Antiapoptotic Effect of the Fibronectin-Derived Peptide PHSRN in Cultured Human Corneal Epithelial Cells
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ABSTRACT Cell growth control in non-transformed cells depends, in part, on adhesive interactions with the extracellular matrix. Following injury, excess or altered fibronectin deposition into the extracellular matrix may contribute to the pathogenesis of fibrosis and atherosclerosis by triggering changes in specific cell functions associated with wound repair, including cell proliferation and migration. To assess the role of fibronectin polymerization on cell growth, we isolated mouse embryonic cells that lack endogenous fibronectin (fibronectin-null cells) and established them in culture under serum-free conditions. These fibronectin-null cells do not produce any detectable fibronectin, but are capable of assembling a fibronectin matrix when cultured in the presence of exogenously added fibronectin. Our data indicate that adhesion-dependent growth in fibronectin-null cells is dramatically increased (>2-5×) by culturing cells in the presence of fibronectin. This fibronectin-induced cell growth was blocked by inhibiting fibronectin matrix assembly. Arg-Gly-Asp peptides or fragments of fibronectin that contain the Arg-Gly-Asp cell binding site promoted clustering of the α5β1 integrin in focal adhesions, but did not enhance cell growth. These data indicate that the polymerization of fibronectin into the extracellular matrix positively regulates cell growth, and that occupancy and clustering of fibronectin-binding integrins alone are not sufficient to trigger increased cell growth.
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The aim of this work was to show epidermal growth factor (EGF)-dependent migration of human corneal epithelial cells to fibronectin and GRGDSP peptide. The authors assessed the role of cell surface integrin heterodimer alpha 5 beta 1 in mediating haptotactic cell migration to fibronectin by the use of specific function-blocking integrin antibodies.A haptotactic cell migration assay in a Boyden chamber was used to compare the relative migration of the cultured human corneal epithelial cells in the presence of fibronectin and GRGDSP peptide-coated filters. Epithelial cells were incubated in the presence of function-blocking integrin antibodies or anti-EGF-receptor antibodies to determine their role in haptotactic cell migration.Human corneal epithelial cells grown as primary cultures migrated in the presence of fibronectin or GRGDSP peptide, but only on stimulation with EGF. Antibodies to the EGF receptor blocked the EGF-mediated stimulation of haptotactic cell migration. Anti-beta 1 and anti-alpha 5 antibodies each inhibited haptotactic cell migration to fibronectin and GRGDSP peptide.Epidermal growth factor provides an important stimulus of haptotactic cell migration of human corneal epithelial cells. Stimulation of cell migration by EGF was maximal in the range of 5 to 10 ng/ml; this response was completely blocked by incubation with an anti-EGF receptor antibody. Function-blocking integrin antibodies, specifically anti-beta 1 and anti-alpha 5, inhibited integrin-mediated cell migration to fibronectin and GRGDSP peptide. These data suggest that EGF represents an essential initial stimulus for haptotactic cell migration of human corneal epithelial cells; furthermore, integrins are important in mediating cell migration to fibronectin and GRGDSP:
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Fibronectin promotes corneal epithelial cell adhesion and motility in vitro and plays an important role in corneal re-epithelialization during corneal wound healing. Multiple domains contribute to the adhesion- and motility-promoting activity of fibronectin. The aim of this study was to identify amino acid sequences that contribute to the rabbit corneal epithelial (RCE) cell adhesion- and motility-promoting activity of the 33 and 66 kD carboxy-terminal heparin-binding fragments of fibronectin.Synthetic peptides derived from the 33/66 kD fragments of fibronectin were tested for their ability to directly promote RCE cell adhesion, spreading, and motility. To assess the contribution of these peptides to the activity of fibronectin and the 33/66 kD fragments of fibronectin, synthetic peptides, and antibodies against these peptides were tested for their ability to block RCE cell adhesion, spreading, and motility.In this study, we identified a novel peptide sequence derived from the 33/66 kD fragments of fibronectin, FN-C/H-V (WQPPRARI), that directly promotes the adhesion, spreading, and migration of RCE cells in a concentration-dependent manner. A second peptide from the 33/66 kD fragments of fibronectin, FN-C/H-IV (SPPRRARVT), promoted RCE cell adhesion and spreading, but did not promote RCE cell migration. In contrast, two synthetic peptides from the 33/66 kD fragments of fibronectin that were previously shown to promote RCE cell adhesion (FN-C/H-I and FN-C/H-III) did not promote RCE cell spreading or migration. Soluble FN-C/H-V inhibited RCE cell adhesion to surfaces coated with FN-C/H-V, the 33/66 kD fragments of fibronectin, and to fibronectin. In addition, polyclonal anti-FN-C/H-V IgG inhibited RCE cell adhesion to FN-C/H-V, the 33/66 kD fragments of fibronectin, and to fibronectin. Finally, polyclonal anti-FN-C/H-V IgG also inhibited RCE cell haptotactic migration on the 33/66 kD fragments.These data suggest that the amino acid sequence defined by peptide FN-C/H-V contributes to the adhesion-, spreading-, and motility-promoting activity of the 33/66 kD carboxy-terminal heparin-binding fragments of fibronectin. Given the important role of fibronectin in corneal wound healing, these findings provide additional insight into the complex molecular basis of corneal epithelial cell interactions with fibronectin and may be important in the context of corneal wound healing.
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Fibronectins
Signalling
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Epidermis (zoology)
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AbstractPURPOSE. To analyze a-integrin mediated adhesion of human corneal epithelial cells to placental and EHS laminin isoforms. METHODS. Western blot analysis was used to partially characterize commercially available preparations of laminin isolated from the mouse EHS sarcoma and from human placenta. Using the human corneal epithelial cell line HCE-T, adhesion to laminin isoforms and fibronectin was determined using a colorimetric adhesion assay. a-integrin sub-unit modulation of corneal epithelial cell interaction with laminin isoforms was analyzed using immunofluorescence microscopy and adhesion assays incorporating functional blocking antibodies. RESULTS. In short-term adhesion assays, the preferred substrate for HCE-T attachment is placental laminin. Immunofluorescence microscopy reveals that a-integrin protein localization patterns are not significantly different in HCE-T interacting with EHS or placental laminin. However, in short-term assays a3 integrin plays a major role, and a2 integrin a minor role, in mediating HCE-T adhesion to laminin. a6 integrin does not appear to mediate adhesion to either substrate. CONCLUSIONS. These studies demonstrate that human corneal epithelial cells are capable of rapid adhesion to, and enhanced spreading on, laminin isoforms not characteristically resident in the adult corneal basement membrane. This characteristic of human corneal epithelium may explain, at least in part, why amniotic membrane transplantation is proving to be clinically useful for human ocular surface reconstruction.
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