Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and forster resonance energy transfer suggest weak interactions between fibroblast growth factor receptor 3 (FGFR3) transmembrane domains in the absence of extracellular domains and ligands

Lateral dimerization of membrane proteins has evolved as a means of signal transduction across the plasma membrane for all receptor tyrosine kinases (RTKs). The transmembrane (TM) domains of RTKs are proposed to play an important role in the dimerization process. We have investigated whether the TM domains of one RTK, fibroblast growth factor receptor 3 (FGFR3), dimerize in lipid vesicles in the absence of the extracellular domains and ligands. We have performed sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) with peptides produced via solid-phase peptide synthesis that correspond to the TM domain of FGFR3. We have carried out Forster resonance energy transfer (FRET) measurements using two donor-acceptor pairs, fluorescein/rhodamine and Cy3/Cy5, as a function of peptide concentration and donor-to-acceptor mole ratios. Our results suggest that FGFR3 TM domains form sequence-specific dimers in lipid bilayers. However, the dimerization propensity of FGFR3 TM domain is much weaker than the dimerization propensity of glycophorin A (GpA), the well-characterized "membrane dimer standard". We discuss our findings in the context of cell signaling across the plasma membrane and diseases or disorders that occur due to single amino acid mutations in the TM domain of FGFR3.

Fibroblastic growth factor receptor (FGF-R) expression during uterine involution in goat

To investigate the possible participation of fibroblastic growth factors (FGFs) in endometrial involution, 20 multiparous goats, slaughtered on days 0, 1, 4, 10, 16 and 22 postpartum (pp), were used. Samples of different parts of the previous pregnant horns were taken and processed using streptoavidin-biotin-peroxidase complex method to analyse FGF receptor (FGF-R) expression. The percentage of positive cells in luminal epithelium, superficial and deep glands and stroma was evaluated. Epithelial, glandular and stromal cells exhibited FGF-R immunoreactivity. No differences between caruncular and inter-caruncular epithelium were observed and staining was most evident in the superficial glands. The greatest degree of FGF-R expression was seen on days 10 and 16 pp, coinciding with epithelial and stromal cellular regeneration. These results suggest that caprine uterine involution is associated with variations in the expression of FGF-R.

A novel proliferation-associated variant of CFR-1 defined by a human monoclonal antibody

The germline coded human monoclonal IgM antibody 103/51 was isolated from a gastric carcinoma patient. This antibody binds to a 130-kd membrane molecule and has a mitotic effect on tumor cells in vitro. To characterize the target, we sequenced the protein and showed that the antibody binds to the cysteine-rich fibroblast growth factor receptor (CFR)-1, which is highly homologous to MG-160 and the E-selectin-ligand (ESL)-1. The epitope was determined by glycosidase-digestion experiments to be an N-linked carbohydrate side chain. Immunohistochemistry was used to investigate the tissue distribution of CFR-1. Different healthy tissues were tested and only the collecting tubes of the kidney, the Golgi apparatus, and the glomerular and fascicular zones of the adrenal gland stained positive. However, on malignant tissue the receptor is overexpressed in nearly all tested stomach cancers (12 of 15) and other tested carcinomas (13 of 15). Most interestingly, the receptor is also present in Helicobacter pylori gastritis and gastric dysplasia, but absent on uninflamed stomach mucosa. This restricted tissue pattern indicates that antibody 103/51 reacts with a membrane-bound variant of CFR-1, which is mainly expressed on transformed cells and precursor lesions and is essential for proliferation processes. The possible activity of antibody 103/51 as an activating ligand in these proliferative changes of gastric epithelial mucosa is discussed.

Expression and glycosylation studies of human FGF receptor 4

Fibroblast growth factor receptor subtype 4 (FGFR4) has been shown to have special activation properties and just one splicing form, unlike the other FGFRs. FGFR4 overexpression is correlated with breast cancer and therefore FGFR4 is a target for drug design. Our aim is to overexpress high amounts of homogeneous FGFR4 extracellular domain (FGFR4(ed)) for structural studies. We show that baculovirus-insect cell-expressed FGFR4(ed) is glycosylated on three (N88, N234, and N266) of the six possible N-glycosylation sites but is not O-glycosylated. The deglycosylated triple mutant was expressed and had binding properties similar to those of glycosylated FGFR4(ed), but was still heterogeneous. Large amounts of FGFR4(ed) have been produced into inclusion bodies in Escherichia coli and refolded at least partly correctly but the refolded E. coli-produced FGFR4(ed) still aggregates.

Identification and functional characterization of the human and murine fibroblast growth factor receptor 4 promoters

Fibroblast growth factor receptors (FGFRs) play crucial roles in signal transduction of adult tissues and during embryonic development. To study the transcriptional control, we isolated and characterized the promoter of human FGFR4. Two transcription initiation sites were identified. The deletion analysis in different cell types defined a core promoter reaching from -9 to -198, lacking TATA and CCAAT boxes but displaying high GC content (77%) in a stretch of 300 bp upstream of the major mRNA start. This region harbors multiple binding motifs for transcription factors. Moreover, the region between -1085 and -1140 contains a potential repressor element, which downregulates transcriptional activity. To identify conserved regulatory elements, we isolated and analyzed also the murine FGFR4 promoter. Only one transcription start was identified using RNase protection assays. Sequence alignment of human and mouse shows a striking similarity in the core promoter region of both genes, encompassing conserved transcription factor binding sites and a splice acceptor site. Furthermore, the region containing the putative repressor element is also conserved suggesting a functional role for gene expression.

