Specific binding of basic fibroblast growth factor to basement membrane‐like structures and to purified heparan sulfate proteoglycan of the EHS tumor

Vigny, Marc; Ollier-Hartmann, M.-P.; Lavigne, Marc; Fayein, N.A.; Jeanny, Jean‐Claude; Laurent, M.; Courtois, Yves

doi:10.1002/jcp.1041370216

Cited by 162 publications

(63 citation statements)

References 22 publications

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“…Vlodavsky et al (1987) showed that endothelial cells synthesize FGF-2 which is then deposited and sequestered in the subendothelial ECM, a major component of which is heparan sulfate proteoglycan. It was also determined that this binding of FGF-2 to the basement membrane was specific to HLGAGs and not other basement membrane components such as laminin or collagen type IV (Vigny et al 1988). Folkman et al (1988) hypothesized that the interaction with heparin is representative of an in vivo affinity of FGFs for heparin sulfate proteoglycans, and furthermore, that the storage of FGFs in the basement membrane may be a mechanism for regulating their accessibility to vascular endothelium.…”

Section: Wwwendocrinologyorgmentioning

confidence: 99%

Fibroblast growth factors, their receptors and signaling.

Powers

McLeskey²,

Wellstein

2000

Endocrine-Related Cancer

1,188

1,033

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Fibroblast growth factors (FGFs) are small polypeptide growth factors, all of whom share in common certain structural characteristics, and most of whom bind heparin avidly. Many FGFs contain signal peptides for secretion and are secreted into the extracellular environment, where they can bind to the heparan-like glycosaminoglycans (HLGAGs) of the extracellular matrix (ECM). From this reservoir, FGFs may act directly on target cells, or they can be released through digestion of the ECM or the activity of a carrier protein, a secreted FGF binding protein. FGFs bind specific receptor tyrosine kinases in the context of HLGAGs and this binding induces receptor dimerization and activation, ultimately resulting in the activation of various signal transduction cascades. Some FGFs are potent angiogenic factors and most play important roles in embryonic development and wound healing. FGF signaling also appears to play a role in tumor growth and angiogenesis, and autocrine FGF signaling may be particularly important in the progression of steroid hormone-dependent cancers to a hormone-independent state.

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Section: Wwwendocrinologyorgmentioning

confidence: 99%

Fibroblast growth factors, their receptors and signaling.

Powers

McLeskey²,

Wellstein

2000

Endocrine-Related Cancer

1,188

1,033

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“…It has been suggested that fibroblast growth factors (FGFs) are stored and protected from proteolytic degradation in the extracellular matrix and on the cell surface by interaction with heparan sulfate proteoglycans, which thereby serve as a reservoir of the growth factors (9,26,30,33,44,45). Heparan sulfate proteoglycans not only play such a modulatory role but are involved in the binding of FGF to its high-affinity receptors as an essential component.…”

mentioning

confidence: 99%

The Acidic Domain and First Immunoglobulin-Like Loop of Fibroblast Growth Factor Receptor 2 Modulate Downstream Signaling through Glycosaminoglycan Modification

