Wilson H. Burgess

Cloning and expression of two distinct high-affinity receptors cross-reacting with acidic and basic fibroblast growth factors.

The fibroblast growth factor (FGF) family consists of at least seven closely related polypeptide mitogens which exert their activities by binding and activation of specific cell surface receptors. Unanswered questions have been whether there are multiple FGF receptors and what factors determine binding specificity and biological response. We report the complete cDNA cloning of two human genes previously designated flg and bek. These genes encode two similar but distinct cell surface receptors comprised of an extracellular domain with three immunoglobulin‐like regions, a single transmembrane domain, and a cytoplasmic portion containing a tyrosine kinase domain with a typical kinase insert. The expression of these two cDNAs in transfected NIH 3T3 cells led to the biosynthesis of proteins of 150 kd and 135 kd for flg and bek, respectively. Direct binding experiments with radiolabeled acidic FGF (aFGF) or basic FGF (bFGF), inhibition of binding with native growth factors, and Scatchard analysis of the binding data indicated that bek and flg bind either aFGF or bFGF with dissociation constants of (2‐15) x 10(‐11) M. The high affinity binding of two distinct growth factors to each of two different receptors represents a unique double redundancy without precedence among polypeptide growth factor‐receptor interactions.

Isolation and Biochemical Characterization of the Human Dkk-1 Homologue, a Novel Inhibitor of Mammalian Wnt Signaling

In an effort to isolate novel growth factors, we identified a human protein, designated Sk, that co-eluted with Neuregulin during chromatographic separation of conditioned medium from the SK-LMS-1 human leiomyosarcoma cell line. Degenerate oligonucleotides based on amino-terminal sequence analysis of the purified protein were used to isolate the corresponding cDNA from a library generated from this cell line. Sk is a novel 266-amino acid protein that contains a signal peptide sequence and two cysteine-rich domains with no similarity to other known growth factors. A single major 2-kilobase transcript was expressed in several embryonic tissues. Transfection of mammalian cells demonstrated that the protein was secreted and expressed as a doublet of approximately 35 kDa. In vitro translation and endoglycosylase analysis indicated that this doublet, which was also observed in cells expressing the endogenous protein, arises from posttranslational modification. A search of the GenBankTM data base revealed a match of Sk with Dkk-1, which is a novel secreted protein required for head induction in amphibian embryos and a potent Wnt inhibitor. When coexpressed with Wnt-2 in NIH3T3 cells, human Sk/Dkk-1 caused reversion of Wnt-2 induced morphological alterations and inhibited the Wnt-2 induced increase in uncomplexed β-catenin levels. These results provide biochemical evidence that human Sk/Dkk-1 antagonizes Wnt signaling upstream of its effect on β-catenin regulation.

cDNA Cloning and Primary Structure Analysis of C1qRP, the Human C1q/MBL/SPA Receptor That Mediates Enhanced Phagocytosis In Vitro

The complement protein C1q, mannose-binding lectin (MBL), and pulmonary surfactant protein A (SPA) are structurally similar molecules that enhance phagocytic function in vitro. Monoclonal antibodies R3 and R139, which inhibit the enhancement triggered by these three ligands, were used to purify a 126,000 M(r) cell surface protein designated C1qR(P). Amino acid sequence was obtained and the corresponding cDNA was cloned. C1qR(P) is a novel type I membrane protein with the following putative structural elements: a C-type carbohydrate recognition domain, five EGF-like domains, a transmembrane domain, and a short cytoplasmic tail. All peptides identified by amino acid sequencing are encoded by the cDNA. Additionally, an anti-peptide antiserum was generated, which is reactive with C1qR(P). The data indicate that the cloned cDNA encodes the receptor that plays a role in C1q/MBL/SPA-mediated removal or destruction of pathogens and immune complexes by phagocytosis.

Characterization and cDNA cloning of phospholipase C-gamma, a major substrate for heparin-binding growth factor 1 (acidic fibroblast growth factor)-activated tyrosine kinase.

Heparin-binding growth factors (HBGFs) bind to high-affinity cell surface receptors which possess intrinsic tyrosine kinase activity. A Mr 150,000 protein phosphorylated on tyrosine in response to class 1 HBGF (HBGF-1) was purified and partially sequenced. On the basis of this sequence, cDNA clones were isolated from a human endothelial cell library and identified as encoding phospholipase C-gamma. Phosphorylation of phospholipase C-gamma in intact cells treated with HBGF-1 was directly demonstrated by using antiphospholipase C-gamma antibodies. Thus, HBGF-1 joins epidermal growth factor and platelet-derived growth factor, whose receptor activation leads to tyrosine phosphorylation and probable activation of phospholipase C-gamma.

Fibulin, a novel protein that interacts with the fibronectin receptor β subunit cytoplasmic domain

A 100 kd protein was isolated from tissue and cell extracts by affinity chromatography on a synthetic peptide representing the cytoplasmic domain of the fibronectin receptor beta subunit. The 100 kd protein also bound to native fibronectin receptor, and this binding could be reversed with EDTA. Calcium may be the divalent cation required for the binding since the 100 kd protein was found to bind 45Ca2+. The N-terminal amino acid sequence of the 100 kd protein was not similar to any sequence in a protein data base. Immunofluorescent staining of cells cultured on fibronectin showed the 100 kd protein coinciding with the fibronectin receptor beta subunit in sites of substrate contact. Therefore this protein, which we term fibulin, interacts with the fibronectin receptor in vitro and associates with the receptor in vivo. Fibulin is a potential mediator of interactions between adhesion receptors and the cytoskeleton.