Production and characterization of the extracellular domain of recombinant human fibroblast growth factor receptor 4

Among the members of the fibroblast growth factor receptor family the FGFR4 has demonstrated strong dependence on heparin-like material for its activation by fibroblast growth factors. We have produced and characterized a recombinant human FGFR4 extracellular domain (FGFR4ed), in order to study its biochemical properties in isolated conditions. The FGFR4ed was expressed in an insect cell system and purified from the culture medium by Ni(2+)-affinity and gel filtration chromatography. Pure FGFR4ed was tested for FGF- and heparin-binding by covalent crosslinking experiments and by biosensor analysis. In solution, FGFR4ed formed complexes with acidic FGF (FGF-1) and basic FGF (FGF-2), both in the presence and absence of heparin. Immobilized FGFR4 also bound FGF-8 besides FGF-1 and FGF-2. Furthermore, heparin alone induced receptor oligomerization on the surface of the receptor coupled chip. Thus, the recombinant FGFR4ed revealed properties described for the cellular form of this receptor and can be used for interaction studies.

Heparin differentially regulates the interaction of fibroblast growth factor-4 with FGF receptors 1 and 2

Fibroblast growth factor-4 (FGF4), like other FGFs, shares a high affinity for the anionic glycosaminoglycans heparin and heparan sulfate (HS), which in turn enhance FGF-receptor (FGFR) binding and activation. Here we demonstrate using a cell free system that, at low concentrations of heparin, FGF4 binds only to FGFR-2, while much higher heparin levels are required for binding to FGFR-1. Chemical crosslinking of radiolabeled FGF4 to the soluble FGF receptors confirms the preferential formation of FGF4-FGFR-2 complexes under restricted heparin availability, with maximal ligand-receptor interactions at almost 20-fold lower heparin concentrations then those required for the affinity labeling of FGFR-1. In accordance, HS-deficient cells expressing FGFR-2 proliferate in response to FGF4 at extremely low exogenous heparin concentrations, while FGFR-1 expressing cells are completely unresponsive under the same conditions. We suggest that FGFR-2 is the preferred receptor for FGF4 under restricted HS conditions and that the bioavailability of structurally distinct HS motifs may differentially control receptor specificity of FGF4 in vivo.

Requirement for anticoagulant heparan sulfate in the fibroblast growth factor receptor complex

A divalent cation-dependent association between heparin or heparan sulfate and the ectodomain of the fibroblast growth factor (FGF) receptor kinase (FGFR) restricts FGF-independent trans-phosphorylation between self-associated FGFR and determines specificity for and mediates binding of activating FGF. Here we show that only the fraction of commercial heparin or rat liver heparan sulfate which binds to immobilized antithrombin formed an FGF-binding binary complex with the ectodomain of the FGFR kinase. Conversely, only the fraction of heparin that binds to immobilized FGFR inhibited Factor Xa in the presence of antithrombin. Only the antithrombin-bound fraction of heparin competed with (3)H-heparin bound to FGFR in absence of FGF, whereas both antithrombin-bound and unretained fractions competed with radiolabeled heparin bound independently to FGF-1 and FGF-2. The antithrombin-bound fraction of heparin was required to support the heparin-dependent stimulation of DNA synthesis of endothelial cells by FGF-1. The requirement for divalent cations and the antithrombin-binding motif distinguish the role of heparan sulfate as an integral subunit of the FGFR complex from the wider range of effects of heparan sulfates and homologues on FGF signaling through FGFR-independent interactions with FGF.

Differential expression of the fibroblast growth factor receptor (FGFR) multigene family in normal human adult tissues

This report describes a systematic analysis of the expression of the fibroblast growth factor receptor (FGFR) multigene family (FGFR1, FGFR2, FGFR3, and FGFR4) in archival serial sections of normal human adult tissues representing the major organ systems, using immunohistochemical techniques. Polyclonal antisera specific for FGFR1, FGFR2, FGFR3, and FGFR4 and a three-stage immunoperoxidase technique were employed to determine the cellular distribution of these receptors at the protein level. The expression profiles for the tissue-specific cellular localization of the FGFR multigene family demonstrated wide-spread and striking differential patterns of expression of individual receptors in the epithelia and mesenchyme of multiple tissues (stomach, salivary glands, pancreas, thymus, ureter, and cornea) and co-expression of FGFR1-4 in the same cell types of other tissues. The wide-spread expression of FGFR1-4 in multiple organ systems suggests an important functional role in normal tissue homeostasis. Differences in the spatial patterns of FGFR gene expression may generate functional diversity in response to FGF-1 and FGF-2, both of which bind with equally high affinity to more than one receptor subtype. In vivo, this may lead to functional differences that are crucial for the regulation of normal physiological processes and are responsible for the pathological mechanisms that orchestrate various disease processes.

