Feedback regulation of EGFR signalling: Decision making by early and delayed loops

Roi Avraham; Yosef Yarden

doi:10.1038/nrm3048

Feedback regulation of EGFR signalling: Decision making by early and delayed loops

Roi Avraham, Yosef Yarden

Department of Immunology and Regenerative Biology

Weizmann Institute of Science

Research output: Contribution to journal › Review article › peer-review

Abstract

Human-made information relay systems invariably incorporate central regulatory components, which are mirrored in biological systems by dense feedback and feedforward loops. This type of system control is exemplified by positive and negative feedback loops (for example, receptor endocytosis and dephosphorylation) that enable growth factors and receptor Tyr kinases of the epidermal growth factor receptor (EGFR)/ERBB family to regulate cellular function. Recent studies show that the collection of feedback regulatory loops can perform computational tasks - such as decoding ligand specificity, transforming graded input signals into a digital output and regulating response kinetics. Aberrant signal processing and feedback regulation can lead to defects associated with pathologies such as cancer.

Original language	English
Pages (from-to)	104-117
Number of pages	14
Journal	Nature Reviews Molecular Cell Biology
Volume	12
Issue number	2
DOIs	https://doi.org/10.1038/nrm3048
State	Published - Feb 2011

All Science Journal Classification (ASJC) codes

Molecular Biology
Cell Biology

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10.1038/nrm3048

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title = "Feedback regulation of EGFR signalling: Decision making by early and delayed loops",

abstract = "Human-made information relay systems invariably incorporate central regulatory components, which are mirrored in biological systems by dense feedback and feedforward loops. This type of system control is exemplified by positive and negative feedback loops (for example, receptor endocytosis and dephosphorylation) that enable growth factors and receptor Tyr kinases of the epidermal growth factor receptor (EGFR)/ERBB family to regulate cellular function. Recent studies show that the collection of feedback regulatory loops can perform computational tasks - such as decoding ligand specificity, transforming graded input signals into a digital output and regulating response kinetics. Aberrant signal processing and feedback regulation can lead to defects associated with pathologies such as cancer.",

author = "Roi Avraham and Yosef Yarden",

note = "National Cancer Institute; European Commission; German Research Foundation (DFG); Medical Research Foundation; Kekst Family Institute for Medical Genetics; Kirk Center for Childhood Cancer and Immunological Disorders; Bennett-Pritzker Endowment Fund; Marvelle Koffler Program for Breast Cancer Research; M.D. Moross Institute for Cancer ResearchWe thank R. Milo and members of our laboratory for comments. Our laboratory is supported by research grants from the National Cancer Institute, the Seventh Framework Program (FP7) of the European Commission, the German Research Foundation (DFG), M. Adelson and S. G. Adelson of the Medical Research Foundation, the Kekst Family Institute for Medical Genetics, the Kirk Center for Childhood Cancer and Immunological Disorders, the Women's Health Research Center funded by Bennett-Pritzker Endowment Fund, the Marvelle Koffler Program for Breast Cancer Research and the M.D. Moross Institute for Cancer Research. Y.Y. is the incumbent of the Harold and Zelda Goldenberg Professorial Chair.",

year = "2011",

month = feb,

doi = "10.1038/nrm3048",

language = "الإنجليزيّة",

volume = "12",

pages = "104--117",

journal = "Nature Reviews Molecular Cell Biology",

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T2 - Decision making by early and delayed loops

AU - Avraham, Roi

AU - Yarden, Yosef

N1 - National Cancer Institute; European Commission; German Research Foundation (DFG); Medical Research Foundation; Kekst Family Institute for Medical Genetics; Kirk Center for Childhood Cancer and Immunological Disorders; Bennett-Pritzker Endowment Fund; Marvelle Koffler Program for Breast Cancer Research; M.D. Moross Institute for Cancer ResearchWe thank R. Milo and members of our laboratory for comments. Our laboratory is supported by research grants from the National Cancer Institute, the Seventh Framework Program (FP7) of the European Commission, the German Research Foundation (DFG), M. Adelson and S. G. Adelson of the Medical Research Foundation, the Kekst Family Institute for Medical Genetics, the Kirk Center for Childhood Cancer and Immunological Disorders, the Women's Health Research Center funded by Bennett-Pritzker Endowment Fund, the Marvelle Koffler Program for Breast Cancer Research and the M.D. Moross Institute for Cancer Research. Y.Y. is the incumbent of the Harold and Zelda Goldenberg Professorial Chair.

PY - 2011/2

Y1 - 2011/2

N2 - Human-made information relay systems invariably incorporate central regulatory components, which are mirrored in biological systems by dense feedback and feedforward loops. This type of system control is exemplified by positive and negative feedback loops (for example, receptor endocytosis and dephosphorylation) that enable growth factors and receptor Tyr kinases of the epidermal growth factor receptor (EGFR)/ERBB family to regulate cellular function. Recent studies show that the collection of feedback regulatory loops can perform computational tasks - such as decoding ligand specificity, transforming graded input signals into a digital output and regulating response kinetics. Aberrant signal processing and feedback regulation can lead to defects associated with pathologies such as cancer.

AB - Human-made information relay systems invariably incorporate central regulatory components, which are mirrored in biological systems by dense feedback and feedforward loops. This type of system control is exemplified by positive and negative feedback loops (for example, receptor endocytosis and dephosphorylation) that enable growth factors and receptor Tyr kinases of the epidermal growth factor receptor (EGFR)/ERBB family to regulate cellular function. Recent studies show that the collection of feedback regulatory loops can perform computational tasks - such as decoding ligand specificity, transforming graded input signals into a digital output and regulating response kinetics. Aberrant signal processing and feedback regulation can lead to defects associated with pathologies such as cancer.

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DO - 10.1038/nrm3048

M3 - مقالة مرجعية

SN - 1471-0072

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EP - 117

JO - Nature Reviews Molecular Cell Biology

JF - Nature Reviews Molecular Cell Biology

IS - 2

ER -

Feedback regulation of EGFR signalling: Decision making by early and delayed loops

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