Bovine brain and pituitary fibroblast growth factors: comparison of their abilities to support the proliferation of human and bovine vascular endothelial cells

The mitogenic effects of brain and pituitary fibroblast growth factors (FGF) on vascular endothelial cells derived from either human umbilical vein or bovine aortic arch have been compared. Both brain and pituitary FGF are mitogenic for low density human umbilical endothelial (HUE) cell cultures maintained on either fibronectin- or laminin-coated dishes or on biomatrices produced by cultured cells such as bovine corneal endothelial cells or the teratocarcinoma cell line PF-HR-9. Pituitary FGF triggered the proliferation of HUE cells at concentrations as low as 0.25 ng/ml, with a half-maximal response at 0.55 ng/ml and optimal effect at 2.5 to 5 ng/ml. It was 50,000-fold more potent than commercial preparations of endothelial cell growth factor and 40 times more potent than commercial preparations of pituitary FGF. Similar results were observed when the effect of pituitary FGF was tested on low density cultures of adult bovine aortic endothelial cells. When the activity of brain and pituitary FGF on low density HUE cell cultures was compared, both mitogens were active. To confirm the presence in brain extract of both acidic and neutral, as well as of basic mitogen, for HUE cells, brain tissues were extracted at acidic (4.5), neutral (7.2), and basic (8.5) pH. The three types of extracts were equally potent in supporting the proliferation of either HUE or adult bovine aortic endothelial cells. When the various extracts were absorbed at pH 6.0 on a carboxymethyl Sephadex C-50 column, the neutral and basic extracts had an activity after adsorption similar to that of unadsorbed extracts. In contrast, extracts prepared at pH 4.5 lost 90-95% of their activity which was recovered in the adsorbed fraction containing FGF.     

A unique family of endothelial cell polypeptide mitogens: the antigenic and receptor cross-reactivity of bovine endothelial cell growth factor, brain-derived acidic fibroblast growth factor, and eye-derived growth factor-II

Bovine brain, hypothalamus, pituitary, and retina contain potent anionic polypeptide mitogens for endothelial cells. Immunological assays using murine monoclonal antibodies against bovine endothelial cell growth factor (ECGF) and radioreceptor assays using [125I]ECGF were performed to determine the cross-reactivity of ECGF with bovine acidic pI brain-derived fibroblast growth factor (acidic FGF) and bovine eye-derived growth factor-II [EDGF-II). We observed that acidic FGF and EDGF-II are recognized by anti-ECGF monoclonal antibodies and compete with [125I] ECGF for receptor occupancy. Furthermore, the biological activity of ECGF, acidic FGF, and EDGF-II is potentiated by the glycosaminoglycan, heparin. These results argue that ECGF, acidic FGF, and EDGF-II belong to a common family of polypeptide growth factors.     

Endothelial cell growth factors in embryonic and adult chick brain are related to human acidic fibroblast growth factor.

We have investigated the nature of endothelial cell growth factors in 14-day embryonic and adult chick brain extracts. Mitogenic activity was isolated by a combination of cation-exchange, heparin-Sepharose affinity, and reverse-phase HPLC. Two major mitogenic fractions eluted from heparin-Sepharose at 0.8-1.3 M and 1.5-2 M. Biologically active proteins eluting at 0.8-1.3 M NaCl, after purification to homogeneity from embryonic and adult brain, were found to possess the same amino-terminal sequence as human acidic fibroblast growth factor (aFGF). The notion that the isolated mitogens represent chick aFGF is further supported by the findings that their affinity for heparin and their retention behavior in highly resolutive HPLC are indistinguishable from those of genuine aFGF. Mitogenic activities eluting at 1.5-2 M NaCl were also present in embryonic and adult brain, but in quantities insufficient for preliminary characterization. The high specific mitogenic activity for endothelial cells, high affinity for heparin and cross-reactivity with antibodies against bovine basic FGF (bFGF) suggest a relationship of those materials with basic FGF. Our data also suggest that the sequence of aFGF is highly conserved among vertebrates. While angiogenesis occurs predominantly in the embryonic brain, the absence of notable differences in the contents of the potent angiogenic factors aFGF and bFGF in embryonic versus adult chick brain is interesting.     