Latent transforming growth factor-beta complex in Chinese hamster ovary cells contains the multifunctional cysteine-rich fibroblast growth factor receptor, also termed E-selectin-ligand or MG-160

Transforming growth factor-beta (TGF-beta) is secreted as latent high molecular mass complexes from producer cells. The N-terminal precursor remnant, also called latency-associated peptide (LAP), forms a non-covalently linked complex with TGF-beta and confers the latency to TGF-beta. In human platelets and certain other cell types, latent TGF-beta binding protein-1 (LTBP-1) is disulphide-linked to LAP, and forms complexes of more than 230 kDa. In addition, LTBP-2 and -3, which are structurally similar to LTBP-1, can be part of latent TGF-beta complexes. In Chinese hamster ovary (CHO) cells transfected with the TGF-beta1 cDNA, a major part of the latent TGF-beta secreted into the medium is a 100-kDa small latent complex containing TGF-beta and LAP. In addition, we found two other forms of latent TGF-beta complexes, i.e. a 220-kDa complex containing LTBP-1, and a 220-kDa complex containing a 140-kDa protein. Purification of the 140-kDa component, termed latent TGF-beta complexed protein-1 (LTCP-1), followed by amino acid sequencing and cDNA cloning from a CHO cell cDNA library, revealed that it is a hamster counterpart of a previously identified, multifunctional protein known as chicken cysteine-rich fibroblast growth factor (FGF) receptor, mouse E-selectin-ligand and rat MG-160 (a 160-kDa membrane sialoglycoprotein of the Golgi apparatus). Immunoprecipitation of LTCP-1 and TGF-beta1 from CHO cells stably transfected with TGF-beta1 precursor cDNA revealed that the expressed protein forms a complex with LAP, and that a major part of the complex is secreted. Northern blot analysis showed that mRNA for LTCP-1 was expressed in large amounts in testis, ovary and placenta, but less abundantly in other tissues. These results suggest that TGF-beta, produced in certain cell types, may form a complex with LTCP-1, which may have different properties compared with other latent TGF-beta complexes. It remains to be investigated whether the complex formation between LTCP-1 and TGF-beta1 also occurs in other cells, whether the association between them occurs in the Golgi complex, and whether it affects the interaction of LTCP-1 with FGF or E-selectin.

A natural kinase-deficient variant of fibroblast growth factor receptor 1

A fibroblast growth factor receptor 1 variant missing 37 amino acids from the carboxy-terminal tyrosine kinase catalytic domain was discovered in human lung fibroblasts and several other human cell lines. The receptor variant binds specifically to acidic fibroblast growth factor but has no tyrosine kinase activity. It was found that cellular transfectants expressing the fibroblast growth factor receptor 1 variant are mitogenically inactive and ligand binding to the receptor causes neither receptor autophosphorylation nor phospholipase C-gamma transphosphorylation. The fibroblast growth factor receptor 1 variant therefore represents an inactive receptor for acidic fibroblast growth factor. Since both kinase and kinase-deficient receptor forms are expressed in cells, it is conceivable that the kinase-deficient receptor plays an important role in regulating cellular responses elicited by acidic fibroblast growth factor stimulation.

The nuclear trafficking of extracellular fibroblast growth factor (FGF)-1 correlates with the perinuclear association of the FGF receptor-1alpha isoforms but not the FGF receptor-1beta isoforms

The alternatively spliced fibroblast growth factor receptor (FGFR)-1 isoforms, FGFR-1alpha and FGFR-1beta, are characterized by the presence of either three or two Ig-like loops in the extracellular domain and are differentially expressed during embryonic development and tumor progression. We have previously shown that in cells irreversibly committed to DNA synthesis by FGF-1, approximately 15% of cell surface FGFR-1 traffics to a perinuclear locale as a structurally intact and functional tyrosine kinase (Prudovsky, I., Savion, N., Zhan, X., Friesel, R., Xu, J., Hou, J., McKeehan, W. L., and Maciag, T. (1994) J. Biol. Chem. 269, 31720-31724). In order to define the structural requirement for association of FGFR-1 with the nucleus, the expression and trafficking of FGFR-1 in FGFR-1alpha and FGFR-1beta L6 myoblast transfectants was studied. Although FGFR-1alpha was expressed as p145 and p125 forms, FGFR-1beta was expressed as p120 and p100 forms in the L6 myoblast transfectants. Tunicamycin and N-glyconase experiments suggest that these forms of FGFR-1alpha and FGFR-1beta are the result of differential glycosylation. However, only the p145 form of FGFR-1alpha and the p120 form of FGFR-1beta were able to bind FGF-1 and activate tyrosine phosphorylation. Pulse-chase analysis of FGFR-1 biosynthesis suggests that the p125 and p100 proteins are the precursor forms of p145 FGFR-1alpha and p120 FGFR-1beta, respectively. Because ligand-chase analysis demonstrated that FGFR-1beta L6 myoblast transfectants exhibited a reduced efficiency of nuclear translocation of exogenous FGF-1 when compared with FGFR-1alpha transfectants, the intracellular trafficking of the FGFR-1alpha and FGFR-1beta isoforms was studied using an in vitro kinase assay to amplify immunoprecipitated FGFR-1. Indeed, the appearance of the FGFR-1alpha but not FGFR-1beta isoform in the nuclear fraction of L6 myoblast transfectants suggests that the distal Ig-like loop in FGFR-1alpha mediates the differential nuclear association of FGFR-1alpha as a structurally intact and functional tyrosine kinase. Further, the FGFR-1beta L6 myoblast transfectants but not the FGFR-1alpha myoblast transfectants exhibited a pronounced morphologic change in response to exogenous FGF-1. Because this phenotype change involves the induction of a rounded cellular shape, it is possible that the FGFR-1alpha and FGFR-1beta may ultimately exhibit differential trafficking to adhesion sites.

