Isolation of brain fibroblast growth factor by heparin-Sepharose affinity chromatography: identity with pituitary fibroblast growth factor

Differential regulation of cerebroside sulfotransferase and 2',3'-cyclic nucleotide 3'-phosphodiesterase by basic fibroblast growth factor in relation to proliferation in rat oligodendrocyte cultures

Previous results (Fressinaud, C., Sarliève, L.L., and Labourdette, G. J. J. Cell. Physiol., 141:667-674, 1989b) have shown that cerebroside sulfotransferase (CST; EC 2.8.2.11) is enriched in pure rat oligodendrocyte (OL) cultures and that its activity is increased by factors mitogenic for OL precursors and galactocerebroside (GC) expressing OL, such as basic fibroblast growth factor (bFGF), platelet-derived growth factor, and high insulin concentrations. In contrast, transforming growth factor beta or low insulin concentrations were found to be ineffective in this culture system. As bFGF mainly enhanced the proliferation of OL precursors (GC negative cells) rather than that of differentiated (GC+) cells, a relationship between OL precursor proliferation and CST increase was suggested. This hypothesis was first tested in 20-day-old OL cultures grown in chemically defined medium. The dose-response curve of [125I] Iododeoxyuridine ([125I]dUrd) incorporation toward bFGF was parallel to that of CST specific activity, and maximal stimulation was reached at 5 ng/ml bFGF for both. In contrast, 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP; EC 3.1.4.37) specific activity decreased after bFGF treatment. To determine if CST increase was linked to the proliferation of OL precursors induced by bFGF, cell proliferation was blocked by cytosine arabinoside (ARA-C). From 10(-8) to 10(-5) M ARA-C there was a dose-dependent inhibition of cell proliferation and a decrease in CST specific activity, whereas CNP specific activity was enhanced. When the cells were treated with bFGF and 10(-6) M ARA-C together, the proliferation was completely blocked and CST activity decreased by 72% below control values, whereas CNP activity was not significantly decreased. Immunocytochemical studies showed that the number of sulfatide-expressing cells and the number of cycling cells were increased after bFGF treatment, but that there was no overlapping between these two populations. Taken together these results suggest that CST activity and sulfatide expression appear shortly after the arrest of OL precursor division.

Increase of basic fibroblast growth factor immunoreactivity and its mRNA level in rat brain following transient forebrain ischemia

We examined the time course of basic fibroblast growth factor (bFGF) immunoreactivity and its mRNA level mainly in the hippocampus after transient forebrain ischemia using immunohistochemistry, enzyme immunoassay (EIA), Western blot analysis and in situ hybridization. Neuronal death in the hippocampal CA1 subfield was observed 72 h after 20 min of ischemia. The number of bFGF-immunoreactive(IR) cells increased 48 h-5 days after ischemia in all hippocampal regions. At 10 and 30 days, the bFGF-IR cells in the CA1 subfield had further increased in numbers and altered their morphology, enlarging and turning into typical reactive astrocytes with the advancing neuronal death in that area. In contrast, the number of bFGF-IR cells in other hippocampal regions had decreased 30 days after ischemia. The EIA study showed a drastic increase in bFGF levels in the hippocampus 48 h after ischemia (150% of that in normal rat) which was followed by further increases. In Western blot analysis, three immunoreactive bands whose molecular weights correspond to 18, 22 and 24 kDa were observed in normal rat and ischemia increased all their immunoreactivities. In the in situ hybridization study of the hippocampus, bFGF mRNA positive cells were observed in the CA1 subfield in which many bFGF-IR cells existed after ischemia. These data demonstrate that transient forebrain ischemia leads to an early and strong induction of bFGF synthesis in astrocytes, suggesting that the role of bFGF is related to the function of the reactive astrocytes which appear following brain injury.

