Author
Listed:
- Yong Zheng
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada)
- Cunjie Zhang
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada)
- David R. Croucher
(Systems Biology Ireland, Conway Institute, University College Dublin, Dublin 4, Ireland)
- Mohamed A. Soliman
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada
University of Toronto, Toronto M5S 1A8, Canada
Faculty of Pharmacy, Cairo University)
- Nicole St-Denis
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada)
- Adrian Pasculescu
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada)
- Lorne Taylor
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada)
- Stephen A. Tate
(AB SCIEX, Concord, Ontario L4K 4V8, Canada)
- W. Rod Hardy
(University of Massachusetts Medical School)
- Karen Colwill
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada)
- Anna Yue Dai
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada)
- Rick Bagshaw
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada)
- James W. Dennis
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada
University of Toronto, Toronto M5S 1A8, Canada)
- Anne-Claude Gingras
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada
University of Toronto, Toronto M5S 1A8, Canada)
- Roger J. Daly
(School of Biomedical Sciences, Monash University, Victoria 3800, Australia
Cancer Research Program, Garvan Institute of Medical Research, Sydney, New South Wales 2010, Australia)
- Tony Pawson
(Samuel Lunenfeld Research Institute, Mount Sinai Hospital, 600 University Avenue, Toronto M5G 1X5, Canada
University of Toronto, Toronto M5S 1A8, Canada)
Abstract
Cell-surface receptors frequently use scaffold proteins to recruit cytoplasmic targets, but the rationale for this is uncertain. Activated receptor tyrosine kinases, for example, engage scaffolds such as Shc1 that contain phosphotyrosine (pTyr)-binding (PTB) domains. Using quantitative mass spectrometry, here we show that mammalian Shc1 responds to epidermal growth factor (EGF) stimulation through multiple waves of distinct phosphorylation events and protein interactions. After stimulation, Shc1 rapidly binds a group of proteins that activate pro-mitogenic or survival pathways dependent on recruitment of the Grb2 adaptor to Shc1 pTyr sites. Akt-mediated feedback phosphorylation of Shc1 Ser 29 then recruits the Ptpn12 tyrosine phosphatase. This is followed by a sub-network of proteins involved in cytoskeletal reorganization, trafficking and signal termination that binds Shc1 with delayed kinetics, largely through the SgK269 pseudokinase/adaptor protein. Ptpn12 acts as a switch to convert Shc1 from pTyr/Grb2-based signalling to SgK269-mediated pathways that regulate cell invasion and morphogenesis. The Shc1 scaffold therefore directs the temporal flow of signalling information after EGF stimulation.
Suggested Citation
Yong Zheng & Cunjie Zhang & David R. Croucher & Mohamed A. Soliman & Nicole St-Denis & Adrian Pasculescu & Lorne Taylor & Stephen A. Tate & W. Rod Hardy & Karen Colwill & Anna Yue Dai & Rick Bagshaw &, 2013.
"Temporal regulation of EGF signalling networks by the scaffold protein Shc1,"
Nature, Nature, vol. 499(7457), pages 166-171, July.
Handle:
RePEc:nat:nature:v:499:y:2013:i:7457:d:10.1038_nature12308
DOI: 10.1038/nature12308
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Cited by:
- Shaoshuai Tang & Yunzhi Wang & Rongkui Luo & Rundong Fang & Yufeng Liu & Hang Xiang & Peng Ran & Yexin Tong & Mingjun Sun & Subei Tan & Wen Huang & Jie Huang & Jiacheng Lv & Ning Xu & Zhenmei Yao & Qi, 2024.
"Proteomic characterization identifies clinically relevant subgroups of soft tissue sarcoma,"
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- Miroslav Blumenberg, 2014.
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- Michael J. Roy & Minglyanna G. Surudoi & Ashleigh Kropp & Jianmei Hou & Weiwen Dai & Joshua M. Hardy & Lung-Yu Liang & Thomas R. Cotton & Bernhard C. Lechtenberg & Toby A. Dite & Xiuquan Ma & Roger J., 2023.
"Structural mapping of PEAK pseudokinase interactions identifies 14-3-3 as a molecular switch for PEAK3 signaling,"
Nature Communications, Nature, vol. 14(1), pages 1-19, December.
- Hayarpi Torosyan & Michael D. Paul & Antoine Forget & Megan Lo & Devan Diwanji & Krzysztof Pawłowski & Nevan J. Krogan & Natalia Jura & Kliment A. Verba, 2023.
"Structural insights into regulation of the PEAK3 pseudokinase scaffold by 14-3-3,"
Nature Communications, Nature, vol. 14(1), pages 1-17, December.
- Ana Martinez-Val & Dorte B. Bekker-Jensen & Sophia Steigerwald & Claire Koenig & Ole Østergaard & Adi Mehta & Trung Tran & Krzysztof Sikorski & Estefanía Torres-Vega & Ewa Kwasniewicz & Sólveig Hlín B, 2021.
"Spatial-proteomics reveals phospho-signaling dynamics at subcellular resolution,"
Nature Communications, Nature, vol. 12(1), pages 1-17, December.
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