Heparin protects basic and acidic FGF from inactivation

The ability of heparin or that of hexuronyl hexosaminoglycan sulfate (HHS-4) to protect basic or acidic fibroblast growth factor (FGF) from acid or heat inactivation has been analyzed. Both freshly prepared basic and acidic FGF stimulate the growth of baby hamster kidney (BHK-21) cells exposed to medium supplemented with transferrin and insulin. Freshly prepared basic FGF was 10 fold more potent than acidic FGF. The addition of heparin to the medium decreased the potency of basic FGF while it potentiated that of acidic FGF. Upon storage of FGF at -80 degrees C, a decline in potency of both basic and acidic FGF was observed. Heparin, when added to the medium, potentiated their activities, which became similar to that of freshly prepared basic FGF. In order to test whether heparin could protect basic or acidic FGF from inactivation, both mitogens were exposed to acid conditions (1% trifluoroacetic acid, pH 1.08, 2 h) or heat (65 degrees C, 5 min) which inactivate basic or acidic FGF. When exposed to such treatment in the presence of heparin or HHS-4, basic and acidic FGF retained their potency. The effect of heparin and HHS-4 on the bioactivity of basic and acidic FGF is truly of a protective nature, since they had no effect when added after inactivation of the mitogens. Potentiation of the bioactivity of the protected mitogens or of the inactivated one could only be observed when cells were exposed to high heparin or HHS-4 concentrations. This indicates that heparin and HHS-4, in addition to protecting FGF from inactivation, also acts at another locus, as yet unidentified.     

Schwann cell growth factors.

Purified rat Schwann cells were found to proliferate very slowly in normal growth medium containing 10% fetal calf serum (FCS). Crude extracts of bovine pituitary or brain markedly enhanced Schwann cell growth, while similar extracts of nerve roots, liver and kidney did not. Pituitary extracts were more potent than brain extracts, and extracts from both anterior and posterior pituitary were active. The mitogenic activity of pituitary extracts was reduced by treatment with trypsin, and abolished by pronase and by boiling. A variety of known anterior and posterior pituitary hormones, as well as fibroblast, epidermal and nerve growth factors, were not mitogenic. FCS (greater than 1%) was required for Schwann cell proliferation, but even high concentrations of FCS did not substitute for pituitary or brain extracts, and serum from various other species did not support Schwann cell growth. Although various agents that increase cyclic AMP levels (such as cholera toxin) had been shown to be Schwann cell mitogens, extracts of pituitary or brain did not increase cyclic AMP levels. Extracts of various bovine tissues, including pituitary, brain, liver and kidney, acted synergistically with cholera toxin in stimulating Schwann cell proliferation, although the increase in cyclic AMP induced by the mixture was not greater than that seen with cholera toxin alone. We conclude that there are at least two separate pathways for stimulating Schwann cell division, only one of which involves an increase in intracellular cyclic AMP.     

Purification and partial characterization of a mitogenic factor from bovine liver: structural homology with basic fibroblast growth factor

Two mitogenic peptides in bovine liver extract were purified to apparent homogeneity by monitoring the purification steps with two in vitro bioassays; one based on stimulation of adult bovine aortic arch endothelial cell proliferation and the other incorporation of [3H]thymidine to mouse fibroblast 3T3 cells. The purification procedure involved cation-exchange chromatography followed by affinity chromatography on heparin-Sepharose and two steps of reversed-phase HPLC. The purified material showed the same biological activity as pituitary basic fibroblast growth factor (FGF). Amino acid analyses of the purified mitogen yielded a similar, but not identical composition to that of bovine pituitary basic FGF(1-146) reported previously. Gas-phase microsequencing identified two sequences in equal amounts in the purified preparation. Furthermore, the sequencing results are in accord with the theoretical data obtained when two truncated forms of basic FGF, corresponding to FGF(12-146) and (16-146), are being sequenced simultaneously. Basic FGF(12-146) is a novel truncated form of basic FGF which has not been isolated before although the (16-146) fragment has been found previously in kidney, corpus luteum, and adrenal. SDS-PAGE analysis could not separate the two forms and showed that both migrated as a protein of about 15,100 daltons, which is slightly smaller than intact basic FGF(1-146) (16,200 daltons). These results, taken together, indicate that at least some of the mitogenic activity in liver may be derived from basic FGF-related polypeptides.     

