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Journal ArticleDOI

Coordination of Rho GTPase activities during cell protrusion

Matthias Machacek1, Matthias Machacek2, Louis Hodgson3, Louis Hodgson4, Christopher Welch3, Hunter L. Elliott2, Olivier Pertz2, Olivier Pertz5, Perihan Nalbant6, Amy N. Abell3, Gary L. Johnson3, Klaus M. Hahn3, Gaudenz Danuser2 
Novartis1, Scripps Research Institute2, University of North Carolina at Chapel Hill3, Yeshiva University4, University of Basel5, University of Duisburg-Essen6
03 Sep 2009-Nature (Nature Publishing Group)-Vol. 461, Iss: 7260, pp 99-103
TL;DR: GTPase coordination in mouse embryonic fibroblasts is examined both through simultaneous visualization of two GTPase biosensors and using a ‘computational multiplexing’ approach capable of defining the relationships between multiple protein activities visualized in separate experiments, finding that RhoA is activated at the cell edge synchronous with edge advancement, whereas Cdc42 and Rac1 are activated 2 μm behind the edge with a delay of 40 s.
Abstract: The GTPases Rac1, RhoA and Cdc42 act together to control cytoskeleton dynamics. Recent biosensor studies have shown that all three GTPases are activated at the front of migrating cells, and biochemical evidence suggests that they may regulate one another: Cdc42 can activate Rac1 (ref. 8), and Rac1 and RhoA are mutually inhibitory. However, their spatiotemporal coordination, at the seconds and single-micrometre dimensions typical of individual protrusion events, remains unknown. Here we examine GTPase coordination in mouse embryonic fibroblasts both through simultaneous visualization of two GTPase biosensors and using a 'computational multiplexing' approach capable of defining the relationships between multiple protein activities visualized in separate experiments. We found that RhoA is activated at the cell edge synchronous with edge advancement, whereas Cdc42 and Rac1 are activated 2 micro-m behind the edge with a delay of 40 s. This indicates that Rac1 and RhoA operate antagonistically through spatial separation and precise timing, and that RhoA has a role in the initial events of protrusion, whereas Rac1 and Cdc42 activate pathways implicated in reinforcement and stabilization of newly expanded protrusions.

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Citations
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Journal ArticleDOI
Cell adhesion: integrating cytoskeletal dynamics and cellular tension

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J. Thomas Parsons1, Alan Rick Horwitz1, Martin A. Schwartz1
University of Virginia1
01 Sep 2010-Nature Reviews Molecular Cell Biology
TL;DR: Adhesion formation and disassembly drive the migration cycle by activating Rho GTPases, which in turn regulate actin polymerization and myosin II activity, and therefore adhesion dynamics.
Abstract: Cell migration affects all morphogenetic processes and contributes to numerous diseases, including cancer and cardiovascular disease. For most cells in most environments, movement begins with protrusion of the cell membrane followed by the formation of new adhesions at the cell front that link the actin cytoskeleton to the substratum, generation of traction forces that move the cell forwards and disassembly of adhesions at the cell rear. Adhesion formation and disassembly drive the migration cycle by activating Rho GTPases, which in turn regulate actin polymerization and myosin II activity, and therefore adhesion dynamics.

1,775 citations

Journal ArticleDOI
Exome sequencing identifies recurrent somatic RAC1 mutations in melanoma.

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Michael Krauthammer1, Yong Lin Kong1, Byung Hak Ha1, Perry Evans1, Antonella Bacchiocchi1, James P. McCusker1, Elaine Cheng1, Matthew J. Davis1, Gerald Goh1, Murim Choi1, Stephan Ariyan1, Deepak Narayan1, Ken Dutton-Regester2, Ken Dutton-Regester3, Ana Capatana1, Edna C. Holman1, Marcus Bosenberg1, Mario Sznol1, Harriet M. Kluger1, Douglas E. Brash1, David F. Stern1, Miguel A. Materin1, Roger S. Lo4, Shrikant Mane1, Shuangge Ma1, Kenneth K. Kidd1, Nicholas K. Hayward3, Richard P. Lifton1, Joseph Schlessinger1, Titus J. Boggon1, Ruth Halaban1 
Yale University1, Queensland University of Technology2, QIMR Berghofer Medical Research Institute3, University of California, Los Angeles4
01 Sep 2012-Nature Genetics
TL;DR: In this article, the authors characterized the mutational landscape of melanoma, the form of skin cancer with the highest mortality rate, by sequencing the exomes of 147 melanomas and found that sun-exposed melanomas had markedly more ultraviolet-like C>T somatic mutations compared to sun-shielded acral, mucosal and uveal melanomas.
Abstract: We characterized the mutational landscape of melanoma, the form of skin cancer with the highest mortality rate, by sequencing the exomes of 147 melanomas Sun-exposed melanomas had markedly more ultraviolet (UV)-like C>T somatic mutations compared to sun-shielded acral, mucosal and uveal melanomas Among the newly identified cancer genes was PPP6C, encoding a serine/threonine phosphatase, which harbored mutations that clustered in the active site in 12% of sun-exposed melanomas, exclusively in tumors with mutations in BRAF or NRAS Notably, we identified a recurrent UV-signature, an activating mutation in RAC1 in 92% of sun-exposed melanomas This activating mutation, the third most frequent in our cohort of sun-exposed melanoma after those of BRAF and NRAS, changes Pro29 to serine (RAC1P29S) in the highly conserved switch I domain Crystal structures, and biochemical and functional studies of RAC1P29S showed that the alteration releases the conformational restraint conferred by the conserved proline, causes an increased binding of the protein to downstream effectors, and promotes melanocyte proliferation and migration These findings raise the possibility that pharmacological inhibition of downstream effectors of RAC1 signaling could be of therapeutic benefit

