.  An Introduction to the Bootstrap , 2007 .