Association of a 85-kDa serine kinase with activated fibroblast growth factor receptor-4

Fibroblast growth factors (FGFs) transduce a variety of biological signals via four distinct tyrosine kinase receptors. We have characterized the phosphorylation of FGF receptor 4 (FGFR-4) and its association with a putative substrate, p85, using transfected L6 myoblast and NIH3T3 fibroblast cell lines. FGFR-4 was phosphorylated in vivo and in vitro mainly on serine and threonine residues in several peptides and to a lower degree on tyrosine residues. When analyzed further by in-gel kinase assay, immunoprecipitates of ligand-activated FGFR-4 contained a serine autophosphorylated polypeptide doublet of 85 kDa. Analysis of the major autophosphorylation site Y754F mutant of FGFR-4 showed that binding of p85 and its serine phosphorylation were independent of receptor autophosphorylation at this site. Okadaic acid treatment increased the basal autophosphorylation activity of p85 but decreased FGFR-4 tyrosine phosphorylation. In contrast, orthovanadate treatment increased the tyrosine phosphorylation of FGFR-4. These data show that a serine kinase is associated with activated FGFR-4 and suggest a role for serine phosphorylation in FGFR-4 function.

Ligand-induced polyubiquitination of receptor tyrosine kinases

The platelet-derived growth factor beta-receptor undergoes polyubiquitination as a consequence of ligand binding. In the present study, we have examined the ligand-induced receptor ubiquitination also in the other receptor tyrosine kinase (structurally different) subfamilies by immunoblotting with anti-ubiquitin antiserum. In addition to the platelet-derived growth factor alpha- and beta-receptors, all the monomeric receptor tyrosine kinases examined, such as the receptors for epidermal growth factor (subfamily I), colony stimulating factor-1 (subfamily III), and fibroblast growth factor (subfamily IV), were found to be ubiquitinated after ligand stimulation. However, the insulin receptor (subfamily II), which is a tetrameric molecule, was not. These data suggest that the ligand-induced polyubiquitination of the receptor is a general phenomenon observed in most of the monomeric receptor tyrosine kinases.

The P-selectin glycoprotein ligand functions as a common human leukocyte ligand for P- and E-selectins

P- and E-selectins belong to a family of Ca(2+)-dependent lectins and function as receptors for myeloid leukocytes. We have described a panel of monoclonal antibodies which recognize a sialoglycoprotein from human neutrophils and HL-60 promyelocytic cells and inhibit adhesion of these cells to P-selectin. In this study, we show that the E-selectin receptor-globulin (E-selectin Rg) affinity chromatography can isolate specifically only one glycoprotein from [3H]glucosamine-labeled HL-60 cells in a Ca(2+)-dependent manner. This protein has a molecular mass of approximately 120 kDa under reducing conditions, which appears to be identical with the previously characterized glycoprotein ligand for P-selectin. The molecule can be cross-depleted by and cross-bound to the E- and P-selectin columns. The chromatographic profile of desialylated O-linked carbohydrates from molecules purified by P- and E-selectin affinity chromatography are identical. Both have five structures at 12.8, 9.8, 6.3, 3.5, and 2.5 glucose units. PL5 monoclonal antibody to the P-selectin sialoglycoprotein ligand, E-selectin Rg, and antiserum to P-selectin glycoprotein ligand-1 (PSGL-1) all recognize the purified P-selectin ligand on ligand blots and immunoblots. Furthermore, PL5 monoclonal antibody blocks adhesion of HL-60 cells and human neutrophils to E-selectin Rg. Taken together, our results demonstrate that the P- and E-selectin ligand defined in this study is PSGL-1 and suggest that this molecule is an important leukocyte ligand for both P- and E-selectins.

Androgen and fibroblast growth factor (FGF) regulation of FGF receptors in S115 mouse mammary tumor cells

We studied the androgen regulation of fibroblast growth factor (FGF) receptors (FGFRs) in the Shionogi 115 (S115) mouse mammary tumor cell line and its genetic variant Clone 22. In S115 cells, androgen maintains a transformed morphology, rate of proliferation, and serum and anchorage independence. Similar effects were induced by treatment of the cells with FGF-2 or a heparin-binding growth factor (HBGF) fraction prepared from the medium conditioned by the cells. The effects of androgen and FGF-2 could be partly reversed with a specific anti-FGF-2 immunoglobulin G or by suramin, which inhibits binding of FGFs to their high affinity receptors. Testosterone and FGF-2 increased the expression of FGFR-1 messenger RNA (mRNA) and, to a lesser extent, FGFR-3 mRNA, but down-regulated FGFR-2 mRNA in S115 cells. No FGFR-4 mRNA was detected. FGF-2 also down-regulated the expression of syndecan-1, a heparan sulfate proteoglycan that binds FGF with low affinity. The binding of radiolabeled FGF-2 to FGFRs was lower in the cells cultured with testosterone or in the presence of the HBGFs from androgen-treated cells, presumably because of the autocrine production of FGF-like factors. In Clone 22 cells, FGFRs and syndecan-1 responded to androgen as in S115 cells, but they were less sensitive to FGF-2. Androgen or FGF-2 could not induce morphological transformation, although both stimulated proliferation. Androgen-increased proliferation was not, however, decreased by anti-FGF-2 immunoglobulin G in Clone 22 cells. These data suggest that of the HBGFs produced, FGF-2 is required in androgen induction of morphological change, whereas the effect on proliferation involves other factors as well (perhaps mostly FGF-8). The results show that androgen differentially regulates the expression of the high and low affinity FGF receptors, which could mediate androgen induction of the transformed phenotype in S115 cells by an autocrine mechanism. The differential responses of the Clone 22 variant cells to androgen and FGF-2 suggest that the pathways of steroid induction of different parameters of the transformed phenotype, such as transition to fibroblastic morphology and stimulation of proliferation, are divergent.

