Purification and characterization of heparin-binding endothelial cell growth factors

Thirteen endothelial cell growth factors have been purified to homogeneity by heparin affinity and reversed-phase high performance liquid chromatography, and their chromatographic and electrophoretic properties were compared. The amino acid compositions of 10 of these mitogens have also been determined. The results indicate that these heparin-binding growth factors (HBGFs) can be subdivided into two classes. Class 1 HBGFs are anionic mitogens of molecular weight 15,000-17,000 found in high levels in neural tissue and include acidic brain fibroblast growth factor and retina-derived growth factor. Class 2 HBGFs are cationic mitogens of molecular weight 18,000-20,000 found in a variety of normal tissues and are typified by pituitary fibroblast growth factor and cartilage-derived growth factor. Typical class 2 HBGFs have also been isolated from a rat chondrosarcoma, a human melanoma, and a human hepatoma, suggesting that tumors do not make a structurally distinct HBGF class. These results provide a sound basis for the evaluation of the HBGFs purified from a variety of tissues and species and for the delineation of their normal and pathological functions in vivo.     

Purification, partial characterization and biological effects of the XTC mesoderm-inducing factor

The mesoderm of Xenopus laevis is formed through an inductive interaction in which a signal from the vegetal hemisphere of the blastula acts on overlying animal pole cells. We have recently reported that the Xenopus XTC cell line secretes a mesoderm-inducing factor (MIF) which may resemble the natural signal. In this paper, we describe the purification and biological effects of XTC-MIF. XTC-MIF is a hydrophobic protein with an isoelectric point of 7.8 and an apparent relative molecular mass (Mr) of 23,500. On reduction, XTC-MIF loses its biological activity and the protein dissociates into two inactive subunits with apparent Mr of about 15,000. These properties closely resemble those of transforming growth factor type beta (TGF-beta), and it is interesting that TGF-beta 2 has recently been shown to have mesoderm-inducing activity. The biological response to XTC-MIF is graded. After exposure to 0.2-1.0 ng ml-1 XTC-MIF, stage-8 animal pole explants form mesenchyme and mesothelium. At higher concentrations, up to about 5 ng ml-1, muscle is formed, occasionally with neural tissue. In response to concentrations of XTC-MIF greater than 5-10 ng ml-1, notochord and neural tissue are usually formed. The formation of notochord and neural tissue in response to XTC-MIF represents a qualitative difference between this inducing factor and the other known group of MIFs, the heparin-binding growth factors.     

Modulation of Ca2(+)-dependent intercellular adhesion in bovine aortic and human umbilical vein endothelial cells by heparin-binding growth factors

Cultured endothelial cells have been shown to possess two mechanisms of intercellular adhesion: Ca2(+)-dependent and Ca2(+)-independent. We report here that growth of bovine aortic endothelial cells (BAEC) in complete medium containing purified basic fibroblast growth factor (bFGF, 6 ng/ml) results in loss of Ca2(+)-dependent intercellular adhesion. In the presence of heparin (90 micrograms/ml), this effect is reproduced upon treatment with acidic fibroblast growth factor (aFGF, 6 ng/ml) or endothelial cell growth supplement (ECGS, 100 micrograms/ml), in both human umbilical vein endothelial cells (HUVEC) and BAEC. Treatment at these doses with aFGF in the absence of heparin or with heparin alone is without significant effect. Loss of Ca2(+)-dependent adhesion following treatment of cells with heparin-binding growth factors (HBGFs) is prevented by pre-treatment of cell layers with cycloheximide. The Ca2(+)-independent adhesion mechanism is unaffected by HBGF treatment. Exposure of endothelial cells to HBGFs, moreover, prevents the eventual establishment of quiescence in growing cultures and restimulates replication in confluent cultures that have reached a final density-inhibited state. Addition of bFGF alone or aFGF + heparin at these doses results in a 4-fold increase in DNA synthesis over untreated control cultures at saturation density as reflected by thymidine index. A single addition of bFGF (6 ng/ml) to untreated quiescent confluent BAEC monolayers results in an increase in 3H-TdR incorporation reaching a peak at 22 hours with a parallel loss of Ca2(+)-dependent adhesiveness. Fluorescent staining with rhodamine-phalloidin demonstrates an altered distribution of polymerized F-actin in the bFGF-treated monolayers, marked by disruption of the dense peripheral microfilament bands retained by untreated confluent monolayers. Together, these results indicate that the mitogenic effect of HBGFs in cultured endothelial cells is associated with a "morphogenic" set of responses, perhaps dependent on breakdown of calcium-dependent cell-cell contacts.     

