Transforming Growth Factor β Controls the Directional Migration of Hepatocyte Cohorts by Modulating Their Adhesion to Fibronectin

Binamé, Fabien; Lassus, Patrice; Hibner, Urszula

doi:10.1091/mbc.e07-09-0967

Cited by 29 publications

(24 citation statements)

References 67 publications

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“…Our analysis and previous literature suggests that these two integrins are highly expressed in the liver and particularly in hepatocytes (supplementary material Fig. S4) (Binamé et al, 2008; Pinkse et al, 2004). These integrins are also implicated in mediating survival signaling in epithelial cells (Howlett et al, 1995; Liu Tsang et al, 2007).…”

Section: Resultssupporting

confidence: 74%

Type XVIII collagen is essential for survival during acute liver injury in mice

Duncan

Yang

Tanjore

et al. 2013

Disease Models &Amp; Mechanisms

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SUMMARYThe regenerative response to drug- and toxin-induced liver injury induces changes to the hepatic stroma, including the extracellular matrix. Although the extracellular matrix is known to undergo changes during the injury response, its impact on maintaining hepatocyte function and viability in this process remains largely unknown. We demonstrate that recovery from toxin-mediated injury is impaired in mice deficient in a key liver extracellular matrix molecule, type XVIII collagen, and results in rapid death. The type-XVIII-collagen-dependent response to liver injury is mediated by survival signals induced by α1β1 integrin, integrin linked kinase and the Akt pathway, and mice deficient in either α1β1 integrin or hepatocyte integrin linked kinase also succumb to toxic liver injury. These findings demonstrate that type XVIII collagen is an important functional component of the liver matrix microenvironment and is crucial for hepatocyte survival during injury and stress.

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Section: Resultssupporting

confidence: 74%

Type XVIII collagen is essential for survival during acute liver injury in mice

Duncan

Yang

Tanjore

et al. 2013

Disease Models &Amp; Mechanisms

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“…Changes in cell shape are classically governed by Rho GTPase signaling (reviewed in Binamé et al, 2010). While we detected no impact of RhoA or ROCK on the two types of organoids described here, it is of interest that BMEL cells cultured on top of a compliant layer of Matrigel organize into cohorts partially embedded in the matrix, whose organization differs from the fully embedded organoids described here, in particular in respect to localized Rac1 signaling (Biname et al, 2008).…”

Section: Effect Of Geometrical Constraintscontrasting

confidence: 53%

Cell shape and TGF‐β signaling define the choice of lineage during in vitro differentiation of mouse primary hepatic precursors

Akkari¹,

Haouzi²,

Binamé³

et al. 2010

Journal Cellular Physiology

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Cellular differentiation relies on both physical and chemical environmental cues. The bipotential mouse embryonic liver (BMEL) cells are early progenitors of liver epithelial cells with an apparently infinite proliferative potential. These cells, which remain undifferentiated in a monolayer culture, differentiate upon release from geometrical constraints imposed by growth on a stiff plastic plate. In a complex three dimensional environment of a Matrigel extracellular matrix, BMEL cells form two types of polarized organoids of distinct morphologies: cyst-like structures suggesting cholangiocyte-type organization or complex organoids, reminiscent of liver parenchyma and associated with acquisition of hepatocyte-specific phenotypic markers. The choice of the in vitro differentiation lineage is governed by Transforming Growth Factor-beta (TGF-beta) signaling. Our results suggest that morphological cues initiate the differentiation of early hepatic precursors and confirm the inhibitory role of TGF-beta on hepatocytic lineage differentiation.

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“…Depletion of this critical cytoskeletal linker was shown to decrease TGFβ and Ras/ERK signaling through novel mechanisms [4], [64], [65]. Further, mutations that affect Ezrin binding proteins have been shown to dominantly suppress both activation of TGFβ and FN production [63].…”

Section: Discussionmentioning

confidence: 99%

“…Various cellular events are known to be associated with this increased potential for malignant cells to spread to local and distant sites. Among these events are elevated expression or activity of signaling components and cellular scaffolds [2], [4]. However, a complete understanding of the highly integrated network of signaling pathways and complexes relevant to the cell migration and invasion process is still lacking and often depends on the tissue of origin, as well as on the precise combination of oncogenically active alterations that prevail.…”

Section: Introductionmentioning

confidence: 99%

Decreased Tumor Progression and Invasion by a Novel Anti-Cell Motility Target for Human Colorectal Carcinoma Cells

et al. 2013

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We have previously described a novel modulator of the actin cytoskeleton that also regulates Ras and mitogen-activated protein kinase activities in TGFβ-sensitive epithelial cells. Here we examined the functional role of this signaling regulatory protein (km23-1) in mediating the migration, invasion, and tumor growth of human colorectal carcinoma (CRC) cells. We show that small interfering RNA (siRNA) depletion of km23-1 in human CRC cells inhibited constitutive extracellular signal-regulated kinase (ERK) activation, as well as pro-invasive ERK effector functions that include phosphorylation of Elk-1, constitutive regulation of c-Fos-DNA binding, TGFβ1 promoter transactivation, and TGFβ1 secretion. In addition, knockdown of km23-1 reduced the paracrine effects of CRC cell-secreted factors in conditioned medium and in fibroblast co-cultures. Moreover, km23-1 depletion in human CRC cells reduced cell migration and invasion, as well as expression of the ERK-regulated, metastasis-associated scaffold protein Ezrin. Finally, km23-1 inhibition significantly suppressed tumor formation in vivo. Thus, our results implicate km23-1 as a novel anti-metastasis target for human colon carcinoma cells, capable of decreasing tumor growth and invasion via a mechanism involving suppression of various pro-migratory features of CRC. These include a reduction in ERK signaling, diminished TGFβ1 production, decreased expression of the plasma membrane-cytoskeletal linker Ezrin, as well as attenuation of the paracrine effects of colon carcinoma-secreted factors on fibroblast migration and mitogenesis. As such, km23-1 inhibitors may represent a viable therapeutic strategy for interfering with colon cancer progression and invasion.

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Transforming Growth Factor β Controls the Directional Migration of Hepatocyte Cohorts by Modulating Their Adhesion to Fibronectin

Cited by 29 publications

References 67 publications

Type XVIII collagen is essential for survival during acute liver injury in mice

Type XVIII collagen is essential for survival during acute liver injury in mice

Cell shape and TGF‐β signaling define the choice of lineage during in vitro differentiation of mouse primary hepatic precursors

Decreased Tumor Progression and Invasion by a Novel Anti-Cell Motility Target for Human Colorectal Carcinoma Cells

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