Syndecan-4 Deficiency Impairs Focal Adhesion Formation Only under Restricted Conditions

Ishiguro, Kazuhiro; Kadomatsu, Kenji; Kojima, Tetsuhito; Muramatsu, Hisako; Tsuzuki, Shinobu; Nakamura, Eishin; Kusugami, Kazuo; Saito, Hidehiko; Muramatsu, Takashi

doi:10.1074/jbc.275.8.5249

Cited by 128 publications

(116 citation statements)

References 21 publications

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“…In line with previous work [21,[27][28][29], vinculin confocal immunofluorescence revealed fewer and smaller focal adhesions in fibroblasts from syndecan-4 -/-mice when compared to those from WT mice (Supplemental Figure S4) which may imply impaired focal adhesion signaling in cardiac fibroblasts from syndecan-4 -/-mice.…”

Section: Syndecan-4 and Calcineurin Co-localize In Cardiac Fibroblastssupporting

confidence: 91%

“…Fibroblasts will spontaneously differentiate into myofibroblasts when cultured on a fibronectin-coated rigid substrate due to effects of fibronectin on focal adhesion assembly [21] and increased mechanical tension compared to the in vivo situation [22]. We took advantage of this property and compared the expression of SMA and the percentage of cells exhibiting organized SMA fibers in WT and syndecan-4 -/-cardiac fibroblasts after 24 and 48 hrs of culture on fibronectin-coated glass cover slips (Figure 2A and B).…”

Section: Formation Of Smooth Muscle α-Actin Fibers Is Reduced In Syndmentioning

confidence: 99%

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Syndecan-4 signaling via NFAT regulates extracellular matrix production and cardiac myofibroblast differentiation in response to mechanical stress

Herum

Lunde

Skrbic

et al. 2013

Journal of Molecular and Cellular Cardiology

113

101

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Section: Syndecan-4 and Calcineurin Co-localize In Cardiac Fibroblastssupporting

confidence: 91%

Section: Formation Of Smooth Muscle α-Actin Fibers Is Reduced In Syndmentioning

confidence: 99%

Syndecan-4 signaling via NFAT regulates extracellular matrix production and cardiac myofibroblast differentiation in response to mechanical stress

Herum

Lunde

Skrbic

et al. 2013

Journal of Molecular and Cellular Cardiology

113

101

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“…Analysis of actin cytoskeleton organization over time shows that filopodia and lamellae are formed as early as 15 min and continue to extend up to 60 min (our unpublished results). On planar FN-coated substrates, both wild-type and syndecan-4 -deficient fibroblasts became well spread and formed stress fibers and focal adhesions (our unpublished results; Ishiguro et al, 2000;Echtermeyer et al, 2001). In contrast, syndecan-4 -null cells attached poorly and did not spread on 3D matrix composed of fibrin alone, similar to the behavior of NIH3T3 fibroblasts (Wenk et al, 2000), which indicates that the contribution of fibrin to the response is limited.…”

mentioning

confidence: 59%

“…On a surface coated with a mixture of cell-and heparin-binding (HepII) domains from FN, stress fibers terminating at focal adhesions were formed by these fibroblasts at levels comparable to intact FN (Ishiguro et al, 2000). However, addition of HepII fragment in soluble form to cells on the cell-binding domain induced very few focal adhesions.…”

Section: Discussionmentioning

confidence: 99%

Coregulation of Fibronectin Signaling and Matrix Contraction by Tenascin-C and Syndecan-4

