An Integrated Global Analysis of Compartmentalized HRAS Signaling
Publication date
2019
Authors
Santra, Tapesh
Herrero, Ana
Rodriguez, Javier
von Kriegsheim, Alex
Iglesias-Martinez, Luis F
Schwarzl, Thomas
Higgins, Des
Aye, Thin-Thin
Heck, Albert J R
Calvo, Fernando
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Supervisors
Document Type
Article
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Abstract
Modern omics technologies allow us to obtain global information on different types of biological networks. However, integrating these different types of analyses into a coherent framework for a comprehensive biological interpretation remains challenging. Here, we present a conceptual framework that integrates protein interaction, phosphoproteomics, and transcriptomics data. Applying this method to analyze HRAS signaling from different subcellular compartments shows that spatially defined networks contribute specific functions to HRAS signaling. Changes in HRAS protein interactions at different sites lead to different kinase activation patterns that differentially regulate gene transcription. HRAS-mediated signaling is the strongest from the cell membrane, but it regulates the largest number of genes from the endoplasmic reticulum. The integrated networks provide a topologically and functionally resolved view of HRAS signaling. They reveal distinct HRAS functions including the control of cell migration from the endoplasmic reticulum and TP53-dependent cell survival when signaling from the Golgi apparatus.
Keywords
RAS, subcellular compartmentalization, signal transduction data integration, network biology, proteomics, transcriptomics, cell migration, TP53, apoptosis
Citation
Santra , T , Herrero , A , Rodriguez , J , von Kriegsheim , A , Iglesias-Martinez , L F , Schwarzl , T , Higgins , D , Aye , T-T , Heck , A J R , Calvo , F , Agudo-Ibáñez , L , Crespo , P , Matallanas , D & Kolch , W 2019 , ' An Integrated Global Analysis of Compartmentalized HRAS Signaling ' Cell Reports , vol. 26 , no. 11 , pp. 3100-3115.e7 . DOI: 10.1016/j.celrep.2019.02.038