The E-selectin-ligand ESL-1 is a variant of a receptor for fibroblast growth factor

E-SELECTIN is an inducible cell-adhesion molecule on endothelial cells, which mediates the binding of neutrophils and functions as a Ca(2+)-dependent lectin. We have recently identified a 150K glycoprotein as the major ligand for E-selectin on myeloid cells, using a recombinant antibody-like form of mouse E-selectin as an affinity probe. Here we report the isolation of a mouse complementary DNA for this E-selectin ligand (ESL-1). The predicted amino-acid sequence of ESL-1 is 94% identical (over 1,078 amino acids) to the recently identified chicken cysteine-rich fibroblast growth-factor receptor, except for a unique 70-amino-acid aminoterminal domain of mature ESL-1. Fucosylation of ESL-1 is imperative for affinity isolation with E-selectin-IgG. A fucosylated, recombinant antibody-like form of ESL-1, but not of L-selectin, supports adhesion of E-selectin-transfected Chinese hamster ovary cells. Antibodies against ESL-1 block the binding of mouse myeloid cells to E-selectin. ESL-1, with a structure essentially identical to that of a receptor, thus functions as a cell adhesion ligand of E-selectin.

Identification of fibroblast growth factor 9 (FGF9) as a high affinity, heparin dependent ligand for FGF receptors 3 and 2 but not for FGF receptors 1 and 4

Fibroblast growth factors (FGF) are multifunctional, heparin binding polypeptides that share structural similarity, but differ in their target cell specificity and expression pattern. Here we describe the cloning and expression of the mouse homologue of FGF9, and the use of a panel of soluble FGF receptors and genetically engineered cells to study its receptor binding specificity. FGF9 is found to bind with high affinity (kd: 0.25 nM) to FGFR3, for which a specific ligand has not yet been identified. FGF9 can also bind, albeit with a lower affinity, to FGFR2 but does not bind FGFR1 or FGFR4. There is no significant binding to either FGFR3 or FGFR2, expressed either as soluble receptors or in heparin sulfate deficient cells, in the absence of heparin. Moreover, receptor binding of FGF9 requires heparin in a manner specific to the receptor type. In conclusion FGF9 presents a unique case of ligand-receptor specificity and fulfills the criteria as a high affinity, heparin-dependent ligand for FGFR3.

Phosphorylation of phospholipase C gamma 1 and its association with the FGF receptor is developmentally regulated and occurs during mesoderm induction in Xenopus laevis

We have examined phosphorylation of phospholipase C gamma 1 (PLC gamma 1) and its association with FGFR1 during mesoderm induction in animal pole explants and during early development in Xenopus embryos. In explants, PLC gamma 1 became associated with FGFR1 during mesoderm induction by FGF or by vegetal cells, the source of the natural inducer. Both PLC gamma 1 and FGFR1 were phosphorylated on tyrosine, indicating that both proteins were activated. Phosphorylation of these two proteins occurred very early during the induction process (within 0.5 hr), providing evidence that a member of the FGF family is a component of the vegetal inducing signal. PLC gamma 1 was also associated with FGFR1 in Xenopus blastulae and this association was specific to presumptive mesoderm cells. Examination of the PLC gamma 1 phosphorylation pattern during early Xenopus development and its association with FGFR1 revealed that maximum phosphorylation and association of these two proteins occurred during early- to mid-blastula stages, concurrent with mesoderm induction in vivo. This spatiotemporal pattern PLC gamma 1-FGFR1 association and phosphorylation suggests that PLC gamma 1 is involved in intracellular signaling during mesoderm induction in Xenopus. Seven additional phosphotyrosyl bands were coimmunoprecipitated with either PLC gamma 1 or FGFR1 from Xenopus blastulae; these bands may represent additional components of an FGFR1 signaling complex. One of these phosphotyrosyl bands was identified as NCK. In addition, growth factor receptor-binding protein, and son-of-sevenless two upstream regulators of RAS signaling, were co-immunoprecipitated with FGFR1.

Purification and characterization of a functional soluble fibroblast growth factor receptor 1

Naturally encoded human soluble fibroblast growth factor receptor 1 was cloned, abundantly expressed by recombinant baculovirus-infected insect cells and purified to apparent homogeneity. Pure soluble receptor bound as monomeric and dimeric complexes and inhibited the mitogenic activity of basic and acidic fibroblast growth factors.