The role of growth factors in the embryogenesis and differentiation of the eye

The vertebrate eye is composed of a variety of tissues that, embryonically, have their derivation from surface ectoderm, neural ectoderm, neural crest, and mesodermal mesenchyme. During development, these different types of cells are subjected to complex processes of induction and suppressive interactions that bring about their final differentiation and arrangement in the fully formed eye. With the changing concept of ocular development, we present a new perspective on the control of morphogenesis at the cellular and molecular levels by growth factors that include fibroblast growth factors, epidermal growth factor, nerve growth factor, platelet-derived growth factor, transforming growth factors, mesodermal growth factors, transferrin, tumor necrosis factor, neuronotrophic factors, angiogenic factors, and antiangiogenic factors. Growth factors, especially transforming growth factor-beta, have a crucial role in directing the migration and developmental patterns of the cranial neural-crest cells that contribute extensively to the structures of the eye. Some growth factors also exert an effect on the developing ocular tissues by influencing the synthesis and degradation of the extracellular matrix. The mRNAs for the growth factors that are involved in the earliest aspects of the growth and differentiation of the fertilized egg are supplied from maternal sources until embryonic tissues are able to synthesize them. Subsequently, the developing eye tissues are exposed to both endogenous and exogenous growth factors that are derived from nonocular tissues as well as from embryonic fluids and the systemic circulation. The early interaction between the surface head ectoderm and the underlying chordamesoderm confers a lens-forming bias on the ectoderm; later, the optic vesicle elicits the final phase of determination and enhances differentiation by the lens. After the blood-ocular barrier is established, the internal milieu of the eye is controlled by the interactions among the intraocular tissues; only those growth factors that selectively cross the barrier or that are synthesized by the ocular tissues can influence further development and differentiation of the cells. An understanding of the tissue interactions that are regulated by growth factors could clarify the precise mechanism of normal and abnormal ocular development.

Structure/activity relationships in basic FGF

Although the FGFs have been subject to extensive biological studies, only limited progress has been made so far in determining the critical elements of structure-activity relationships in the FGFs. Among the recognized structural elements with potential to affect the biological activity of FGFs are the cysteine residues, and the heparin- and receptor-binding domains. These features have been studied using a variety of experimental approaches, but the available data are inconclusive. For example, ambiguity regarding the presence of a disulfide structure in FGFs was not resolved until the availability of x-ray crystal structure data. Furthermore, the functionally important heparin- and receptor-binding domains have been poorly characterized, with some interpretations being controversial. In this report, we describe a novel fragment of basic FGF (bFGF) with high biological activity [Ser78,96-bFGF(70-153)]. This fragment was generated by pronase treatment of heparin-bound recombinant Glu3,5Ser78,96-bFGF mutant and is active in vitro at an ED50 of about 100 ng/ml. The structure of the fragment and the manner by which it was generated provide additional insight into important aspects of structure-activity relationships in FGFs. Specifically, we conclude that (a) the cysteines in our bFGF mutant do not form a disulfide bond, (b) the high-affinity heparin binding of bFGF critically depends on an intact 3-dimensional structure of the growth factor rather than on specific heparin-binding sequence domains, and (c) the bFGF sequence between residues 70 and 122 is important for high biological activity.

A growth factor for cardiac myocytes is produced by cardiac nonmyocytes

Cardiac nonmyocytes, primarily fibroblasts, surround cardiac myocytes in vivo. We examined whether nonmyocytes could modulate myocyte growth by production of one or more growth factors. Cardiac myocyte hypertrophic growth was stimulated in cultures with increasing numbers of cardiac nonmyocytes. This effect of nonmyocytes on myocyte size was reproduced by serum-free medium conditioned by the cardiac nonmyocytes. The majority of the nonmyocyte-derived myocyte growth-promoting activity bound to heparin-Sepharose and was eluted with 0.75 M NaCl. Several known polypeptide growth factors found recently in cardiac tissue, namely acidic fibroblast growth factor (aFGF), basic FGF (bFGF), platelet-derived growth factor (PDGF), tumor necrosis factor alpha (TNF alpha), and transforming growth factor beta 1 (TGF beta 1), also caused hypertrophy of cardiac myocytes in a dose-dependent manner. However, the nonmyocyte-derived growth factor (tentatively named NMDGF) could be distinguished from these other growth factors by different heparin-Sepharose binding profiles (TNF alpha, aFGF, bFGF, and TGF beta 1) by neutralizing growth factor-specific antisera (PDGF, TNF alpha, aFGF, bFGF, and TGF beta 1), by the failure of NMDGF to stimulate phosphatidylinositol hydrolysis (PDGF and TGF beta 1), and, finally, by the apparent molecular weight of NMDGF (45-50 kDa). This nonmyocyte-derived heparin-binding growth factor may represent a novel paracrine growth mechanism in myocardium.