Heparin and the phenotype of adult human vascular smooth muscle cells

Summary To study mechanisms controlling growth and phenotype in human vascular smooth muscle cells, we established culture conditions under which these cells proliferate rapidly and achieve life-spans of 50–60 population doublings. In medium containing heparin and heparin-binding growth factors, growth rate and life-span of human vascular smooth muscle cells increased more than 50% relative to cultures with neither supplement, and more than 20% compared to cultures supplemented only with heparin-binding growth factors. In contrast to observations made in rat vascular smooth muscle cells, smooth muscle-specific α-actin in the human cells was expressed only in the presence of heparin and colocalized with β/γ nonmuscle actins in stress fibers, not in adhesion plaques. Heparin, in the presence of heparin-binding growth factors, also caused more than 170% stimulation of tracer glucosamine incorporation into hyaluronic acid and a 7.5-fold increase in hyaluronic acid accumulation. In comparison, total sulfate incorporation into sulfated glycosaminoglycans increased by less than 40%. In light of our previous findings that heparin suppresses collagen gene expression, we conclude that heparin induces human vascular smooth muscle cells exposed to heparin-binding growth factors to remodel their extracellular matrix by altering the relative rates of hyaluronic acid (HA) and collagen synthesis. The resulting hyaluronic-acid-rich, collagen-poor matrix may enhance infiltration of CD44/hyaluronate-receptor-bearing T-lymphocytes and monocytes into the vascular wall, an early event in atherogenesis.     

Comparative endocrinology-paracrinology-autocrinology of human adult large vessel endothelial and smooth muscle cells

Summary Endothelial and smooth muscle cells were isolated from human adult large blood vessels to compare their proliferative response to hormones and growth factors. Neural extracts and the medium from differentiated hepatoma cells were used as concentrated sources of required hormones and growth factors that supported both cell types. Active hormones and growth factors were identified from the neural extracts and hepatoma medium by substitution or direct isolation and biochemical characterization. Epidermal growth factor, lipoproteins, and heparin-binding growth factors elicited growth-stimulatory effects on both endothelial and smooth muscle cells. Both types of human vascular cells displayed 7600 to 8600 specific heparin-binding growth factor receptors per cell with a similar apparent dissociation constant (Kd) of 200 to 250 pM. Heparin modified the response of both endothelial and smooth muscle cells to heparin-binding growth factors dependent on the type of heparin-binding growth factor and amount of heparinlike material present. In addition, heparin exerted a growth factor-independent inhibition of smooth muscle cell proliferation. Platelet-derived growth factor, insulinlike growth factors, and glucocorticoid specifically supported proliferation of smooth muscle cells with no apparent effect on endothelial cell proliferation. Growth-factorlike proteinase inhibitors had an impact specifically on endothelial cell proliferation. Transforming growth factor beta was a specific inhibitor of endothelial cells, but had a positive effect on smooth muscle cell proliferation. The results provide a framework for differential control of the two vascular cell types at normal and atherosclerotic blood vessel sites by the balance among positive and negative effectors of endocrine, paracrine and autocrine origin. This research was supported by NIH grants CA37589, HL33847, and AM35310 from the National Institutes of Health, Bethesda, MD; grant 1718 from the Council for Tobacco Research; and a grant from RJR/Nabisco, Inc.     

Potential mechanisms for the regulation of growth factor binding by heparin

Heparin and heparan sulfate proteoglycans (HSPG) bind many soluble growth factors and this binding is now recognized as an important mechanism for modulation of cell activity. Fibroblast growth factor-2 (FGF-2) is one of the best characterized of the heparin-binding growth factors and it has been shown experimentally that heparin regulation of FGF-2 activity is dependent on the level of cell HSPG and the concentration of heparin. In this paper, we explore, using mathematical modeling, proposed mechanisms for heparin regulation and determine how they impact FGF receptor binding. We demonstrate that the experimentally observed receptor binding phenomena can be reproduced if cells (1) express heparin-binding cell surface molecules and if either (2) these heparin binding sites are FGFR and bind heparin and FGF-2-heparin complexes or (3) are surface molecules able to bind FGF-2 and couple with FGF-2 receptors to form high-affinity FGF-2-bound surface complexes. The ability of heparin to directly interact with the FGFR and bind FGF-2 in the absence of this coupling function was not sufficient to explain heparin activity. These findings have implications with regard to regulation of heparin-binding growth factors and could help guide the development of highly specific growth regulatory molecules through specific regulation by heparin and HSPG.     

