Contingent phosphorylation/dephosphorylation provides a mechanism of molecular memory in WASP

Eduardo Torres; Michael K. Rosen

doi:10.1016/S1097-2765(03)00139-4

Contingent phosphorylation/dephosphorylation provides a mechanism of molecular memory in WASP

Eduardo Torres, Michael K. Rosen

Research output: Contribution to journal › Article › peer-review

143 Scopus citations

Abstract

Cells can retain information about previous stimuli to produce distinct future responses. The biochemical mechanisms by which this is achieved are not well understood. The Wiskott-Aldrich syndrome protein (WASP) is an effector of the Rho-family GTPase Cdc42, whose activation leads to stimulation of the actin nucleating assembly, Arp2/3 complex. We demonstrate that efficient phosphorylation and dephosphorylation of WASP at Y291 are both contingent on binding to activated Cdc42. Y291 phosphorylation increases the basal activity of WASP toward Arp2/3 complex and enables WASP activation by new stimuli, SH2 domains of Src-family kinases. The requirement for contingency in both phosphorylation and dephosphorylation enables long-term storage of information by WASP following decay of GTPase signals. This biochemical circuitry allows WASP to respond to the levels and timing of GTPase and kinase signals. It provides mechanisms to specifically achieve transient or persistent actin remodeling, as well as long-lasting potentiation of actin-based responses to kinases.

Original language	English (US)
Pages (from-to)	1215-1227
Number of pages	13
Journal	Molecular cell
Volume	11
Issue number	5
DOIs	https://doi.org/10.1016/S1097-2765(03)00139-4
State	Published - May 1 2003

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/S1097-2765(03)00139-4

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title = "Contingent phosphorylation/dephosphorylation provides a mechanism of molecular memory in WASP",

abstract = "Cells can retain information about previous stimuli to produce distinct future responses. The biochemical mechanisms by which this is achieved are not well understood. The Wiskott-Aldrich syndrome protein (WASP) is an effector of the Rho-family GTPase Cdc42, whose activation leads to stimulation of the actin nucleating assembly, Arp2/3 complex. We demonstrate that efficient phosphorylation and dephosphorylation of WASP at Y291 are both contingent on binding to activated Cdc42. Y291 phosphorylation increases the basal activity of WASP toward Arp2/3 complex and enables WASP activation by new stimuli, SH2 domains of Src-family kinases. The requirement for contingency in both phosphorylation and dephosphorylation enables long-term storage of information by WASP following decay of GTPase signals. This biochemical circuitry allows WASP to respond to the levels and timing of GTPase and kinase signals. It provides mechanisms to specifically achieve transient or persistent actin remodeling, as well as long-lasting potentiation of actin-based responses to kinases.",

author = "Eduardo Torres and Rosen, {Michael K.}",

note = "Funding Information: We thank Dr. Annette Kim for first recognizing the potential importance of WASP phosphorylation at Y291. We thank Drs. Harry Higgs, Don Kaiser, and Tom Pollard for advice regarding purification of bovine Arp2/3 complex and actin; Dr. Gaya Amarasinghe for Lck expression in Sf9 cells; Ivan Haller and Bikash Pramanik for performing mass spectrometry analyses on phosphorylated WASP constructs; Dr. William Lowry for performing preliminary WASP phosphorylation experiments; Drs. Rama Ranganathan, Uri Alon, and Jan Burkhardt for exciting discussions regarding biochemical circuits and lymphocyte signaling; Dr. Yuh Min Chook for critical reading of the manuscript; and Dr. Christoph W{\"u}lfing for communicating results prior to publication. This work was supported by grants from the NIH (RO1 GM56322) and the Welch Foundation (Chemical Research Grant #I1544). Preliminary studies were performed at the Howard Hughes Medical Institute at the Memorial Sloan-Kettering Cancer Center.",

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N1 - Funding Information: We thank Dr. Annette Kim for first recognizing the potential importance of WASP phosphorylation at Y291. We thank Drs. Harry Higgs, Don Kaiser, and Tom Pollard for advice regarding purification of bovine Arp2/3 complex and actin; Dr. Gaya Amarasinghe for Lck expression in Sf9 cells; Ivan Haller and Bikash Pramanik for performing mass spectrometry analyses on phosphorylated WASP constructs; Dr. William Lowry for performing preliminary WASP phosphorylation experiments; Drs. Rama Ranganathan, Uri Alon, and Jan Burkhardt for exciting discussions regarding biochemical circuits and lymphocyte signaling; Dr. Yuh Min Chook for critical reading of the manuscript; and Dr. Christoph Wülfing for communicating results prior to publication. This work was supported by grants from the NIH (RO1 GM56322) and the Welch Foundation (Chemical Research Grant #I1544). Preliminary studies were performed at the Howard Hughes Medical Institute at the Memorial Sloan-Kettering Cancer Center.

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N2 - Cells can retain information about previous stimuli to produce distinct future responses. The biochemical mechanisms by which this is achieved are not well understood. The Wiskott-Aldrich syndrome protein (WASP) is an effector of the Rho-family GTPase Cdc42, whose activation leads to stimulation of the actin nucleating assembly, Arp2/3 complex. We demonstrate that efficient phosphorylation and dephosphorylation of WASP at Y291 are both contingent on binding to activated Cdc42. Y291 phosphorylation increases the basal activity of WASP toward Arp2/3 complex and enables WASP activation by new stimuli, SH2 domains of Src-family kinases. The requirement for contingency in both phosphorylation and dephosphorylation enables long-term storage of information by WASP following decay of GTPase signals. This biochemical circuitry allows WASP to respond to the levels and timing of GTPase and kinase signals. It provides mechanisms to specifically achieve transient or persistent actin remodeling, as well as long-lasting potentiation of actin-based responses to kinases.

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Contingent phosphorylation/dephosphorylation provides a mechanism of molecular memory in WASP

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