Sakaguchi

Lorenzi²,

Bottaro³

et al. 1999

Molecular and Cellular Biology

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Fibroblast growth factor receptors (FGFRs) are membrane-spanning tyrosine kinases that have been implicated in a variety of biological processes including mitogenesis, cell migration, development, and differentiation. We identified a unique isoform of FGFR2 expressed as a diffuse band with an unusually large molecular mass. This receptor is modified by glycosaminoglycan at a Ser residue located immediately N terminal to the acidic box, a stretch of acidic amino acids. The acidic box and the glycosaminoglycan modification site are encoded by an alternative exon of the FGFR2 gene. The acidic box appears to play an important role in glycosaminoglycan modification, and the presence of this domain is required for modification by heparan sulfate glycosaminoglycan. Moreover, the presence of the first immunoglobulin-like domain encoded by another alternative exon abrogated the modification. The high-affinity receptor with heparan sulfate modification enhanced receptor autophosphorylation, substrate phosphorylation, and ternary complex factor-independent gene expression. It also sustained mitogen-activated protein kinase activity and increased eventual DNA synthesis, a long-term response to fibroblast growth factor stimulation, at physiological ligand concentrations. We propose a novel regulation mechanism of FGFR2 signal transduction through glycosaminoglycan modification.Various types of growth factors bind to heparin and heparan sulfate. It has been suggested that fibroblast growth factors (FGFs) are stored and protected from proteolytic degradation in the extracellular matrix and on the cell surface by interaction with heparan sulfate proteoglycans, which thereby serve as a reservoir of the growth factors (9,26,30,33,44,45). Heparan sulfate proteoglycans not only play such a modulatory role but are involved in the binding of FGF to its high-affinity receptors as an essential component. Thornton et al. (42) demonstrated that heparin potentiates the mitogenic activity of crude preparations of FGF-1. Further studies of the interaction of FGF-1 with heparin suggested that the potentiation of mitogenic activity is caused by the ability of heparin to increase the affinity of FGF-1 for its receptor (35). It has recently been shown that free heparin or heparan sulfate glycosaminoglycan (HSGAG) is required for high-affinity binding of FGF-2 to FGF receptor (FGFR) 1 expressed in heparan sulfate-deficient CHO cells (50). Based on these findings, a dual-receptor model has been proposed, in which a complex composed of a classical proteintype receptor and a low-affinity glycosaminoglycan-type receptor mediates the cellular responses to FGF (15). FGFR1, FGFR2, FGFR3, and FGFR4, have been identified. A variety of isoforms are generated by alternative splicing of these FGFR genes, which contributes to the functional diversity of this receptor family (13). While the extracellular domain of FGFRs determines ligand-binding specificity (24), the C-terminal domain regulates the basal activity of the receptor (20). The extracellular doma...

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“…In addition to these regions defined by splicing variations, other regions of the extracellular portion of the FGF receptors that might have functional importance have been identified. These include (i) the acidic box, a sequence of four to eight contiguous acidic amino acids between the first and second immunoglobulin-like domains, (ii) a proposed heparin-binding domain within the second immunoglobulin-like domain (12), and (iii) a region between the first and second immunoglobulin-like domains that bears homology to the cadherin cell adhesion recognition sequence (13).FGF-2 also binds with lower affinity to the heparan sulfate moieties of proteoglycans on the cell surface and in the extracellular matrix (4,14,15). The binding of FGF-2 to heparan sulfates confers several biological advantages to the growth factor: (i) FGF-2 bound to heparin or heparan sulfates is protected from proteolysis and thermal denaturation (16,17); (ii) the heparan sulfate-bound FGF-2 serves as a reserve of growth factor that can support long term responses to FGF-2 after a…”

mentioning

confidence: 99%

mentioning

confidence: 99%

“…FGF-2 also binds with lower affinity to the heparan sulfate moieties of proteoglycans on the cell surface and in the extracellular matrix (4,14,15). The binding of FGF-2 to heparan sulfates confers several biological advantages to the growth factor: (i) FGF-2 bound to heparin or heparan sulfates is protected from proteolysis and thermal denaturation (16,17); (ii) the heparan sulfate-bound FGF-2 serves as a reserve of growth factor that can support long term responses to FGF-2 after a brief exposure to the growth factor (18,19); (iii) the heparan sulfates of the tissues may provide a means to localize FGF-2 to a particular site, limiting its diffusion (20); (iv) soluble heparan sulfates can act as carriers of FGF-2 and by preventing its interaction with fixed heparan sulfates in the tissues assure its dissemination away from its site of release (20); (v) FGF-2 can be internalized through its interaction with cell-surface heparan sulfates, clearing excess active molecules from the cell surface, perhaps helping to dampen the response to FGF-2 (21-23); and (vi) heparin or heparan sulfates can increase the affinity of FGF-2 for its receptors, by decreasing the dissociation rate of the FGF-2-receptor complex (24 -26).…”