Distinct role of 2-O-, N-, and 6-O-sulfate groups of heparin in the formation of the ternary complex with basic fibroblast growth factor and soluble FGF receptor-1

Interaction of basic fibroblast growth factor (bFGF) with heparan sulfate proteoglycans (HSPGs) plays an important role in the binding of bFGF to its tyrosine kinase receptor (FGFR). The molecular bases of this interaction were investigated by evaluating the capacity of conventional and selectively desulfated heparins i) to affect the binding of bFGF to FGFR and HSPGs of NIH 3T3 cells transfected with FGFR-1/flg cDNA, ii) to facilitate the interaction of bFGF with a recombinant soluble form of the extracellular domain of FGFR-1/flg (xcFGFR-1), and iii) to protect xcFGFR-1 from tryptic cleavage. 6-O-desulfated (6-O-DS) heparin, but not 2-O-desulfated (2-O-DS) and N-desulfated/N-acetylated (N-DS/N-Ac) heparins, retains the capacity to bind bFGF, as assessed by its ability to inhibit bFGF-binding to cell-associated FGFR-1 and HSPGs. On the other hand, at variance with conventional heparin, 2-O-DS, N-DS/N-Ac, and 6-O-DS heparins are all ineffective in potentiating the binding of bFGF to xcFGFR-1 and protecting xcFGFR-1 from tryptic cleavage. The data indicate that 6-O-sulfate groups are not essential for the interaction of heparin with bFGF but are involved in the interaction with xcFGFR-1. Our findings support the hypothesis that HSPGs modulate the binding of bFGF to FGFR through the formation of a ternary complex in which the glycosaminoglycan chains interact with bFGF via 2-O- and N-sulfate groups and with FGFR also via 6-O-sulfate groups.

Labeling of basic fibroblast growth factor with digoxigenin: a nonradioactive probe for biochemical and cytological applications

Digoxigenin, a 391-Da plant sterol, was conjugated to recombinant bFGF with the aim of detecting it with high specificity and sensitivity in cultured eukaryotic cells using antibodies against digoxigenin. The conjugate, bFGF-DIG, displayed a mitogenic activity on endothelial cells equivalent to that of nonlabeled bFGF. Binding of the probe on the cell surface was assessed by ELISA on cells, which allowed discrimination between low- and high-affinity bFGF binding sites. Using a chemiluminescent system, chemical cross-linking of bFGF-DIG with FGF receptors was analyzed directly on Western blots of cell extracts with anti-digoxigenin antibodies. The labeling pattern was identical to that reported with iodinated bFGF, showing that bFGF-DIG bound to the same receptors. The time course of intracellular degradation of internalized bFGF-DIG was also followed by immunodetection on Western blots: the low speed of the catabolic process and the size of the degradation products were comparable to those previously described with iodinated bFGF. In parallel, bFGF-DIG was readily detected by immunofluorescence in cultured cells, and was shown to be an interesting probe to determine bFGF endocytosis pathways by electron microscopy. bFGF-DIG appeared as a multifunctional nonradioactive probe suitable for combined biochemical and cytological studies of bFGF.

Point mutation in the fibroblast growth factor receptor eliminates phosphatidylinositol hydrolysis without affecting neuronal differentiation of PC12 cells

Fibroblast growth factors (FGF) stimulate growth arrest and differentiation in rat pheochromocytoma PC12 cells. We examined the role of phosphatidylinositol (PI) hydrolysis in FGF-induced differentiation of PC12 cells by exploring the biological and biochemical activity of a mutant FGF receptor 1 (flg) defective in stimulation of PI hydrolysis. We show that point mutation at Tyr-766 (Y766F) of the FGF receptor prevents tyrosine phosphorylation of phospholipase C gamma and eliminates acidic FGF (aFGF)-induced stimulation of PI hydrolysis in PC12 cells. Treatment of PC12 cells expressing either wild-type or the Y766F mutant with aFGF led to tyrosine phosphorylation of Shc, the association of Shc with GRB2, a shift in the electrophoretic mobility of the Ras guanine nucleotide-releasing factor, Sos (son of sevenless), and enhancement in mitogen-activated protein kinase phosphorylation. Moreover, stimulation with aFGF led to a typical neurite outgrowth of PC12 cells expressing either wild-type or the Y766F FGF receptor mutant. These experiments indicate that PI hydrolysis is not essential for FGF-induced neuronal differentiation of PC12 cells. Moreover, the aFGF-induced Ras signaling pathway, which is essential for PC12 cell differentiation, is not affected by elimination of PI hydrolysis.

