Andrew Gilmore scite author profile

Vinculin, a prominent cytoskeletal protein at cell-substrate adhesions (focal adhesions) and cell-cell adhesions (adherens junctions), interacts with other cytoskeletal proteins, including talin and actin. An intramolecular interaction between the head and tail domains of vinculin masks the binding sites for both proteins. The exposure of cryptic binding sites may be important for promoting focal adhesion assembly. Several agents that induce the formation of focal adhesions act through the GTP-binding protein Rho, which elevates phosphatidylinositol-4,5-bisphosphate (PtdInsP2) levels by activating phosphatidyl-inositol-4-phosphate-5-OH kinase (PtdIns-5-OH kinase). PtdInsP2 regulates several actin-binding proteins, including profilin, gelsolin and alpha-actinin, and interacts with vinculin. Here we report that PtdInsP2 dissociates vinculin's head-tail interaction, unmasking its talin- and actin-binding sites. Microinjection of antibodies against PtdInsP2 inhibit assembly of stress fibres and focal adhesions.

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Inhibition of focal adhesion kinase (FAK) signaling in focal adhesions decreases cell motility and proliferation.

Gilmore

Romer

1996

MBoC

476

379

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It has been proposed that the focal adhesion kinase (FAK) mediates focal adhesion formation through tyrosine phosphorylation during cell adhesion. We investigated the role of FAK in focal adhesion structure and function. Loading cells with a glutathione-S-transferase fusion protein (GST-Cterm) containing the FAK focal adhesion targeting sequence, but not the kinase domain, decreased the association of endogenous FAK with focal adhesions. This displacement of endogenous FAK in both BALB/c 3T3 cells and human umbilical vein endothelial cells loaded with GST-Cterm decreased focal adhesion phosphotyrosine content. Neither cell type, however, exhibited a reduction in focal adhesions after GST-Cterm loading. These results indicate that FAK mediates adhesion-associated tyrosine phosphorylation, but not the formation of focal adhesions. We then examined the effect of inhibiting FAK function on other adhesion-dependent cell behavior. Cells microinjected with GST-Cterm exhibited decreased migration. In addition, cells injected with GST-Cterm had decreased DNA synthesis compared with control-injected or noninjected cells. These findings suggest that FAK functions in the regulation of cell migration and cell proliferation.

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Integrin-Mediated Survival Signals Regulate the Apoptotic Function of Bax through Its Conformation and Subcellular Localization

et al. 2000

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Most normal cells require adhesion to extracellular matrix for survival, but the molecular mechanisms that link cell surface adhesion events to the intracellular apoptotic machinery are not understood. Bcl-2 family proteins regulate apoptosis induced by a variety of cellular insults through acting on internal membranes. A pro-apoptotic Bcl-2 family protein, Bax, is largely present in the cytosol of many cells, but redistributes to mitochondria after treatment with apoptosis-inducing drugs. Using mammary epithelial cells as a model for adhesion-regulated survival, we show that detachment from extracellular matrix induced a rapid translocation of Bax to mitochondria concurrent with a conformational change resulting in the exposure of its BH3 domain. Bax translocation and BH3 epitope exposure were reversible and occurred before caspase activation and apoptosis. Pp125FAK regulated the conformation of the Bax BH3 epitope, and PI 3-kinase and pp60src prevented apoptosis induced by defective pp125FAK signaling. Our results provide a mechanistic connection between integrin-mediated adhesion and apoptosis, through the kinase-regulated subcellular distribution of Bax.

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Bcl-2 proteins and mitochondria—Specificity in membrane targeting for death

Lindsay

Esposti

Gilmore

2011

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

297

240

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The localization and control of Bcl-2 proteins on mitochondria is essential for the intrinsic pathway of apoptosis. Anti-apoptotic Bcl-2 proteins reside on the outer mitochondrial membrane (OMM) and prevent apoptosis by inhibiting the activation of the pro-apoptotic family members Bax and Bak. The Bcl-2 subfamily of BH3-only proteins can either inhibit the anti-apoptotic proteins or directly activate Bax or Bak. How these proteins interact with each other, the mitochondrial surface and within the OMM are complex processes we are only beginning to understand. However, these interactions are fundamental for the transduction of apoptotic signals to mitochondria and the subsequent release of caspase activating factors into the cytosol. In this review we will discuss our knowledge of how Bcl-2 proteins are directed to mitochondria in the first place, a crucial but poorly understood aspect of their regulation. This article is part of a Special Issue entitled Mitochondria: the deadly organelle.