Lysates of two established human tumor lines contain heparin-binding growth factors related to bovine acidic brain fibroblast growth factor

Cell lysates of two established human tumor lines, a medulloblastoma (TE671), and a rhabdomyosarcoma (RD), contain mitogenic activity which elutes from heparin-Sepharose under conditions typical of class 1 heparin-binding growth factors, such as acidic brain fibroblast growth factor. The presence of this class of mitogen in both cell lines was confirmed by their chromatographic behavior on reversed-phase C3 columns, and by the ability of heparin to enhance their mitogenic activity. Using a specific synthetic DNA probe, RNA's were isolated from both cell lines by hybridization-selection, translated in vitro, and translated proteins affinity fractionated on heparin-Sepharose. The results demonstrate that TE671 and RD cell lysates contain mRNA's for mitogens related to acidic brain fibroblast growth factor, and also suggest that high molecular weight proteins exist that are closely related to, or are precursor forms of, the class 1 mitogens.     

Platelet-derived growth factors and fibroblast growth factors are mitogens for rat Schwann cells

Rat sciatic nerve Schwann cells in culture respond to a limited range of mitogens, including glial growth factor, transforming growth factors beta-1 and beta-2 (TGF-beta 1, TGF-beta 2), some cell membrane-associated factors, and to agents such as cholera toxin and forskolin which raise intracellular levels of cAMP. These responses require the presence of FCS, which exhibits little or no mitogenic activity in the absence of other factors. However, we recently found that forskolin greatly potentiates the mitogenic signal from TGFs-beta 1 and beta 2, raising the possibility that cAMP might couple other factors to mitogenesis. We have therefore screened a range of candidate mitogens using DNA synthesis assays. Other than TGFs-beta and glial growth factor, none of the factors tested were mitogenic in the presence of 10% serum alone. With the addition of forskolin, however, porcine PDGF, human PDGF, acidic and basic FGF were potent mitogens for rat Schwann cells, stimulating DNA synthesis and increasing cell number. Cholera toxin and dibutyrylcyclicAMP, but not 1,9-dideoxyforskolin, can substitute for forskolin indicating that the mitogenic effect is mediated via adenylyl cyclase activation. Porcine PDGF gave half-maximal stimulation at 15 pM, and human PGDF an equivalent response at 1 nM. Basic FGF was half maximal at 5 pM, acidic FGF at 1 nM. The recognition of PDGFs and FGFs as mitogens for Schwann cells has many implications for the study of Schwann cell proliferation in the development and regeneration of nerves, and in Schwann cell tumorigenesis.     

Isolation and partial characterization of an endothelial cell growth factor from the bovine kidney: homology with basic fibroblast growth factor

