Temporal regulation of EGF signalling networks by the scaffold protein Shc1

Zheng, Yong; Zhang, Cunjie; Croucher, David R.; Soliman, Mohamed A.; St‐Denis, Nicole; Pasculescu, Adrian; Taylor, Lauren J.; Tate, Stephen; Hardy, W. Rod; Colwill, Karen; Dai, Anna Yue; Bagshaw, Richard D.; Dennis, James W.; Gingras, Anne‐Claude; Daly, Roger J.; Pawson, Tony

doi:10.1038/nature12308

Nature

2013

DOI: 10.1038/nature12308

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Temporal regulation of EGF signalling networks by the scaffold protein Shc1

Yong Zheng

Cunjie Zhang

David R. Croucher

et al.

Abstract: Cell-surface receptors frequently employ 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, we find that Shc1 responds to epidermal growth factor (EGF) stimulation through multiple waves of distinct phosphorylation events and protein interactions. Following stimulation, Shc1 rapidly binds a group … Show more

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Cited by 257 publications

(354 citation statements)

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“…Manipulating components within the network experimentally and computationally has uncovered many features of the system that influence behaviors such as proliferation and survival (4)(5)(6). With many phenotypic responses occurring on the order of hours to days, most phosphorylation measurements have been on the timescale of minutes to hours, when phosphorylation levels are highest.…”

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Early signaling dynamics of the epidermal growth factor receptor

Reddy

Gajadhar

Swenson

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Despite extensive study of the EGF receptor (EGFR) signaling network, the immediate posttranslational changes that occur in response to growth factor stimulation remain poorly characterized; as a result, the biological mechanisms underlying signaling initiation remain obscured. To address this deficiency, we have used a mass spectrometry-based approach to measure system-wide phosphorylation changes throughout the network with 10-s resolution in the 80 s after stimulation in response to a range of eight growth factor concentrations. Significant changes were observed on proteins far downstream in the network as early as 10 s after stimulation, indicating a system capable of transmitting information quickly. Meanwhile, canonical members of the EGFR signaling network fall into clusters with distinct activation patterns. Src homology 2 domain containing transforming protein (Shc) and phosphoinositol 3-kinase (PI3K) phosphorylation levels increase rapidly, but equilibrate within 20 s, whereas proteins such as Grb2-associated binder-1 (Gab1) and SH2-containing tyrosine phosphatase (SHP2) show slower, sustained increases. Proximity ligation assays reveal that Shc and Gab1 phosphorylation patterns are representative of separate timescales for physical association with the receptor. Inhibition of phosphatases with vanadate reveals site-specific regulatory mechanisms and also uncovers primed activating components in the network, including Src family kinases, whose inhibition affects only a subset of proteins within the network. The results presented highlight the complexity of signaling initiation and provide a window into exploring mechanistic hypotheses about receptor tyrosine kinase (RTK) biology.signal transduction | tyrosine phosphorylation | epidermal growth factor receptor | mass spectrometry T he EGF receptor (EGFR) sits atop a complex signaling network that controls cell behavior in response to environmental cues. Cascades of posttranslational modifications initiated from EGFR, notably phosphorylation on tyrosine, serine, and threonine, influence protein-protein interactions and enzymatic activity to activate transcriptional programs that regulate proliferation, differentiation, and apoptosis (1). Mutation or overexpression of EGFR has been identified as an oncogenic driver for many tumor types, making it an attractive target for anticancer therapies (2).Building on decades of specific characterization using traditional biochemistry techniques, platforms such as protein microarrays and mass spectrometry have allowed systems biology to provide a comprehensive picture of intact and aberrant network behavior, which can be used to establish design criteria for therapeutic interventions (3). Manipulating components within the network experimentally and computationally has uncovered many features of the system that influence behaviors such as proliferation and survival (4-6). With many phenotypic responses occurring on the order of hours to days, most phosphorylation measurements have been on the timescale of minutes to...