Isolation and developmental expression of the amphibian homolog of the fibroblast growth factor receptor 3

Recent observations suggest that fibroblast growth factors (FGFs) and their receptors are involved in the control of embryogenesis. Several FGF receptor genes have been identified so far and their expression is differentially regulated. As part of a continuing effort to analyse the differential expression of FGF receptors and their potential role during amphibian development, we have isolated a Pleurodeles homolog of FGF receptor 3 (FGFR-3), which we designated PFR-3 because of its highest homology to human FGFR-3 (75% overall identity). PFR-3 is a maternally derived mRNA. While a low level of expression persists during the cleavage and gastrula stages, a significant increase in the mRNA was observed at the end of the gastrula stage. RNase protection analysis on dissected tissues showed that PFR-3 mRNA was mainly localized to the ectoderm at the early gastrula stage and then shifted to the embryonic neural tissues, whereas adult brain had decreased levels of PFR-3 mRNA expression. Consistent with the loss of FGF receptors during skeletal muscle terminal differentiation, PFR-3 as well as other FGF receptor mRNAs were undetectable in the adult skeletal muscle. However, highest levels of PFR-3 mRNA expression were found in the testis. In situ hybridization revealed strong expression in the germinal epithelium of the embryonic brain (especially the diencephalon and rhombencephalon) and neural tube, in the lens and the cranial ganglia. The epithelium of the developing gut, like the pharynx and esophagus, also prominently expressed PFR-3 mRNA. Other sites of expression were found in the liver and in the mesenchymal condensation sites of branchial arches.(ABSTRACT TRUNCATED AT 250 WORDS)

Alternative splicing generates two distinct transcripts for the Drosophila melanogaster fibroblast growth factor receptor homolog

We screened Drosophila melanogaster genomic and cDNA libraries by low-stringency hybridization with a probe representing the protein tyrosine kinase (TyK) domain encoded by a human alpha-platelet-derived growth factor receptor-encoding cDNA. The complete sequences of the open reading frames and 3'-untranslated regions (UTR) of some cross-hybridizing clones were identical to the recently published sequence of DFR1, encoding the novel D. melanogaster fibroblast growth factor receptor homology. However, two species of DFR1 cDNAs were isolated that differed with respect to their 5'-UTR. Analysis of the genomic organization revealed that DFR1 is composed of three exons. The entire coding region is contained within the third exon. S1 mapping and RNase-protection assays demonstrated that two distinct DFR1 transcripts possessing either the first or the second exon in combination with the third exon are generated by alternative splicing. This suggests that the transcriptional, as well as posttranscriptional, regulation of fibroblast growth factor receptor (FGFR)-encoding genes during D. melanogaster development is likely to be complex.

Distinct patterns of expression of fibroblast growth factors and their receptors in human atheroma and nonatherosclerotic arteries. Association of acidic FGF with plaque microvessels and macrophages

Because fibroblast growth factors (FGFs) modulate important functions of endothelial cells (EC) and smooth muscle cells (SMC), we studied FGF expression in human vascular cells and control or atherosclerotic arteries. All cells and arteries contained acidic (a) FGF and basic (b) FGF mRNA. Northern analysis detected aFGF mRNA only in one of five control arteries but in all five atheroma tested, while levels of bFGF mRNA did not differ among control (n = 3) vs. plaque specimens (n = 6). Immunolocalization revealed abundant bFGF protein in control vessels (n = 10), but little in plaques (n = 14). In contrast, atheroma (n = 14), but not control arteries (n = 10), consistently exhibited immunoreactive aFGF, notably in neovascularized and macrophage-rich regions of plaque. Because macrophages colocalized with aFGF, we tested human monocytoid THP-1 cells and demonstrated accumulation of aFGF mRNA during PMA-induced differentiation. We also examined the expression of mRNA encoding FGF receptors (FGFRs). All cells and arteries contained FGFR-1 mRNA. Only SMC and control vessels had FGFR-2 mRNA, while EC and some arteries contained FGFR-4 mRNA. The relative lack of bFGF in plaques vs. normal arteries suggests that this growth factor may not contribute to cell proliferation in advanced atherosclerosis. However, aFGF produced by plaque macrophages may stimulate the growth of microvessels during human atherogenesis.

Modulation of fibroblast growth factor receptor expression and signalling during retinoic acid-induced differentiation of Tera-2 teratocarcinoma cells

We have analyzed the regulation of fibroblast growth factor receptors (FGFRs) during retinoic acid (RA) induced differentiation of Tera-2 human embryonal carcinoma cells. Undifferentiated Tera-2 cells expressed mRNAs for all four known FGFRs. Their differentiation led to loss of FGFR-4 mRNA expression and mRNA levels for FGFR-2 and FGFR-3 were considerably downregulated, whereas the mRNA levels for FGFR-1 remained unaltered. A substantial decrease in binding of K-FGF was found to occur upon RA-induced differentiation of the cells. In undifferentiated Tera-2 cells FGF stimulation caused an increase of c-fos mRNA, and c-jun mRNAs, but no increase of junB mRNA, whereas in the differentiated cells, FGFs strongly stimulated the expression of all three genes. Thus differentiation of the Tera-2 cells leads to marked changes in FGFR gene expression as well as to complex alterations in their responses to exogenous FGFs.

