Symmetry-Breaking Polarization Driven by a Cdc42p GEF-PAK Complex

Kozubowski, Lukasz; Saito, Koji; Johnson, Jayme; Howell, Audrey S.; Zyla, Trevin R.; Lew, Daniel J.

doi:10.1016/j.cub.2008.09.060

Cited by 221 publications

(287 citation statements)

References 40 publications

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“…Moreover, a recent biochemical analysis demonstrated that Pak interferes with the ability of an exchange factor beta-PIX to activate Rac (ten Klooster et al, 2006), suggesting a function for Pak as an upstream inhibitor of Rac function. Our analysis also fits with the observation that Paks can act downstream of Cdc42 to modulate Rac activation, without their being absolutely required for lamellipodial formation (Cau and Hall, 2005), with observations suggesting that Cdc42 inhibits Pak activity (Weisz Hubsman et al, 2007), and by the presence of both Pak and Cdc42 in a single complex that regulates polarity in yeast (Kozubowski et al, 2008). The effects of Paks on changes in the direction of cell migration, e.g., during neural growth cone turning (Ang et al, 2003;Hing et al, 1999;Newsome et al, 2000), may reflect a similar function for Paks in damping local actin polymerization to facilitate the necessary redistribution of actin filaments.…”

Section: Discussionsupporting

confidence: 86%

“…1). Interestingly, analogous studies in yeast have implicated Paks in the regulation of actin cytoskeletal polarity (Kozubowski et al, 2008). For example, germinating budding yeast cells lacking the Pak homolog Cla4 are unable to remodel their highly polarized actin cytoskeleton to undergo the normal switch from polar to isotropic growth (Kono et al, 2005), while Pak homolog Shk1/Orb6 in fission yeast cells is required for the switch from monopolar to bipolar growth (Sawin et al, 1999), and functions as part of a feedback loop in which polarized cytoskeletal organization helps to determine cell shape.…”

Section: Discussionmentioning

confidence: 91%

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Pak3 inhibits local actin filament formation to regulate global cell polarity

et al. 2009

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Section: Discussionsupporting

confidence: 86%

Section: Discussionmentioning

confidence: 91%

Pak3 inhibits local actin filament formation to regulate global cell polarity

et al. 2009

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“…Most have focused on positive feedback loops at the front of cells involving a number of specific signaling molecules, such as RhoGTPases and PI3K, and a global inhibitory component that prevents activity at multiple sites (65)(66)(67)(68)(69)(70)(71)(72)(73)(74)(75)(76)(77). An increasing number of studies have implicated events at the cell rear, such as the local inhibition of signaling activities and force generation through actin depolymerization or Myosin II (78)(79)(80)(81)(82).…”

Section: Discussionmentioning

confidence: 99%

Novel protein Callipygian defines the back of migrating cells

Swaney

Borleis

Iglesias

et al. 2015

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

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Asymmetric protein localization is essential for cell polarity and migration. We report a novel protein, Callipygian (CynA), which localizes to the lagging edge before other proteins and becomes more tightly restricted as cells polarize; additionally, it accumulates in the cleavage furrow during cytokinesis. CynA protein that is tightly localized, or "clustered," to the cell rear is immobile, but when polarity is disrupted, it disperses throughout the membrane and responds to uniform chemoattractant stimulation by transiently localizing to the cytosol. These behaviors require a pleckstrin homology-domain membrane tether and a WD40 clustering domain, which can also direct other membrane proteins to the back. Fragments of CynA lacking the pleckstrin homology domain, which are normally found in the cytosol, localize to the lagging edge membrane when coexpressed with full-length protein, showing that CynA clustering is mediated by oligomerization. Cells lacking CynA have aberrant lateral protrusions, altered leading-edge morphology, and decreased directional persistence, whereas those overexpressing the protein display exaggerated features of polarity. Consistently, actin polymerization is inhibited at sites of CynA accumulation, thereby restricting protrusions to the opposite edge. We suggest that the mutual antagonism between CynA and regions of responsiveness creates a positive feedback loop that restricts CynA to the rear and contributes to the establishment of the cell axis.chemotaxis | polarity | asymmetry | Dictyostelium | protein localization

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“…In the budding yeast Saccharomyces cerevisiae, cells develop only a single polarized site through a winner-take-all mechanism during bud emergence (Irazoqui et al, 2003;Kozubowski et al, 2008;Slaughter et al, 2009a;Wedlich-Soldner et al, 2004). However, a winner-take-all mechanism cannot explain how cells develop multiple polarized sites often observed in higher eukaryotes.…”

Section: Introductionmentioning

confidence: 99%

A novel interplay between GEFs orchestrates Cdc42 activity during cell polarity and cytokinesis

Hercyk

Rich

Das

2018

Preprint

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Cdc42, a conserved regulator of cell polarity, is activated by two GEFs, Gef1 and Scd1, in fission yeast. While gef1 and scd1 mutants exhibit distinct phenotypes, how they do so is unclear given that they activate the same GTPase. Using the GEF localization pattern during cytokinesis as a paradigm, we report a novel interplay between Gef1 and Scd1 that spatially modulates Cdc42. We find that Gef1 promotes Scd1 localization to the division site during cytokinesis and to the new end during polarized growth through the recruitment of the scaffold Scd2 via a Cdc42 feedforward pathway. Gef1-mediated Scd1 recruitment at the new end enables the transition from monopolar to bipolar growth. Reciprocally, Scd1 restricts Gef1 localization to prevent ectopic Cdc42 activation during cytokinesis to promote cell separation and during interphase to maintain cell shape. Our findings reveal an elegant regulatory pattern in which Gef1 establishes new sites of Scd1-mediated Cdc42 activity, while Scd1 restricts Gef1 to functional sites. We propose that crosstalk between GEFs is a conserved mechanism that orchestrates Cdc42 activation during complex cellular processes.Summary StatementCdc42 GEFs Gef1 and Scd1 crosstalk to fine-tune Cdc42 activity. This crosstalk promotes bipolar growth and maintains cell shape in fission yeast.

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Symmetry-Breaking Polarization Driven by a Cdc42p GEF-PAK Complex

Cited by 221 publications

References 40 publications

Pak3 inhibits local actin filament formation to regulate global cell polarity

Pak3 inhibits local actin filament formation to regulate global cell polarity

Novel protein Callipygian defines the back of migrating cells

A novel interplay between GEFs orchestrates Cdc42 activity during cell polarity and cytokinesis

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