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confidence: 99%

Early signaling dynamics of the epidermal growth factor receptor

Reddy

Gajadhar

Swenson

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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“…A whole cell cycle takes about 1 d (Granier and Tardieu, 1998;Granier et al, 2000), changes in cell wall properties take minutes to hours (Chazen and Neumann, 1994), and hydraulic processes occur over seconds to minutes (Ye and Steudle, 2006;Tang and Boyer, 2008;Parent et al, 2009). While analysis of time constants is a common method to identify the most likely mechanisms affecting time courses in physics (Kim et al, 2008;Knowles et al, 2009) or enzymology (Schweizer et al, 1998;Wang et al, 2007;Zheng et al, 2013), it is less common in studies of growth or of genomics applied to responses to environmental conditions. The progress of phenotyping now allows one to obtain a large number of time courses of LER, transpiration, and environmental conditions with a time step of minutes (Sadok et al, 2007), thereby making possible the use of this method.…”

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confidence: 99%

A Hydraulic Model Is Compatible with Rapid Changes in Leaf Elongation under Fluctuating Evaporative Demand and Soil Water Status

et al. 2014

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Plants are constantly facing rapid changes in evaporative demand and soil water content, which affect their water status and growth. In apparent contradiction to a hydraulic hypothesis, leaf elongation rate (LER) declined in the morning and recovered upon soil rehydration considerably quicker than transpiration rate and leaf water potential (typical half-times of 30 min versus 1–2 h). The morning decline of LER began at very low light and transpiration and closely followed the stomatal opening of leaves receiving direct light, which represent a small fraction of leaf area. A simulation model in maize (Zea mays) suggests that these findings are still compatible with a hydraulic hypothesis. The small water flux linked to stomatal aperture would be sufficient to decrease water potentials of the xylem and growing tissues, thereby causing a rapid decline of simulated LER, while the simulated water potential of mature tissues declines more slowly due to a high hydraulic capacitance. The model also captured growth patterns in the evening or upon soil rehydration. Changes in plant hydraulic conductance partly counteracted those of transpiration. Root hydraulic conductivity increased continuously in the morning, consistent with the transcript abundance of Zea maize Plasma Membrane Intrinsic Protein aquaporins. Transgenic lines underproducing abscisic acid, with lower hydraulic conductivity and higher stomatal conductance, had a LER declining more rapidly than wild-type plants. Whole-genome transcriptome and phosphoproteome analyses suggested that the hydraulic processes proposed here might be associated with other rapidly occurring mechanisms. Overall, the mechanisms and model presented here may be an essential component of drought tolerance in naturally fluctuating evaporative demand and soil moisture.

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“…Our labs have used it in over fifty very diverse projects that include large-scale mass spectrometry, RNAi, next-generation sequencing, imaging and animal models [13][14][15][16]. We typically use it in conjunction with complementary tools targeted to a particular experimental application (e.g., MaxQuant [4] and Proteome Discoverer (ThermoScientific) for mass spectrometry quantitation).…”

mentioning

confidence: 99%

“…In a recent paper involving MRM [16], CoreFlow was used to normalize all samples within a time course to the bait, examine reproducibility between samples, and cluster proteins with similar profiles (Fig. 2).…”

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CoreFlow: A computational platform for integration, analysis and modeling of complex biological data

Pasculescu

Schoof

Creixell

et al. 2014

Journal of Proteomics

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Temporal regulation of EGF signalling networks by the scaffold protein Shc1

Cited by 257 publications

References 40 publications

Early signaling dynamics of the epidermal growth factor receptor

Early signaling dynamics of the epidermal growth factor receptor

A Hydraulic Model Is Compatible with Rapid Changes in Leaf Elongation under Fluctuating Evaporative Demand and Soil Water Status

CoreFlow: A computational platform for integration, analysis and modeling of complex biological data

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