Two kidney-derived mitogens have been isolated by ion exchange, heparin-Sepharose and reverse-phase high-performance liquid chromatography on the basis of their capacity to stimulate the proliferation of bovine vascular endothelial cells in vitro. Gas phase sequence analysis identified the amino terminal sequences His-Phe-Lys-Asp-Pro-Lys-Arg-Leu-Tyr-X-Lys-Asn-Gly-Gly-Phe-Phe-Leu and His-Phe-Lys-Asp-Pro-Lys-Arg-Leu, respectively. The sequences are identical to residues 16-32 and 16-23 of bovine basic pituitary Fibroblast Growth Factor (FGF). The possibility that these kidney-derived mitogens are related, if not identical, to pituitary basic FGF is supported by the observations that they have similar molecular weights (15-16 kDa), similar retention behavior on all steps of chromatography and similar amino acid compositions, and they share at least some structural homology. Moreover, the kidney-derived growth factors, like basic FGF, are potent stimulators of capillary endothelial cells, granulosa cells, adrenocortical cells and vascular smooth-muscle cells (ED50 = 50 pg). The results demonstrate the existence of a kidney-derived FGF and suggest that at least some of the mitogenic, angiogenic and neovascularising activities described to be present in the kidney are due to the presence of an FGF-like molecule in this tissue.     

Characterization of acidic and basic fibroblast growth factors in brain, retina and vitreous chick embryo

We have purified acidic and basic fibroblast growth factors (c-aFGF, c-bFGF) from 11 day-old chick embryo brain, retina and vitreous by heparin-Sepharose chromatography and reverse phase HPLC. The analysis of their biological activity as well as their molecular weight indicates that they were analogous to basic or acidic human and bovine FGF. The ratio of c-aFGF to c-bFGF activity depended of the tissue. In brain c-aFGF represented 66% of the total mitogenic activity retained on the heparin-sepharose column and c-bFGF 34% while retina contained 16% of c-aFGF and 84% of c-bFGF; vitreous 78% of c-aFGF and 22% of c-bFGF. Like human aFGF, Heparin stimulated purified c-aFGF mitogenic activity in the absence of serum but inhibited the activity of the retina acid soluble extract, in the presence of foetal calf serum (FCS). Thus, chick embryo and adult human acidic and basic FGF respectively share the same biochemical properties. Since there are no blood vessels in chick retina or vitreous, their presence in these tissues suggests that angiogenesis is not the only role of these growth factors.     

Synergistic interactions between transforming growth factor beta and fibroblast growth factor regulate Schwann cell mitosis

Cultured Schwann cells divide in response to a limited repertoire of mitogens. In addition to cyclic AMP analogs and reagents that raise intracellular cyclic AMP, the only purified mitogens for Schwann cells are transforming growth factor beta (TGFβ), acidic (a) and basic (b) fibroblast growth factor (FGF), and the BB and AB dimers of platelet-derived growth factor (PDGF). Although individually each one of these growth factors is only weakly mitogenic, it is shown here that when TGFβ and bFGF are added to Schwann cell cultures together, they interact to produce a mitogenic response that is much greater than that produced by either growth factor alone. Both the absolute concentration of each protein and the molar ratio of TGFβ to bFGF determines the magnitude of the Schwann cell response.     

Fragments of myelin basic protein derived from human brain are not mitogenic in cultures of human amniotic fluid cells and other cells

The possible mitogenic effects of a number of preparations of the myelin basic protein (MBP) of human brain have been investigated in various cell types in culture, including human amniotic fluid cells. Intact human MBP, as well as fragments derived by BNPS-skatole and cathepsin D treatment, and isoelectric focusing fractions of human MBP, showed no mitogenic activity. These results are consistent with recent findings that the fibroblast growth factor (FGF) activity of bovine brain does not originate from MBP.     

Synergistic interactions between transforming growth factor beta and fibroblast growth factor regulate Schwann cell mitosis.

Cultured Schwann cells divide in response to a limited repertoire of mitogens. In addition to cyclic AMP analogs and reagents that raise intracellular cyclic AMP, the only purified mitogens for Schwann cells are transforming growth factor beta (TGF beta), acidic (a) and basic (b) fibroblast growth factor (FGF), and the BB and AB dimers of platelet-derived growth factor (PDGF). Although individually each one of these growth factors is only weakly mitogenic, it is shown here that when TGF beta and bFGF are added to Schwann cell cultures together, they interact to produce a mitogenic response that is much greater than that produced by either growth factor alone. Both the absolute concentration of each protein and the molar ratio of TGF beta to bFGF determines the magnitude of the Schwann cell response.     