Structure-function studies of heparin-binding (acidic fibroblast) growth factor-1 using site-directed mutagenesis.

The heparin-binding or fibroblast growth factors (HBGFs) modulate cell growth and migration, angiogenesis, wound repair, neurite extension, and mesoderm induction. Relatively little is known regarding the precise mechanism of action of these growth factors or the structural basis for their action. A better understanding of the structural basis for the different activities of these proteins should lead to the development of agonists and antagonists of specific HBGF activities. In this report, we summarize evidence that indicates that the heparin-binding and mitogenic activities of HBGF-1 can be dissociated from the receptor-binding activities of the growth factor by site-directed mutagenesis of a single lysine residue. Thus, the mutant HBGF-1 has normal receptor-binding activity and is capable of stimulating tyrosine kinase activity and proto-oncogene expression but is not able to elicit a mitogenic response. A similar dissociation of early events such as proto-oncogene expression from the mitogenic response is observed when the human wild-tupe HBGF-1 is used in the absence of added heparin. These results indicate that intracellular sites of action by the growth factor may be required to complete the mitogenic response. Further evidence for this idea is provided by transfection experiments where NIH 3T3 cells are engineered to produce large quantities of wild-type or mutant HBGF-1. Production of wild-type induces a transformed phenotype, whereas over-production of the mutant does not. The majority of both forms of the protein is found in the nuclear fraction of the transfected cells. Additional site-directed mutagenesis of putative nuclear translocation sequences in the wild-type protein do not affect mitogenic activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparison of the effects of class 1 and class 2 heparin-binding growth factors on protein synthesis and actin mRNA expression in BALB/c-3T3 cells

Biological effects of class 1 or class 2 heparin-binding growth factors (HBGFs) were compared in BALB/c-3T3 cells. Changes in protein synthesis, as monitored by two-dimensional gel electrophoresis, reveal that while both HBGFs induce the same changes in the synthesis of intracellular proteins, class 2 HBGF selectively increases the synthesis of a 43-kD extracellular protein. Heparin, which potentiates the mitogenic activity of class 1 but not class 2 HBGF, does not potentiate the changes in protein synthesis elicited by HBGF-1. Since each HBGF increases actin synthesis, regulation of actin mRNA expression was examined. Actin mRNA levels increase rapidly and transiently in response to either HBGF, and similar superinduction responses are observed in the presence of HBGF and cycloheximide. Although the maximum increase in actin mRNA stimulated by either HBGF is similar, the levels of mRNA induced by class 2 HBGF remain elevated up to 48 hours compared to the level induced by class 1 HBGF. These results imply that in the same cell type class 1 and class 2 HBGFs may modulate some biological effects differently.     

A computational assessment of the predicted structures of Human Macrophage Migration Inhibitory Factor 1 orthologs in parasites and its affinity to human CD74 receptor

The human macrophage migration inhibitory factor 1 (Hu‐MIF‐1) is a protein involved in the inflammatory and immunology response to parasite infection. In the present study, the existence of Hu‐MIF‐1 from parasites have been explored by mining WormBase. A total of 35 helminths were found to have Hu‐MIF‐1 homologs, including some parasites of importance for public health. Physicochemical, structural, and biological properties of Hu‐MIF‐1 were compared with its orthologs in parasites showing that most of these are secretory proteins, with positive net charge and presence of the Cys‐Xaa‐Xaa‐Cys motif that is critical for its oxidoreductase activity. The inhibitor‐binding site present in Hu‐MIF‐1 is well conserved among parasite MIFs suggesting that Hu‐MIF inhibitors may target orthologs in pathogens. The binding of Hu‐MIF‐1 to its cognate receptor CD74 was predicted by computer‐assisted docking, and it resulted to be very similar to the predicted complexes formed by parasite MIFs and human CD74. More than 1 plausible conformation of MIFs in the extracellular loops of CD74 may be possible as demonstrated by the different predicted conformations of MIF orthologs in complex with CD74. Parasite MIFs in complex with CD74 resulted with some charged residues oriented to CD74, which was not observed in the Hu‐MIF‐1/CD74 complex. Our findings predict the binding mode of Hu‐MIF‐1 and orthologs with CD74, which can assist in the design of novel MIF inhibitors. Whether the parasite MIFs function specifically subvert host immune responses to suit the parasite is an open question that needs to be further investigated. Future research should lead to a better understanding of parasite MIF action in the parasite biology.     