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Bad -deficient mice develop diffuse large B cell lymphoma

Ranger

Zha

Harada

et al. 2003

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

255

222

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The proapoptotic activity of the ''BH3-only'' molecule BAD can be differentially regulated by survival factor signaling. Bad-deficient mice lacking both BAD long and BAD short proteins proved viable, and most cell types appeared to develop normally. BAD did not exclusively account for cell death after withdrawal of survival factors, but it was an intermediate for epidermal growth factor-or insulin-like growth factor I-countered apoptosis, consistent with a ''sensitizing'' BH3-only molecule. Lymphocytes developed normally with no premalignant hyperplasia, but they displayed subtle abnormalities in proliferation and IgG production. Despite the minimal phenotype, Bad-deficient mice progressed, with aging, to diffuse large B cell lymphoma of germinal center origin. Exposure of Bad-null mice to sublethal ␥-irradiation resulted in an increased incidence of pre-T cell and pro-͞pre-B cell lymphoblastic leukemia͞ lymphoma. Thus, proapoptotic BAD suppresses tumorigenesis in the lymphocyte lineage.

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Bax Exists in a Dynamic Equilibrium between the Cytosol and Mitochondria to Control Apoptotic Priming

et al. 2013

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SummaryThe proapoptotic Bcl-2 protein Bax is predominantly found in the cytosol of nonapoptotic cells and is commonly thought to translocate to mitochondria following an apoptotic stimulus. The current model for Bax activation is that BH3 proteins bind to cytosolic Bax, initiating mitochondrial targeting and outer-membrane permeabilization. Here, we challenge this and show that Bax is constitutively targeted to mitochondria but in nonapoptotic cells is constantly translocated back to the cytosol. Using live-cell spinning-disk confocal imaging with a combination of FLIP, FRAP, and photoactivatable GFP-Bax, we demonstrate that disrupting adhesion-dependent survival signals slows the rate of Bax’s dissociation from mitochondria, leading to its accumulation on the outer mitochondrial membrane. The overall accumulation of mitochondrial Bax following loss of survival signaling sensitizes cells to proapoptotic BH3 proteins. Our findings show that Bax is normally in a dynamic equilibrium between cytosol and mitochondria, enabling fluctuations in survival signals to finely adjust apoptotic sensitivity.

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Spatial and temporal changes in Bax subcellular localization during anoikis

et al. 2003

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Bax, a member of the Bcl-2 family, translocates to mitochondria during apoptosis, where it forms oligomers which are thought to release apoptogenic factors such as cytochrome c. Using anoikis as a model system, we have examined spatial and temporal changes in Bax distribution. Bax translocates to mitochondria within 15 min of detaching cells from extracellular matrix, but mitochondrial permeabilization does not occur for a number of hours. The formation of Bax oligomers and perimitochondrial clusters occurs concomitant with caspase activation and loss of mitochondrial membrane potential, before nuclear condensation. Cells can be rescued from apoptosis if they are replated onto extracellular matrix within an hour, whereas cells detached for longer could not. The loss of ability to rescue cells from anoikis occurs after Bax translocation, but before the formation of clusters and cytochrome c release. Our data suggest that Bax regulation occurs at several levels, with formation of clusters a late event, and with critical changes determining cell fate occurring earlier.

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Andrew Gilmore

Anoikis

Regulation of vinculin binding to talin and actin by phosphatidyl-inositol-4-5-bisphosphate

Inhibition of focal adhesion kinase (FAK) signaling in focal adhesions decreases cell motility and proliferation.

Integrin-Mediated Survival Signals Regulate the Apoptotic Function of Bax through Its Conformation and Subcellular Localization

Bcl-2 proteins and mitochondria—Specificity in membrane targeting for death

Bad -deficient mice develop diffuse large B cell lymphoma

Bax Exists in a Dynamic Equilibrium between the Cytosol and Mitochondria to Control Apoptotic Priming

Spatial and temporal changes in Bax subcellular localization during anoikis

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