Midwood

Valenick

Hsia

et al. 2004

MBoC

135

139

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Syndecan-4 is a ubiquitously expressed heparan sulfate proteoglycan that modulates cell interactions with the extracellular matrix. It is transiently up-regulated during tissue repair by cells that mediate wound healing. Here, we report that syndecan-4 is essential for optimal fibroblast response to the three-dimensional fibrin-fibronectin provisional matrix that is deposited upon tissue injury. Interference with syndecan-4 function inhibits matrix contraction by preventing cell spreading, actin stress fiber formation, and activation of focal adhesion kinase and RhoA mediated-intracellular signaling pathways. Tenascin-C is an extracellular matrix protein that regulates cell response to fibronectin within the provisional matrix. Syndecan-4 is also required for tenascin-C action. Inhibition of syndecan-4 function suppresses tenascin-C activity and overexpression of syndecan-4 circumvents the effects of tenascin-C. In this way, tenascin-C and syndecan-4 work together to control fibroblast morphology and signaling and regulate events such as matrix contraction that are essential for efficient tissue repair. INTRODUCTIONTissue architecture is defined by the three-dimensional (3D) organization of the proteins and proteoglycans that comprise the extracellular matrix (ECM). Individual ECM components influence cell arrangements and activities through binding to transmembrane receptors, thus initiating intracellular signaling and altering gene expression and other downstream events. Tissues undergo continual maintenance and remodeling through controlled deposition and removal of specific ECM components. These changes in ECM composition and organization modulate cell behaviors and serve important roles throughout development and in the adult during both physiological and pathological processes (Lukashev and Werb, 1998).The provisional matrix that forms at sites of tissue injury undergoes extensive remodeling and turnover during wound repair. Composed predominantly of covalently cross-linked fibrin and plasma fibronectin (FN), this fibrin-FN provisional matrix coordinates the activities of cells involved in wound repair. It is remodeled over time to recapitulate normal tissue and this remodeling involves cellmediated contraction and deposition of new FN-rich matrix (Clark, 1996;Midwood et al., 2004). FN, a major component of the matrix, is a ubiquitously expressed, multifunctional extracellular glycoprotein that promotes cell adhesion. It controls many intracellular pathways and influences a wide range of cell functions (Hynes, 1990). For example, FN within a 3D fibrin-FN provisional matrix initiates signaling via focal adhesion kinase (FAK) and RhoA in order to promote fibroblast spreading, stress fiber formation, and focal adhesion assembly (Wenk et al., 2000;.The provisional matrix contacts many other ECM proteins that are induced at different stages of tissue repair, including thrombospondins, SPARC, and tenascin-C. These proteins are specifically up-regulated at wound sites where they modulate cell-ECM interactions (re...

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“…MEF-1 and PEA-13 (homozygous LRP-1-deficient) (29) cells were generated as described previously. Syndecan-4-deficient and wild-type MEF (30) were kindly provided by John R. Couchman (Department of Biomedical Sciences and Biotech Research and Innovation Centre, University of Copenhagen, Copenhagen, Denmark). All cells were maintained in DMEM with 10% FCS, 100 units/ml penicillin, and 100 units/ml streptomycin at 37°C in 5% CO 2 .…”

Section: Methodsmentioning

confidence: 99%

Differential Regulation of Extracellular Tissue Inhibitor of Metalloproteinases-3 Levels by Cell Membrane-bound and Shed Low Density Lipoprotein Receptor-related Protein 1

Scilabra

Troeberg

Yamamoto

et al. 2013

Journal of Biological Chemistry

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Background: Tissue inhibitor of metalloproteinases-3 (TIMP-3) is endocytosed, but its regulatory mechanism is not well understood. Results: TIMP-3 endocytosis occurs mainly through low density lipoprotein receptor-related protein-1 (LRP-1), but shed sLRP-1 binds TIMP-3. Conclusion: TIMP-3-sLRP-1 complexes are retained extracellularly with metalloproteinase inhibitory activity. Significance: LRP-1 is the master regulator of extracellular levels of TIMP-3.

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Syndecan-4 Deficiency Impairs Focal Adhesion Formation Only under Restricted Conditions

Cited by 128 publications

References 21 publications

Syndecan-4 signaling via NFAT regulates extracellular matrix production and cardiac myofibroblast differentiation in response to mechanical stress

Syndecan-4 signaling via NFAT regulates extracellular matrix production and cardiac myofibroblast differentiation in response to mechanical stress

Coregulation of Fibronectin Signaling and Matrix Contraction by Tenascin-C and Syndecan-4

Differential Regulation of Extracellular Tissue Inhibitor of Metalloproteinases-3 Levels by Cell Membrane-bound and Shed Low Density Lipoprotein Receptor-related Protein 1

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