Dermacentor variabilis: characterization and modeling of macrophage migration inhibitory factor with phylogenetic comparisons to other ticks, insects and parasitic nematodes

We have identified and characterized the full length cDNA sequence of macrophage migration inhibitory factor (MIF) from the American dog tick, Dermacentor variabilis. The nucleotide and putative amino acid sequences from this study shared a high level of sequence conservation with other tick MIFs. The bioinformatics analysis showed across species conservation of the MIF amino acid sequence in ticks, insects and nematodes. The multiple sequence alignment identified Pro 1, 3, 55; Thr 7, 112; Asn 8, 72; Ile 64, 96; Gly 65, 110, Ser 63 and Leu 87 amino acids to be highly conserved among the sequences selected for this study. Tick MIF does not have the oxidoreductase domain as found in MIFs from other animals suggesting that tick MIF is not capable of performing as an oxidoreductase. The phylogenetic analysis revealed that tick MIFs share a closer evolutionary proximity to parasitic nematode MIFs than to insect MIFs.     

Characterization and molecular cloning of a putative binding protein for heparin-binding growth factors

A novel Mr 17,000 heparin-binding protein was purified from culture medium conditioned by A431 human epidermoid carcinoma cells. This protein, designated HBp17, was found to bind the heparin-binding peptide growth factors HBGF-1 and HBGF-2 in a noncovalent, reversible manner. In addition HBp17 was found to inhibit the biological activities of both HBGF-1 and HBGF-2. Both the binding and inactivation of HBGF-1 and HBGF-2 by HBp17 were abolished by heparin. Full-length 1163-base pair HBp17 cDNA was cloned and sequenced by using the polymerase chain reaction technique. The deduced primary structure of HBp17 consisted of 234 amino acids including each of five partial peptide sequences obtained from proteolytic fragments of purified HBp17. The encoded protein included a 33-residue N-terminal signal sequence for secretion and a single potential N-linked glycosylation site. No homology with any known protein was found for the deduced primary structure of HBp17. The expression of HBp17 mRNA was found to occur preferentially in normal human keratinocytes and in squamous cell carcinomas. This pattern of HBp17 gene expression suggests that this binding protein for HBGFs 1 and 2 has a physiological role in squamous epithelia.     

Comparison of human and bovine brain derived heparin-binding growth factors

Two growth factors have been purified to homogeneity from human brain using heparin affinity chromatography. They have apparent molecular weights of 17 Kd and 18 Kd. Their amino acid compositions differ, but are similar to those of the two heparin-binding growth factors present in bovine neural tissue. These results suggest that the heparin-binding growth factors in neural tissue can be grouped into two distinct classes.     

Induction of angiogenesis by bovine brain derived class 1 heparin-binding growth factor

The angiogenic capacity of the class 1 heparin-binding growth factor from bovine brain, an anionic endothelial cell mitogen of Mr 16 000, has been evaluated. Its ability to induce the growth of new blood vessels has been assessed by means of two established assay systems. On the embryonic chick chorioallantoic membrane dose-response studies demonstrate that 160 ng (10 pmol) of mitogen is required to induce angiogenesis in greater than 50% of the eggs within 72 h. In the presence of 1 unit of exogenous heparin only 40 ng of mitogen (2.5 pmol) is needed to induce a similar response. Moreover, this occurs within 48 h, indicating that heparin also augments the angiogenic response by enhancing the rate of induction of angiogenesis. Eighty nanograms (5 pmol) of mitogen also induces the ingrowth of new blood vessels into the rabbit cornea, both in the presence and in the absence of heparin. These results establish that the class 1 heparin-binding growth factor from bovine brain is an angiogenesis factor. Importantly, the neovascularization induced by this angiogenesis factor is enhanced by heparin. The mechanistic implications for neovascularization under certain normal and pathological conditions are discussed.     