Signal transduction by bFGF, but not TGF beta 1, involves arachidonic acid metabolism in endothelial cells

We investigated the stimulation of early cellular events resulting from the interaction of the growth factor basic FGF (bFGF) and of the growth inhibitor transforming growth factor beta-type 1 (TGF beta 1), with their specific receptors on bovine endothelial cells. At mitogenic concentrations, bFGF stimulated the rapid release of arachidonic acid and its metabolites from (3H)-arachidonic acid labeled cells. When arachidonic acid metabolism was stimulated by addition of the calcium ionophore A23187, the effect of bFGF was amplified. Nordihydroguaïaretic acid, an inhibitor of the lipoxygenase pathway of arachidonic acid metabolism, decreased the mitogenic effect of bFGF, whereas indomethacin, an inhibitor of the cyclooxygenase pathway, was ineffective. These findings suggest that metabolism of arachidonic acid to lipoxygenase products may be necessary for the mitogenic effect of bFGF. Basic FGF did not stimulate the production of inositol phosphates from cells labelled with myo-(2-3H)-inositol nor did it induce calcium mobilization, as measured by fura-2 fluorescence, indicating that bFGF does not activate phosphoinositide-specific phospholipase C in endothelial cells, but rather, that bFGF-induced arachidonic acid metabolism is mediated by another phospholipase. TGF beta 1, which inhibits basal and bFGF-induced endothelial cell growth, had no effect on arachidonic acid metabolism and inositol phosphate formation and did not prevent bFGF-induced arachidonic acid metabolism. These results suggest that the inhibitory action of TGF beta 1 on endothelial cell growth occurs through different mechanisms.

Vascular permeability factor: a unique regulator of blood vessel function

Vascular permeability factor (VPF), also known as vascular endothelial growth factor (VEGF), is a potent polypeptide regulator of blood vessel function. VPF promotes an array of responses in endothelium, including hyperpermeability, endothelial cell growth, angiogenesis, and enhanced glucose transport. VPF regulates the expression of tissue factor and the glucose transporter. All of the endothelial cell responses to VPF are evidently mediated by high affinity cell surface receptors. Thus, endothelial cells have a unique and specific spectrum of responses to VPF. Since each of the responses of endothelial cells to VPF are also elicited by agonists, such as bFGF, TNF, histamine and others, it remains a major challenge to determine how post-receptor signalling pathways maintain both specificity and redundancy in cellular responses to various agonists.

Identification and partial characterization of angiogenesis bioactivity in the lower respiratory tract after acute lung injury

Survival after acute lung injury (ALI) depends on prompt alveolar repair, a process frequently subverted by the development of granulation tissue within the alveolar airspace. Immunohistochemical examination of the intraalveolar granulation tissue confirmed that capillaries as well as myofibroblasts were the principal cellular constituents. We therefore hypothesized that angiogenesis factors would be present on the air-lung interface after ALI. To evaluate this hypothesis, bronchoalveolar lavage fluid from patients with ALI (n = 25) and patient controls (n = 8) was examined for angiogenesis bioactivity by its ability of induce endothelial cell migration. While lavage fluid from controls had no bioactivity, lavage fluid from 72% of patients with ALI promoted endothelial cell migration. Heparin affinity, ion exchange, and gel filtration chromatography resolved the bioactivity into at least two moieties. One appeared identical to the well characterized endothelial cell growth factor, basic fibroblast growth factor. The other was a 150-kD non-heparin binding protein that mediated endothelial cell migration and attachment in vitro, and the growth of new vessels in vivo. These data are consistent with the hypothesis that the growth of capillaries into the alveolar airspace results from angiogenesis factors present on the alveolar surface of the lung after ALI.

Acidic fibroblast growth factor (aFGF) is expressed in the neuronal and glial spinal cord cells of adult mice

Fibroblast growth factors (FGFs) are known to be synthesized in the central nervous system (CNS) and to act on CNS cells in vitro, but less is known about their synthesis, expression, and role in vivo. In this work, using specific anti-acidic fibroblast growth factor (aFGF) antibodies, we have shown for the first time, by immunohistochemistry, that aFGF is expressed in spinal cord cells of young adult normal mice. This expression is predominant in the cell nucleus. Using immunohistochemical double staining procedures, we identified the cell type expressing aFGF as neurons, astrocytes, and oligodendrocytes, but for each type, cells were not all positively immunostained.