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confidence: 99%

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Fibroblast Growth Factor-2 Can Mediate Cell Attachment by Linking Receptors and Heparan Sulfate Proteoglycans on Neighboring Cells

Richard

Liuzzo

Moscatelli

1995

Journal of Biological Chemistry

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The myeloid 32D cell line, which grows in suspension and does not express FGF receptors or heparan sulfate proteoglycans, was transfected with the cDNA encoding FGF receptor-1 (32D-flg cells). When co-cultured with glutaraldehyde-fixed Chinese hamster ovary (CHO) cells, the 32D-flg cells remained in suspension in the absence of FGF-2 but attached to the CHO monolayer in the presence of 10 ng/ml FGF-2. In contrast, 32D cells transfected with the vector alone did not attach to the CHO monolayer in the presence of FGF-2. FGF-2-dependent attachment of 32D-flg cells was prevented by inclusion of 10 g/ml heparin in the incubation medium and was diminished when CHO mutants in glycosaminoglycan synthesis or wild-type CHO cells treated with heparinase were used, indicating that the attachment occurred through FGF-2 interactions with heparan sulfates on the CHO cells. Attachment of 32D-flg cells to wild-type CHO cells was half-maximal at 0.4 ng/ml FGF-2 and was also observed with FGF-1 but not FGF-4. 32D-flg cells also attached to living CHO cells in a FGF-2-dependent manner, but attachment was transient at 37°C. Induction of new proteins was not required for FGF-2-dependent attachment, since attachment occurred when the co-cultures were incubated at 4°C and when the 32D-flg cells were preincubated with cycloheximide. FGF-2-dependent attachment of 32D-flg cells was also observed with Balb/C 3T3, NIH 3T3, and bovine capillary endothelial cells. We conclude that attachment is due to FGF-2 binding simultaneously to receptors on the 32D-flg cells and heparan sulfates on the CHO monolayers; thus, the FGF-2 acts as a bridge between receptorexpressing cells and heparan sulfate-bearing cells. In addition, induction of DNA synthesis in 32D-flg cells in response to FGF-2 was potentiated by the CHO-associated heparan sulfates to the same extent as by soluble heparin, indicating that this interaction has functional significance.The fibroblast growth factors (FGFs) 1 are a family of nine polypeptides that share sequence homology and a high affinity for heparin (1, 2). The members of the family have a variety of activities in vivo, including stimulation of proliferation, migration, and differentiation (1, 2), and the activities of the members of the family overlap to a considerable extent (1, 2). The two prototypes of the family, acidic and basic FGFs (FGF-1 and FGF-2), were originally identified and purified as factors that induce an angiogenic response in cultured endothelial cells. In vivo, FGF-1 and FGF-2 act as potent angiogenic factors and stimulate the formation of new blood vessels (3). However, these growth factors also seem to have important roles in the development and maintenance of the nervous system, skeletal system, muscle, and blood cells.FGF-2 interacts with both specific high affinity receptors and heparan sulfate proteoglycans on the cell surface (4). The FGF receptors also constitute a family of transmembrane tyrosine kinases with four known members that have overlapping affinities for the various members of the F...

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Specific binding of basic fibroblast growth factor to basement membrane‐like structures and to purified heparan sulfate proteoglycan of the EHS tumor

Cited by 162 publications

References 22 publications

Fibroblast growth factors, their receptors and signaling.

Fibroblast growth factors, their receptors and signaling.

The Acidic Domain and First Immunoglobulin-Like Loop of Fibroblast Growth Factor Receptor 2 Modulate Downstream Signaling through Glycosaminoglycan Modification

Fibroblast Growth Factor-2 Can Mediate Cell Attachment by Linking Receptors and Heparan Sulfate Proteoglycans on Neighboring Cells

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