Effects of cell heterogeneity on production of polypeptide growth factors and mesoderm-inducing activity by Xenopus laevis XTC cells

The Xenopus laevis XTC cell line has been analyzed for the production of polypeptide growth factors and mesoderm-inducing activity. By the use of specific biological assays, it is shown that XTC cells produce a growth factor functionally related to the platelet-derived growth factor (PDGF) and two transforming growth factor (TGF) beta-like activities. Mesoderm-inducing activity, as measured on X. laevis ectodermal explants from stage 10 embryos, was found to coelute on a Bio-Gel P-100 column with one of the TGF beta-like activities at an apparent molecular weight of 6-10 kDa. Analysis of the DNA content from XTC cells by flow cytometry demonstrated that the cell line is heterogeneous and consists of both tetraploid and diploid cells. Cloning of the XTC cells and selecting single-cell colonies on the basis of their ability to grow in soft agar resulted in the isolation of several homogeneous, morphologically different clonal derivatives. Analysis of conditioned medium from these clonal derivatives showed that only one of them, the only diploid line among six investigated, produced a strong heat- and acid-stable mesoderm-inducing activity that induced notochord and muscle formation in stage 10 X. laevis ectodermal explants. The relation between this activity and a recently described TGF beta-like mesoderm-inducing factor obtained from XTC-conditioned medium will be discussed. In conclusion, a clonal cell line derived from X. laevis XTC cells which provides a good source for further characterization of mesoderm-inducing factors has been established.     

Specific structural features of heparan sulfate proteoglycans potentiate neuregulin-1 signaling

Neuregulins are a family of growth and differentiation factors that act through activation of cell-surface erbB receptor tyrosine kinases and have essential functions both during development and on the growth of cancer cells. One alternatively spliced neuregulin-1 form has a distinct heparin-binding immunoglobulin-like domain that enables it to adhere to heparan sulfate proteoglycans at key locations during development and substantially potentiates its activity. We examined the structural specificity needed for neuregulin-1-heparin interactions using a gel mobility shift assay together with an assay that measures the ability of specific oligosaccharides to block erbB receptor phosphorylation in L6 muscle cells. Whereas the N-sulfate group of heparin was most important, the 2-O-sulfate and 6-O-sulfate groups also contributed to neuregulin-1 binding in these two assays. Optimal binding to neuregulin-1 required eight or more heparin disaccharides; however, as few as two disaccharides were still able to bind neuregulin-1 to a lesser extent. The physiological importance of this specificity was shown both by chemical and siRNA treatment of cultured muscle cells. Pretreatment of muscle cells with chlorate that blocks all sulfation or with an siRNA that selectively blocks N-sulfation significantly reduced erbB receptor activation by neuregulin-1 but had no effect on the activity of neuregulin-1 that lacks the heparin-binding domain. These results suggest that the regulation of glycosaminoglycan sulfation is an important biological mechanism that can modulate both the localization and potentiation of neuregulin-1 signaling.     

In-gel ligand blotting with 125I-heparin for detection of heparin-binding growth factors

125I-labeled heparin was used to detect basic fibroblast growth factor (bFGF) in crude tumor cell extracts after separation by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis. 125I-labeled heparin bound avidly to native recombinant bFGF immobilized on nitrocellulose and eluted with 1.5-2.0 M NaCl. However, Western transfer of bFGF to nitrocellulose after SDS-polyacrylamide gel electrophoresis destroyed heparin-binding ability. In contrast, bFGF was detected by incubation of the polyacrylamide gels directly with 125I-labeled heparin in a gel overly technique. Heparin affinity and NaCl elution pattern from bFGF in gel were similar to those observed for native bFGF spotted on nitrocellulose. This procedure permitted detection of bFGF in crude extracts of a human astrocytoma cell line. In view of the rapid growth of the heparin-binding fibroblast growth factor gene family, this technique should prove useful for the rapid and sensitive detection of other heparin-binding growth factors.     

