TY - JOUR T1 - Context-specificity in causal signaling networks revealed by phosphoprotein profiling JF - bioRxiv DO - 10.1101/039636 SP - 039636 AU - Steven M. Hill AU - Nicole K. Nesser AU - Katie Johnson-Camacho AU - Mara Jeffress AU - Aimee Johnson AU - Chris Boniface AU - Simon E.F. Spencer AU - Yiling Lu AU - Laura M. Heiser AU - Yancey Lawrence AU - Nupur T. Pande AU - James E. Korkola AU - Joe W. Gray AU - Gordon B. Mills AU - Sach Mukherjee AU - Paul T. Spellman Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/02/15/039636.abstract N2 - Summary Signaling networks downstream of receptor tyrosine kinases are among the most extensively studied biological networks. However, it remains unclear whether signaling networks depend on biological context. Signaling networks encode causal influences – and not just correlations – between network components. Here, using a causal framework and systematic time-course assays of signaling proteins, we investigate the context-specificity of signaling networks in a cell line system. We focus on a well-defined set of signaling proteins profiled in four breast cancer cell lines under eight stimulus conditions and inhibition of specific kinases. The data, spanning multiple pathways and comprising approximately 70,000 phosphoprotein and 260,000 protein measurements, provide a wealth of testable, context-specific hypotheses, several of which we validate in independent experiments. Furthermore, the data provide a resource for computational methods development, permitting empirical assessment of causal network learning in a complex, mammalian setting. ER -