Basic fibroblast growth factor is a beta-rich protein

The conformation of the 153-residue form of human basic fibroblast growth factor (bFGF) was studied with circular dichroism (CD) and sequence prediction methods. The far-UV CD spectrum with a minimum at 202 nm resembled that of an unordered polypeptide/protein or a protein rich in distorted antiparallel beta-sheets. Analysis of the CD spectrum by the least-squares method of Chang et al. (1978) and the CONTIN program of Provencher and Glöckner (1981) suggested that about one half of the molecule consisted of beta-sheet and there was no alpha-helix. These estimates agreed with the prediction by the sequence method of Garnier et al. (1978) using decision constants based on CD results. bFGF had an unusual CD band at 187 nm, which disappeared upon ionization of Tyr side chains at pH 11.7. It also had another unusual property of irreversibly converting the CD spectrum to a helix-like one with a double minimum at 205 and 215 and a maximum at 189 nm upon heating the solution to above 55 degrees C. The helicity was also enhanced in trifluoroethanol and in sodium dodecyl sulfate. The mutant bFGF in which cysteines 76 and 94 were replaced by serine residues had essentially the same properties as the wild-type.

Basic fibroblast growth factor expression is regulated by corticotropin in the human fetal adrenal: a model for adrenal growth regulation

Human fetal adrenal growth after midgestation is very rapid and appears to be dependent upon pituitary adrenocorticotropin (ACTH) in vivo. We hypothesized that the regulation of fetal adrenal growth by ACTH is mediated by ACTH-stimulated local growth factor production. As we have found basic fibroblast growth factor (bFGF) to be a potent mitogen for human fetal adrenal cells in culture, we conducted studies to determine whether bFGF is synthesized by the human fetal adrenal gland and whether bFGF gene expression in primary cultures of human fetal adrenal cells is regulated by ACTH. Bioassayable bFGF-like activity was detected in extracts of whole human fetal adrenal glands and primary cultures of human fetal adrenal cells. Northern blot analysis of total RNA from whole human fetal adrenal glands revealed a characteristic 7-kilobase bFGF mRNA, indicating that the fetal adrenal bFGF bioactivity was most likely due to local synthesis. Slot blot and ribonuclease protection analysis showed that bFGF mRNA was present in very low amounts in total RNA from primary cultures of unstimulated human fetal adrenal cells but was increased 2- to 3-fold in cells exposed to 10 nM ACTH-(1-24) or 1 mM 8-bromoadenosine 3',5'-cyclic monophosphate for 24 hr. bFGF mRNA was localized to adrenocortical cells and not fibroblasts by in situ hybridization. bFGF mRNA was barely detectable in unstimulated cells, whereas it was markedly increased in cells exposed to either ACTH or 8-bromoadenosine 3',5'-cyclic monophosphate. These data support our hypothesis that the regulation of human fetal adrenal growth by ACTH at midgestation may be mediated by the stimulation of local growth factor production, and we suggest that bFGF may play a major role in this process.

Characterization of release of basic fibroblast growth factor from bovine retinal endothelial cells in monolayer cultures

Release of basic fibroblast growth factor (bFGF) was investigated in bovine retinal endothelial cells (BREC) maintained in monolayer culture. Confluent cells released bFGF into serum-free culture medium or medium containing 5% serum at rates of up to 105.2 and 61.3 pM/day respectively. bFGF release coincided with a decrease in monolayer cell number and increases in lactate dehydrogenase (LDH) concentration and cells and cell-debris particles in the medium, which suggested that cell damage and lysis were responsible for growth-factor release. Maximum bFGF release at 24 h (230 +/- 10 pM) occurred when the cells were treated with lipopolysaccharide (10 micrograms/ml), which also produced the greatest changes in parameters of cell damage. Sub-confluent cells showed little overt damage at 24 h, but released bFGF (78 +/- 20 pM) along with LDH, indicating that some cell lysis had occurred. Insulin-like growth factor 1 (IGF-1) was also released into serum-free culture medium at a rate of 0.34 nM/day, but not into medium containing serum or when the cells were treated with lipopolysaccharide. This implies that the mechanism of IGF-1 release is different from that of bFGF and is not related to cell damage. Culture medium conditioned by BREC stimulated the proliferation of these cells, as measured by an increase in their incorporation of [methyl-3H]thymidine from 7550 +/- 479 to 10467 +/- 924 d.p.m. These results demonstrate that bFGF is released from damaged BREC and that medium conditioned by these cells can stimulate retinal-endothelial-cell proliferation. This strengthens the case for an involvement of this growth factor in retinal neovascularization.

