High-Throughput Mapping of a Dynamic Signaling Network in Mammalian Cells

Miriam Barrios‐Rodiles(Mount Sinai Hospital), Kevin R. Brown(Mount Sinai Hospital), Barish Ozdamar(Mount Sinai Hospital), Rohit Bose(Mount Sinai Hospital), Zhong Liu(Mount Sinai Hospital), Robert S. Donovan(Mount Sinai Hospital), Fukiko Shinjo(Mount Sinai Hospital), Yongmei Liu(Mount Sinai Hospital), Joanna Dembowy(Mount Sinai Hospital), Ian W. Taylor(Mount Sinai Hospital), Valbona Luga(Mount Sinai Hospital), Nataša Pržulj(Mount Sinai Hospital), Mark D. Robinson(Mount Sinai Hospital), Harukazu Suzuki(Mount Sinai Hospital), Yoshihide Hayashizaki(Mount Sinai Hospital), Igor Jurišica(Mount Sinai Hospital), Jeffrey L. Wrana(Mount Sinai Hospital)
Science
March 10, 2005
10.1126/science.1105776
Cited by 722

Abstract

Signaling pathways transmit information through protein interaction networks that are dynamically regulated by complex extracellular cues. We developed LUMIER (for luminescence-based mammalian interactome mapping), an automated high-throughput technology, to map protein-protein interaction networks systematically in mammalian cells and applied it to the transforming growth factor-beta (TGFbeta) pathway. Analysis using self-organizing maps and k-means clustering identified links of the TGFbeta pathway to the p21-activated kinase (PAK) network, to the polarity complex, and to Occludin, a structural component of tight junctions. We show that Occludin regulates TGFbeta type I receptor localization for efficient TGFbeta-dependent dissolution of tight junctions during epithelial-to-mesenchymal transitions.

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