β2-syntrophin and Par-3 promote an apicobasal Rac activity gradient at cell–cell junctions by differentially regulating Tiam1 activity

Mack, Natalie A.; Porter, Andrew; Whalley, Helen J.; Schwarz, Juliane P.; Jones, Richard C.; Khaja, Azharuddin Sajid Syed; Bjartell, Anders; Anderson, Kurt I.; Malliri, Angeliki

doi:10.1038/ncb2608

Cited by 49 publications

(68 citation statements)

References 67 publications

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“…At tight junctions, Par-3 inactivates Tiam1-Rac1 signalling, while -syntrophindependent Tiam1 localization activates Rac1 more basally, thereby generating a gradient of localized signalling, with different functions for tight junctions or adherens junctions [87]. Similar restricted zone of GTPase activation at zonula adherens is reported for RhoA, where positioning of ROCK1 by myosin II maintains RhoA activation by antagonizing the recruitment of Rnd3/p190RhoGAP, thereby preventing localized RhoA inactivation [88].…”

Section: Different Hues Of the Same Colourmentioning

confidence: 78%

Spatial integration of E-cadherin adhesion, signalling and the epithelial cytoskeleton

Braga

2016

Current Opinion in Cell Biology

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Section: Different Hues Of the Same Colourmentioning

confidence: 78%

Spatial integration of E-cadherin adhesion, signalling and the epithelial cytoskeleton

Braga

2016

Current Opinion in Cell Biology

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“…Scale bars: 20 µm. β2-syntrophin was also shown to be crucial for junction assembly and apical-basal polarity in epithelial cells (Mack et al, 2012), thus syntrophins, as alternative scaffolds, might support Scribble in the junctional recruitment of DLC3. Biochemical experiments showed that the DLC3-Scribble interaction is mediated mainly by the Scribble PDZ3 domain, which also interacts with the planar cell polarity protein Vangl (Courbard et al, 2009).…”

Section: Discussionmentioning

confidence: 98%

“…Rac activation, for example, is controlled by the GEF protein Tiam, which itself is activated by the basolateral scaffold β2-Syntrophin and inhibited by apical Par3 (Mack et al, 2012;Mertens et al, 2005;Nishimura et al, 2005). Scribble contributes to spatially controlled Rho activation by targeting β-Pix (also known as ARHGEF7), a GEF for Rac and Cdc42 to adherens junctions to form a signaling complex with PAK2 regulating normal epithelial morphogenesis (Frank et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

The polarity protein Scribble positions DLC3 at adherens junctions to regulate Rho signaling

Hendrick

Franz‐Wachtel

Moeller

et al. 2016

Journal of Cell Science

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The spatial regulation of cellular Rho signaling by GAP proteins is still poorly understood. By performing mass spectrometry, we here identify the polarity protein Scribble as a scaffold for the RhoGAP protein DLC3 (also known as StarD8) at cell-cell adhesions. This mutually dependent interaction is mediated by the PDZ domains of Scribble and a PDZ ligand (PDZL) motif in DLC3. Both Scribble depletion and PDZL deletion abrogated DLC3 junctional localization. Using a RhoA biosensor and a targeted GAP domain, we demonstrate that DLC3 activity locally regulates RhoA-ROCK signaling at and Scribble localization to adherens junctions, and is required for their functional integrity. In a 3D model of cyst development, we furthermore show that DLC3 depletion impairs polarized morphogenesis, phenocopying the effects observed upon Scribble knockdown. We thus propose a new function for Scribble in Rho regulation that entails positioning of DLC3 GAP activity at cell junctions in polarized epithelial cells.

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“…RhoA is active at contacts between NC cells (CarmonaFontaine et al, 2008) and ROCK phosphorylation of Par3 has been shown to disrupt formation of the Par3-aPKC-Par6 complex, through which Par3 often acts (Nakayama et al, 2008). However, ROCK phosphorylation of Par3 does not affect Par3-Tiam2 interactions (Nakayama et al, 2008), suggesting that Par3 is likely to regulate RacGEFs independently of its involvement in the Par complex, as has been shown for the regulation of Rac by Par3 in embryonic kidney cells (Mack et al, 2012).…”

Section: Research Articlementioning

confidence: 97%

“…Par3 promotes the maturation of the cell adhesion complex and has been linked to the regulation of microtubule dynamics and Rac1 activity through interaction with the Rac-GEF Tiam1 (Chen et al, 2013;Chen and Macara, 2005;Mack et al, 2012;Mertens et al, 2005;Mishima et al, 2002;Xue et al, 2013). In epithelial cells, Par3 associates with cell-cell adhesion complexes and appears to be important for establishing apicobasal polarity; however, whether Par3 controls PCP during CIL remains to be investigated.…”

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confidence: 99%

Par3 controls neural crest migration by promoting microtubule catastrophe during contact inhibition of locomotion

et al. 2013

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There is growing evidence that contact inhibition of locomotion (CIL) is essential for morphogenesis and its failure is thought to be responsible for cancer invasion; however, the molecular bases of this phenomenon are poorly understood. Here we investigate the role of the polarity protein Par3 in CIL during migration of the neural crest, a highly migratory mesenchymal cell type. In epithelial cells, Par3 is localised to the cell-cell adhesion complex and is important in the definition of apicobasal polarity, but the localisation and function of Par3 in mesenchymal cells are not well characterised. We show in Xenopus and zebrafish that Par3 is localised to the cell-cell contact in neural crest cells and is essential for CIL. We demonstrate that the dynamics of microtubules are different in different parts of the cell, with an increase in microtubule catastrophe at the collision site during CIL. Par3 loss-of-function affects neural crest migration by reducing microtubule catastrophe at the site of cell-cell contact and abrogating CIL. Furthermore, Par3 promotes microtubule catastrophe by inhibiting the Rac-GEF Trio, as double inhibition of Par3 and Trio restores microtubule catastrophe at the cell contact and rescues CIL and neural crest migration. Our results demonstrate a novel role of Par3 during neural crest migration, which is likely to be conserved in other processes that involve CIL such as cancer invasion or cell dispersion.

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β2-syntrophin and Par-3 promote an apicobasal Rac activity gradient at cell–cell junctions by differentially regulating Tiam1 activity

Cited by 49 publications

References 67 publications

Spatial integration of E-cadherin adhesion, signalling and the epithelial cytoskeleton

Spatial integration of E-cadherin adhesion, signalling and the epithelial cytoskeleton

The polarity protein Scribble positions DLC3 at adherens junctions to regulate Rho signaling

Par3 controls neural crest migration by promoting microtubule catastrophe during contact inhibition of locomotion

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