1,024 citations

Journal ArticleDOI
Life at the Leading Edge

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Anne J. Ridley1
Randall Division of Cell and Molecular Biophysics1
24 Jun 2011-Cell
TL;DR: Four distinct protrusion methods likely act in concert to move cells through complex environments in vivo and require the coordination of a wide spectrum of signaling molecules and regulators of cytoskeletal dynamics.

894 citations

Cites background from "Coordination of Rho GTPase activiti..."

  • ...This function of Rac could explain why Rac is most active slightly further back in the lamellipodium than RhoA (Machacek et al., 2009), although RhoA/ROCK can also phosphorylate and inhibit cofilin/ADF (Bernard, 2007)....

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  • ...Using biosensors, active Rac1, RhoA, and Cdc42 have been shown to localize in lamellipodia during protrusion (Machacek et al., 2009)....

    [...]

Journal ArticleDOI
Amiloride inhibits macropinocytosis by lowering submembranous pH and preventing Rac1 and Cdc42 signaling

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Mirkka Koivusalo, Christopher Welch1, Hisayoshi Hayashi2, Cameron C. Scott3, Moshe Kim, R. Todd Alexander4, Nicolas Touret4, Klaus M. Hahn1, Sergio Grinstein 
University of North Carolina at Chapel Hill1, University of Shizuoka2, University of Geneva3, University of Alberta4
22 Feb 2010-Journal of Cell Biology
TL;DR: Inhibitors of Na+/H+ exchange proteins block macropinocytosis by lowering the pH near the plasma membrane, which in turn inhibits actin remodeling by Rho family GTPases.
Abstract: Macropinocytosis is differentiated from other types of endocytosis by its unique susceptibility to inhibitors of Na+/H+ exchange. Yet, the functional relationship between Na+/H+ exchange and macropinosome formation remains obscure. In A431 cells, stimulation by EGF simultaneously activated macropinocytosis and Na+/H+ exchange, elevating cytosolic pH and stimulating Na+ influx. Remarkably, although inhibition of Na+/H+ exchange by amiloride or HOE-694 obliterated macropinocytosis, neither cytosolic alkalinization nor Na+ influx were required. Instead, using novel probes of submembranous pH, we detected the accumulation of metabolically generated acid at sites of macropinocytosis, an effect counteracted by Na+/H+ exchange and greatly magnified when amiloride or HOE-694 were present. The acidification observed in the presence of the inhibitors did not alter receptor engagement or phosphorylation, nor did it significantly depress phosphatidylinositol-3-kinase stimulation. However, activation of the GTPases that promote actin remodelling was found to be exquisitely sensitive to the submembranous pH. This sensitivity confers to macropinocytosis its unique susceptibility to inhibitors of Na+/H+ exchange.

746 citations

Cites background or methods from "Coordination of Rho GTPase activiti..."

  • ...…4 • 2010 560 CFP variant optimized for FRET (Nguyen and Daugherty, 2005), and either the CRIB domain from p21-activated kinase (PBD) published previously (Machacek et al., 2009) or the Cdc42-binding CRIB domain from WASP (CBD), amino acids 230–314, fused to the C terminus of YPet, a YFP variant…...

    [...]

  • ..., 2003; Hoppe and Swanson, 2004), but here is further optimized by the use of different fluorescent proteins and of a Cdc42-binding domain from WASP, a fragment shown to provide good selectivity for activated Cdc42 in a previously developed biosensor with a different design (Nalbant et al., 2004; Frantz et al., 2007; Machacek et al., 2009)....

    [...]

  • ...JCB • VOLUME 188 • NUMBER 4 • 2010 560 CFP variant optimized for FRET (Nguyen and Daugherty, 2005), and either the CRIB domain from p21-activated kinase (PBD) published previously (Machacek et al., 2009) or the Cdc42-binding CRIB domain from WASP (CBD), amino acids 230–314, fused to the C terminus of YPet, a YFP variant optimized for FRET (Nguyen and Daugherty, 2005)....