Enhancement of DNA synthesis of human epithelial carcinoma cells by acidic fibroblast growth factor

Human epithelial cells that had grown out from a maxillary carcinoma were examined for their responsiveness to putative growth-controlling factors in a serum-free medium. Among the factors examined, bovine brain acidic fibroblast growth factor (FGF) at 1 to 10 ng/ml significantly promoted DNA synthesis of the cells in the presence of 5 U/ml heparin, whereas type beta transforming growth factor inhibited it in a dose-dependent manner. Fetal bovine serum at 0.6% inhibited DNA synthesis of the cells by approximately 15%, but no significant influence was observed at higher concentrations up to 10%. Epidermal growth factor, bovine pituitary gland FGF and basic FGF exhibited no significant effect on DNA synthesis of the cells. The present result suggests that acidic FGF, a known mitogen for endothelial cells, is also mitogenic for human epithelial cells derived from maxillary carcinoma.     

Aortic endothelial cells synthesize basic fibroblast growth factor which remains cell associated and platelet-derived growth factor-like protein which is secreted

Cultured bovine aortic endothelial cells synthesize growth factors which markedly differ in the regulation of their storage and secretion. Endothelial cell lysates, but not conditioned medium, contain a growth factor activity that appears to be basic fibroblast growth factor (FGF) by the following criteria: (1) it elutes from heparin-Sepharose at 1.4-1.6 M NaCl; (2) it is mitogenic for bovine aortic and capillary endothelial cells; (3) it is heat sensitive but stable to dithiothreitol; (4) it has a molecular weight of about 18,000 daltons; and (5) it cross-reacts with antiserum directed against basic FGF. In contrast, endothelial cell conditioned medium, but not lysates, contains a growth factor activity that (1) elutes from heparin-Sepharose at 0.4-0.5 M NaCl; (2) is mitogenic for fibroblasts and vascular smooth muscle cells but not for capillary endothelial cells; (3) is heat stable and dithiothreitol sensitive; and (4) competes with platelet-derived growth factor (PDGF) for binding to fibroblasts. From these criteria, it appears that endothelial cells secrete into the medium growth factors some of which are PDGF-like, but secrete little if any basic FGF. It is suggested that endothelial cell-associated basic FGF acts in an autocrine fashion to stimulate endothelial cell proliferation in response to endothelial cell perturbation or injury. On the other hand, the endothelial cell-secreted growth factors which are smooth muscle cell but not endothelial cell mitogens might exert a paracrine function on neighboring cells of the vessel wall.     

Basic and acidic fibroblast growth factors interact with the same cell surface receptors

Despite quantitative differences, the activity of basic and acidic fibroblast growth factors (FGF) on a wide variety of normal diploid cells derived from neuroectoderm and mesoderm is intrinsically similar. This suggests that they bind to the same cell surface receptors. This was investigated using a baby hamster kidney cell line (BHK-21) as a model. BHK-21 cell membrane components that interact with basic and acidic FGF have been identified by covalent cross-linking to their respective 125I-labeled ligands. Under appropriate conditions, basic and acidic 125I-FGF were cross-linked, using disuccinimidyl suberate, to two receptor species with apparent molecular masses of 145,000 and 125,000 daltons, respectively. The labeling of those receptors is inhibited when either native basic or acidic FGF are present in excess during incubation of cells with either acidic or basic 125I-FGF. Competition of basic 125I-FGF with increasing concentrations of native acidic FGF results in a preferential decrease in the labeling of the 125,000-dalton species, whereas competition of acidic 125I-FGF with increasing concentrations of native basic FGF leads to a preferential decrease in the labeling of the 145,000-dalton species. The data suggest that qualitatively both mitogens interact with the same 145,000- and 125,000-dalton receptor species. The different affinities displayed by acidic and basic FGF toward their common receptor molecules could explain why acidic FGF, depending on the cell type considered, is 20-100-fold less potent than basic FGF.     