Localization of a major receptor-binding domain for epidermal growth factor by affinity labeling

Epidermal growth factor (EGF) receptor was affinity labeled with 125I-labeled EGF, using bifunctional covalent cross-linking agents. The affinity-labeled receptor was isolated and cleaved with CNBr to yield a single-labeled fragment, which was unequivocally identified by site-specific antibodies and other methods to encompass residues 294 to 543 of the EGF receptor. On the basis of amino acid sequence conservation, the extracellular portion of EGF receptor can be divided into four domains. The labeled CNBr fragment contains the entire sequence which is flanked by the two cysteine-rich domains of extracellular portion of the EGF receptor denoted as domain III. On the basis of these and other results, we propose that domain III contributes most of the interactions that define ligand-binding specificity of the EGF receptor.

Heparin-binding growth factor 1 stimulates tyrosine phosphorylation in NIH 3T3 cells

Tyrosine phosphorylation of cellular proteins induced by heparin-binding growth factor 1 (HBGF-1) was studied by using the murine fibroblast cell line NIH 3T3 (clone 2.2). HBGF-1 specifically induced the rapid tyrosine phosphorylation of polypeptides of Mr 150,000, 130,000, and 90,000 that were detected with polyclonal and monoclonal antiphosphotyrosine (anti-P-Tyr) antibodies. The concentration of HBGF-1 required for half-maximal induction of tyrosine phosphorylation of the Mr-150,000 Mr-130,000, and Mr-90,000 proteins was approximately 0.2 to 0.5 ng/ml, which was consistent with the half-maximal concentration required for stimulation of DNA synthesis in NIH 3T3 cells. HBGF-1-induced tyrosine phosphorylation of the Mr-150,000 and Mr-130,000 proteins was detected within 30 s, whereas phosphorylation of the Mr-90,000 protein was not detected until 3 min after HBGF-1 stimulation. All three proteins were phosphorylated maximally after 15 to 30 min. Phosphoamino acid analysis of the Mr-150,000 and Mr-90,000 proteins confirmed the phosphorylation of these proteins on tyrosine residues. Phosphorylation of the Mr-150,000 and Mr-90,000 proteins occurred when cells were exposed to HBGF-1 at 37 degrees C but not at 4 degrees C. Exposure of cells to sodium orthovanadate, a potent P-Tyr phosphatase inhibitor, before stimulation with HBGF-1 resulted in enhanced detection of the Mr-150,000, Mr-130,000, and Mr-90,000 proteins by anti-P-Tyr antibodies. Anti-P-Tyr affinity-based chromatography was used to adsorb the HBGF-1 receptor affinity labeled with 125I-HBGF-1. The cross-linked HBGF-1 receptor-ligand complex was eluded with phenyl phosphate as two components: Mr 170,000 and 150,000. P-Tyr, but not phosphoserine or phosphothreonine, inhibited adsorption of the (125)I-HBGF-1-receptor complex to the anti-P-Tyr antibody matrix. Treatment of cells with sodium orthovanadate also enhanced recognition of the cross-linked (125)I-HBGF-1-receptor complex by the anti-P-Tyr matrix. These data suggest that (i) the (125)I-HBGF-1-receptor complex is phosphorylated on tyrosine residues and (ii) HBGF-1-induced signal transduction involves, in part, the tyrosine phosphorylation of at least three polypeptides.

Isolation of a biologically active fragment from the carboxy terminus of the fetal rat binding protein for insulin-like growth factors

We have purified a 14 kDa fragment of the 30 kDa binding protein for insulin-like growth factors (IGFs) from BRL-3A cell conditioned medium. The fragment binds IGF-I and IGF-II with similar specificity to the 30 kDa binding protein, but with lower affinity. It corresponds to the carboxy terminus of the native binding protein (residues 148-270), and is thought to arise by proteolysis. We infer that this region of the native binding protein contains, at least in part, the IGF binding domain.

Analysis of Putative Heparin-binding Domains of Fibroblast Growth Factor-1 USING SITE-DIRECTED MUTAGENESIS AND PEPTIDE ANALOGUES

The contribution of individual basic amino acids within three putative “consensus sequences” for heparin binding of fibroblast growth factor-1 have been examined by site-directed mutagenesis. The results indicate that a significant reduction in the apparent affinity of fibroblast growth factor-1 for heparin is only observed when basic residues in one of the three regions are mutated. Mutation in the other regions are without affect on heparin binding. The heparin binding properties of synthetic peptides based on the three “consensus sequences” paralleled the mutagenesis results. That is, synthetic peptides corresponding to regions of the protein that were affected by mutagenesis with respect to heparin binding exhibited a relatively high affinity for immobilized heparin, whereas those corresponding to regions of similar charge density that were unaffected by mutagenesis did not. In addition, amino acid substitution of a nonbasic residue in the heparin-binding peptide could abolish its heparin binding capacity. The heparin-binding peptide could antagonize the mitogenic activity of FGF-1, probably because of the heparin dependence of this activity. Together these data demonstrate that the heparin binding properties of fibroblast growth factor-1 are dictated by structural features more complex than clusters of basic amino acids. The results of these and other studies indicate that consensus motifs for heparin-binding require further definition. More importantly, the results provide a basis for the design of peptide-based inhibitors of FGF-1.

Optimizing human demineralized bone matrix for clinical application.

The use of human demineralized bone matrix (DBM) powder in periodontal and orthopedic applications is limited by the variability in the osteoinductive or osteoconductive properties of the material. The goal of the present study was to establish simple in vitro and in vivo assays of DBM that would allow us to screen different lots of the material prior to testing in more rigorous animal models. The results demonstrate a wide variability in the performance of individual lots of DBM powder obtained from a single tissue bank. The studies also demonstrate that relatively simple screening can be used to establish the quality of the different lots, and that performance and ease of handling can be improved by using relatively small particle sizes delivered in a fibrin sealant matrix.