Acidic fibroblast growth factor autocrine system as a mediator of calcium-regulated parathyroid cell growth

Both parathyroid hormone secretion and cell growth are negatively regulated by extracellular calcium in parathyroid cells. The mechanism of growth regulation by calcium has been unknown. Previously, we reported that clonal parathyroid cells (PT-r cells) bear two high affinity receptors for acidic fibroblast growth factor (aFGF) and that at least a subpopulation of the receptors with a higher molecular mass carries heparan sulfate (HS) glycosaminoglycan chains which give the receptor higher affinity (Sakaguchi, K., Yanagishita, M., Takeuchi, Y., and Aurbach, G. D. (1991) J. Biol. Chem. 266, 7270-7278). Here, I have found that the parathyroid cells expressed aFGF and that aFGF receptors with lower affinity apparently translocated in response to changing extracellular calcium concentrations. Expression of both aFGF mRNA and peptide was suppressed by calcium. Cells had more ligand-accessible receptors on the cell surface at lower calcium concentrations. This apparent translocation was temperature-dependent but independent of de novo protein synthesis. Heparin or HS glycosaminoglycans are a prerequisite for the FGF receptor encoded by flg gene to bind basic FGF (Yayon, A., Klagsbrun, M., Esko, J. D., Leder, P., and Ornitz, D. M. (1991) Cell 64, 841-848). In PT-r cells, major cellular HS proteoglycans redistribute between intracellular and extracellular compartments with more HS proteoglycans expressed on the cell surface at lower calcium concentrations (Takeuchi, Y., Sakaguchi, K., Yanagishita, M., Aurbach, G. D., and Hascall, V. C. (1990) J. Biol. Chem. 265, 13661-13668). However, this redistribution of HS proteoglycans cannot explain the difference in bindability of radiolabeled aFGF to its receptors in different calcium concentrations, since addition of heparin did not change the binding of radiolabeled aFGF to the receptors either at high or low calcium conditions. In concordance with the apparent translocation of aFGF receptors, thymidine incorporation was stimulated by decreasing extracellular calcium concentrations with further stimulation by added aFGF. Anti-aFGF antibody inhibited thymidine incorporation by more than 32% in the cells exposed to 0.05 mM Ca2+ shortly before adding [3H]thymidine, whereas the incorporation was not significantly affected by the antibody at 0.7 mM Ca2+. Cell growth was also stimulated by low calcium. Anti-aFGF antibody inhibited cell growth significantly only at low calcium concentrations. From these observations, an aFGF autocrine system including the apparent translocation of aFGF receptors may explain, if not entirely, the mechanism by which calcium regulates parathyroid cell growth.

Purification of a heparin binding FGF receptor (HB-FGFR) from adult bovine brain membranes

A new form of high affinity fibroblast growth factor receptor has been purified from adult bovine brain membranes. Purification was performed by chromatography on DEAE-Trisacryl and wheat germ agglutinin-agarose followed by FGF-2 affinity chromatography. Affinity labeling of purified fractions with 125I-FGF-2 showed after cross-linking a 170-kDa complex, suggesting the existence of a 150-kDa FGF receptor. No cross-reactivity with anti-FGF receptor 1 (FGFR-1 or flg) or with anti-receptor 2 (FGFR-2 or bek) antibodies could be detected with this partially purified receptor. Heparitinase treatment of the partially purified FGF receptor abolished the formation of the ligand receptor complex. The complex was restored in the presence of heparin in a dose dependent fashion, supporting the idea that heparin-like molecules are needed for proper binding. Further purification of the receptor was achieved by heparin-Sepharose affinity chromatography and yielded a purification of over 320,000-fold. The purified receptor fraction was radiolabeled and loaded on RPLC C4 column. Eluted fractions were analysed by SDS-PAGE. A major 150-kDa band was detected. These data show for the first time a new form of FGF receptor isolated from bovine brain membranes. This purified receptor displays affinity for heparin and was therefore named heparin binding FGF receptor (HB-FGFR). It remains unclear whether the receptor is a proteo-heparin sulfate or whether heparans are strongly associated and therefore are copurified. Large scale preparations are in progress for core protein structure studies.

Identification of a cysteine-rich receptor for fibroblast growth factors

The fibroblast growth factor (FGF) family consists of seven members whose activities are thought to be mediated by multiple receptors. Here we describe the cDNA cloning, expression, and characterization of a cysteine-rich FGF receptor (CFR) that is distinct from previously identified FGF receptors. The deduced amino acid sequence for CFR suggests that it is an integral membrane protein containing a large extracellular domain comprising 16 cysteine-rich repeated units and an intracellular domain of 13 amino acids. No reported sequences exhibit significant homologies to either the repeated extracellular motif or to the entire CFR amino acid sequence. Several CFR transcripts are present in embryonic chick tissue, suggesting that CFR undergoes alternate mRNA splicing or that related genes are present. Chinese hamster ovary cells transfected with the CFR cDNA express a 150-kDa polypeptide that binds FGF-1, FGF-2, and FGF-4 but does not bind several non-FGF family members. The high degree of evolutionary conservation among vertebrate CFRs and its ability to bind three different FGFs with high affinity suggest that this unique receptor plays an important role in FGF biology.

Purification of an active receptor for acidic and basic fibroblast growth factor from bovine retina

Acidic and basic fibroblast growth factors (FGFs) influence cell division and differentiation in retina cells. Their effects are thought to be mainly mediated through stimulation of a specific membrane receptor and subsequent generation of an intracellular signal pathway. In this study, we purified a FGF receptor of 130 kDa from bovine neural retina using wheat germ agglutinin affinity chromatography followed by FGF-affinity chromatography. The isolated receptor showed ligand binding activity with dissociation constants of 0.8 nM and 2 nM for aFGF and bFGF, respectively. Furthermore, binding of aFGF and bFGF to purified receptor resulted in self-phosphorylation, demonstrating that the isolated receptor had an unaltered intrinsic kinase activity.