    [...]

  • ...The Rac1 FRET biosensor was reported previously (Kraynov et al., 2000; Machacek et al., 2009), and here includes modifications to improve FRET efficiency reported in Machacek et al. (2009)....

    [...]

  • ...…is further optimized by the use of different fluorescent proteins and of a Cdc42-binding domain from WASP, a fragment shown to provide good selectivity for activated Cdc42 in a previously developed biosensor with a different design (Nalbant et al., 2004; Frantz et al., 2007; Machacek et al., 2009)....

    [...]

Journal ArticleDOI
Rho GTPase signalling in cell migration.

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Anne J. Ridley1
Randall Division of Cell and Molecular Biophysics1
01 Oct 2015-Current Opinion in Cell Biology
TL;DR: Recent advances in understanding of how Rho GTPases contribute to different types of migration are reviewed, comparing lamellipodium-driven versus bleb-driven migration modes and how cells migrate across the endothelium is described.

619 citations

Cites background from "Coordination of Rho GTPase activiti..."

  • ...In addition to Rac, RhoA and Cdc42 are active in lamellipodial regions and contribute to lamellipodium extension [23,24]....

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References
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Journal ArticleDOI
Cell migration: integrating signals from front to back.

[...]

Anne J. Ridley1, Martin A. Schwartz2, Keith Burridge3, Richard A. Firtel4, Mark H. Ginsberg5, Gary G. Borisy6, J. Thomas Parsons2, Alan Rick Horwitz2 
Ludwig Institute for Cancer Research1, University of Virginia2, University of North Carolina at Chapel Hill3, University of California, San Diego4, Scripps Research Institute5, Northwestern University6
05 Dec 2003-Science
TL;DR: The mechanisms underlying the major steps of migration and the signaling pathways that regulate them are described, and recent advances investigating the nature of polarity in migrating cells and the pathways that establish it are outlined.
Abstract: Cell migration is a highly integrated multistep process that orchestrates embryonic morphogenesis; contributes to tissue repair and regeneration; and drives disease progression in cancer, mental retardation, atherosclerosis, and arthritis. The migrating cell is highly polarized with complex regulatory pathways that spatially and temporally integrate its component processes. This review describes the mechanisms underlying the major steps of migration and the signaling pathways that regulate them, and outlines recent advances investigating the nature of polarity in migrating cells and the pathways that establish it.

4,839 citations

Journal ArticleDOI
Rho, Rac, and Cdc42 GTPases regulate the assembly of multimolecular focal complexes associated with actin stress fibers, lamellipodia, and filopodia

[...]

Catherine D. Nobes1, Alan Hall1
University College London1
07 Apr 1995-Cell
TL;DR: It is reported here that cdc42, another member of the rho family, triggers the formation of a third type of actin-based structure found at the cell periphery, filopodia, in addition to stress fibers, and rho controls the assembly of focal adhesion complexes.

4,440 citations

Journal ArticleDOI
Rho GTPases: Biochemistry and Biology

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Aron B. Jaffe, Alan Hall1
University College London1
07 Oct 2005-Annual Review of Cell and Developmental Biology
TL;DR: This review presents the best characterized of these biochemical pathways that control some of the most fundamental processes of cell biology common to all eukaryotes, including morphogenesis, polarity, movement, and cell division.
Abstract: Approximately one percent of the human genome encodes proteins that either regulate or are regulated by direct interaction with members of the Rho family of small GTPases. Through a series of complex biochemical networks, these highly conserved molecular switches control some of the most fundamental processes of cell biology common to all eukaryotes, including morphogenesis, polarity, movement, and cell division. In the first part of this review, we present the best characterized of these biochemical pathways; in the second part, we attempt to integrate these molecular details into a biological context.

2,876 citations

Journal ArticleDOI
Rho and Rac Take Center Stage

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Keith Burridge1, Krister Wennerberg1
University of North Carolina at Chapel Hill1
23 Jan 2004-Cell
TL;DR: This work will describe how the activity of Rho proteins is regulated downstream from growth factor receptors and cell adhesion molecules by guanine nucleotide exchange factors and GTPase activating proteins.

1,792 citations

Journal ArticleDOI
Cell migration: Rho GTPases lead the way.

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Myrto Raftopoulou1, Alan Hall1
University College London1
01 Jan 2004-Developmental Biology
TL;DR: Rho GTPases control signal transduction pathways that link cell surface receptors to a variety of intracellular responses, and their role in cell migration is reviewed.

1,450 citations

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Cell migration: integrating signals from front to back.

[...]

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Rho GTPases: Biochemistry and Biology

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Rho, Rac, and Cdc42 GTPases regulate the assembly of multimolecular focal complexes associated with actin stress fibers, lamellipodia, and filopodia

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07 Apr 1995-Cell
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Rho GTPases in cell biology.

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