Amino-terminal sequences of a novel heparin-binding protein from human,bovine, rat,and chick brain: High interspecies homology

Recently, the partial structural characterization of a novel bovine brain protein was reported (1). Because of its mitogenic activity for vascular endothelial cells and its ability to strongly bind heparin it was termed heparin-binding brain mitogen (HBBM). Although HBBM shares these properties with members of the fibroblast growth factor (FGF) family of growth factors, its aminoterminal sequence is not homologous to that of the FGFs. Now, we report the isolation and partial structural characterization of HBBMs from human, rat and chick brain. Proteins were isolated by tissue extraction at pH 4.5, ammonium sulfate precipitation, cation exchange chromatography, heparin-Sepharose affinity chromatography and reverse-phase HPLC. The amino-terminal sequences of the HBBMs from human, bovine and rat brain are identical, whereas that of chick HBBM reveals a single amino acid substitution. The high sequence homology among the HBBMs from different species suggests an important biological role of the protein.Special issue dedicated to Dr. Sidney Udenfriend.     

Staphylococci Bind Heparin-Binding Host Growth Factors

Staphylococcus aureus, which mediated binding to heparan sulfate, and also strains of coagulase-negative staphylococci (CNS) adhered in high numbers to polymers with end-point attached heparin. A characteristic feature of several cell growth factors is strong affinity for heparin. In the present study, binding of the ¹²⁵I-labeled heparin-binding growth factors (HBGF), acidic and basic fibroblast growth factor (aFGF, bFGF), and platelet-derived growth factor (PDGF) by S. aureus and CNS strains was examined. Staphylococcal strains used in this study bind bFGF and PDGF, but not aFGF. The binding of bFGF and PDGF was time dependent, influenced by pH and ionic strength for S. aureus Cowan 1. Preincubation of staphylococcal cells with unlabeled bFGF enhanced bFGF binding, but heparin, protamine sulfate, poly-L-lysine, and suramin were potent inhibitors of ¹²⁵I-bFGF binding to cells of S. aureus Cowan 1. Glycosaminoglycans of comparable size (chondroitin sulfate), other polysulfated polymers (λ-carrageenan, fucoidan), and some polysulfated polysaccharides (dextran sulfate, pentosan polysulfate) inhibited binding of both GFs to various extents. The partial inhibition of binding of both GFs after protease and periodate treatments indicates that both proteinaceous and other carbohydrate moieties participate in the binding. A lysozyme cell surface extract and bacterial lysates of S. aureus Cowan 1 competitively inhibited binding of ¹²⁵I-bFGF and ¹²⁵I-PDGF. These results suggest that staphylococci have the ability to bind two of the HBGFs, bFGF and PDGF, but not aFGF, via more than one cell structure. These binding structures seem to be exposed on the cell surface and deeply anchored in the cytoplasmic membrane as well.     

Suppression of the biological activities of the epidermal growth factor (EGF)-like domain by the heparin-binding domain of heparin-binding EGF-like Growth Factor

Heparin-binding EGF-like growth factor (HB-EGF) is a member of the EGF family of growth factors that has a high affinity for heparin and heparan sulfate. While interactions with heparin are thought to modulate the biological activity of HB-EGF, the precise role of the heparin-binding domain has remained unclear. We analyzed the activity of wild-type HB-EGF and a mutant form lacking the heparin-binding domain (DeltaHB) in the presence or absence of heparin. The activity of the EGF-like domain of HB-EGF was determined by measuring binding to diphtheria toxin (DT) as well as the growth factor activity in EGF receptor-expressing cells. The binding affinity of DeltaHB for DT was much higher than that of wild-type HB-EGF in the absence of heparin. The binding affinity of HB-EGF for DT was increased by addition of exogenous heparin and reached the level close to the affinity of DeltaHB, whereas that of DeltaHB was not affected. Moreover, the growth factor activity of DeltaHB was much higher than that of wild-type HB-EGF in the absence of heparin but was not affected by addition of exogenous heparin, whereas HB-EGF had increased growth factor activity with added heparin. These results indicate that the heparin-binding domain suppresses the activity of the EGF-like domain of HB-EGF and that association of heparin with HB-EGF via this domain removes the suppressive effect. Thus, we conclude that the heparin-binding domain serves as a negative regulator of this growth factor.