A growth factor from spinal cord.

Mitogenic activity is present at a variety of sites in the central nervous system. A growth factor was purified from neonatal bovine spinal cord. It has a pI of 9.5-9.8 and a molecular weight of about 11,000 daltons. Spinal cord growth factor is a basic polypeptide that is inactivated by extremely acid or basic conditions. Its mobility on SDS polyacrylamide gels suggests that this factor is different from pituitary FGF and brain FGF-1.     

Purification in high yield of brain fibroblast growth factor by preparative isoelectric focusing at pH 9.6

The purification of fibroblast growth factor (FGF) from bovine brain has been reported (Gospodarowicz, D., Bialecki, H., and Greenburg G. (1978) J. Biol. Chem. 253, 3736-3743). Further studies have shown that bovine brain fibroblast growth factor is composed of three fragments derived by limited proteolysis from myelin basic protein (Westall, F. C., Lennon, V. A., and Gospodarowicz, D. (1978) Proc. Natl. Acad. Sci. U. S. A. 75, 4675-4678). Two of these fragments (FGF-1 and -2) had a high specific mitogenic activity. In the presence study, we have used isoelectric focusing to purify brain FGF to homogeneity. The principal active components of brain FGF preparations partially purified by gel filtration on Sephadex G-75 can be recovered in high yield from isoelectric focusing in sucrose. These components have a pI of 9.6 and 9.54, respectively. Their electrophoretic mobility, amino acid composition, and biological properties are identical with those previously reported for FGF-1 and -2.     

Fibroblast growth factors are present in the extracellular matrix produced by endothelial cells in vitro: implications for a role of heparinase-like enzymes in the neovascular response

Salt extracts of the extracellular matrix (ECM) that is produced by vascular and capillary endothelial cells contain mitogens that are indistinguishable from basic and acidic fibroblast growth factors (FGFs). The biological activity found in these extracts is retained by heparin-Sepharose affinity columns and elutes with salt concentrations similar to those required to elute FGFs (i.e. 1.1 - 2M NaCl). Antisera raised against synthetic fragments of basic and acidic FGF crossreact with the ECM-derived mitogens. Radioiodinated basic FGF binds to the ECM formed by both vascular and capillary endothelial cells, a result that is consistent with the observation that FGF-like mitogens are found on the ECM. The binding of FGF to the ECM is negligible when the ECM has been pretreated with heparinase or heparitinase suggesting that the mitogen is interacting with a heparin-like glycosaminoglycan in the ECM. The digestion of the ECM with several grades of hyaluronidase, chondroitinase or chondro-4-sulfatase or chondro-6-sulfatase has little or no effect on 125I-FGF binding to the ECM. In view of the fact that many, if not all cells, produce heparan sulfates and that these glycosaminoglycans are associated with the external surface of the cell and the ECM, a model is proposed suggesting that the neovascular response induced by tumours and some normal tissues may be mediated at least in part, by the initial release of heparinase-like enzymes rather than angiogenic factors (FGFs) per se. The release of these enzymes would effectively mobilize a secondary local release of FGF from the ECM which then induces a proliferative response.     

Further purification of human pituitary-derived chondrocyte growth factor: heparin-binding and cross-reactivity with antiserum to basic FGF

The previously described human pituitary-derived chondrocyte growth factor (CGF), mitogenic for rabbit fetal chondrocytes, was found to bind to heparin-Sepharose and was eluted with 1.5M NaCl. Further characterization of CGF demonstrated a molecular weight of 18-20 kD and cross-reactivity with antiserum to synthetic bovine basic fibroblast growth factor (FGF1-24). When human pituitaries were homogenized in 0.15 ammonium sulfate (pH 5.5) and the extract chromatographed on heparin-Sepharose, 98% of the mitogenic activity was adsorbed to heparin and eluted with 3M NaCl. These findings indicate that CGF is closely related or identical to basic FGF and that the bulk of mitogenic activity in the human pituitary extracts binds to heparin.