Developmental changes in distribution of acidic fibroblast growth factor in rat brain evaluated by a sensitive two-site enzyme immunoassay

We developed a sensitive two-site enzyme immunoassay (EIA) system for acidic fibroblast growth factor (aFGF), using a polyclonal antibody raised in rats. This assay is based on the sandwiching of the antigen between anti-aFGF antibody immunoglobulin G (IgG) coated on plates and biotinylated anti-aFGF antibody IgG; the detection of biotinylated IgG was performed by enzyme reaction of streptavidin-conjugated beta-D-galactosidase (beta-D-galactoside hydrolase; EC 3.2.1.23). Our system was specific for aFGF, because basic fibroblast growth factor, which shares a 55% homology of amino acid sequence with aFGF, hardly cross-reacted at all. The sensitivity of this system (0.2 ng/ml) enabled us to quantify endogenous immunoreactive aFGF in the CNS. Using this two-site EIA system, we examined the levels of aFGF in various regions of rat brain and their developmental changes. At the early stage of neonatal development, i.e., 2 days after birth, all brain regions registered low aFGF levels (less than 10 ng/g tissue). However, at the young adult stage (21- to 49-day-old animals), an extremely high level of aFGF (75-90 ng/g tissue) was found in the ponsmedulla; relatively high levels (30-40 ng/g tissue) were found in the diencephalon and mesencephalon; and comparatively low aFGF levels (5-15 ng/g tissue) were found in various other brain regions such as the frontal cortex, piriform cortex, hippocampus, olfactory bulb, cerebellum, and striatum. This marked change in the regional distribution of aFGF in the rat brain during postnatal development from 2 to 21 days after birth suggests that this factor plays a significant role in the brain during this period.

A modified chorioallantoic membrane (CAM) assay for qualitative and quantitative study of growth factors. Studies on the effects of carriers, PBS, angiogenin, and bFGF

The application of Thermanox tissue culture coverslips to the day 9 CAM of the chick causes constant effects beneath the carrier after 3 days, and these are associated with a change in the blood vessel pattern. Histological sections show enormous thickening of the CAM in the reactive areas. The stroma of the CAM shows fibrocyte proliferation, leucocyte infiltration, and clusters of dispersed ectodermal epithelial cells exhibiting signs of necrosis. The latter obviously cause a strong vascular response. The same effects are seen when the Thermanox discs are applied at day 11. Following application on day 12 a positive or negative response to the carrier is observed, whereas on day 13 no such carrier effects are seen. The only remaining effect is compression of the intra-ectodermal capillary plexus of the CAM. This can macroscopically be seen after peroxidase staining of the blood vessels. The effect of 5 microliters PBS dried on the Thermanox disc and applied to the day 13 CAM is to cause, after 3 days, hyperosmotic damage to the ectodermal epithelium, which becomes overgrown by fibrocytes. We found dose-dependent effects of salt-free human bFGF applied to the day 13 CAM. The first and main effect is fibrocyte proliferation (0.5 microgram). New capillaries appear with higher doses, but are not as frequent as would be expected for an angiogenic substance (1.25-2.5 micrograms). Also with higher doses additional hyperplasia of the endodermal (3.75 micrograms) and ectodermal (5 micrograms) epithelium can be seen. The latter might be a non-specific hyperosmotic effect. Leucocytes are regularly present within the reactive areas. When salt-free angiogenin is applied to the day 13 CAM, some effects appear with doses of 4.6 micrograms and more. The ectodermal epithelium of the reactive areas is discontinuous, exhibiting signs of necrosis. It is overgrown by parallel fibrocytes. Whether this is a non-specific hyperosmotic effect, or indicates enhancement of invasive growth, calls for further investigation.

Isolation and characterization of two different molecular forms of basic fibroblast growth factor extracted from human placental tissue

Basic fibroblast growth factor (bFGF) was purified to homogeneity from human placental tissue on a semi-large scale. Placental bFGF consists of two proteins of apparent molecular masses 16,000 and 18,000 dalton, as determined by sodium dodecyl sulphate polyacrylamide gel electrophoresis under non-reducing conditions. Microsequence analysis showed that both proteins have the same N-terminal sequence Pro-Ala-Leu-Pro-Glu-Asp-Gly-Gly-Ser-Gly-Ala-Phe..., which is identical with that of (1-146) bFGF extracted from human brain. After reduction by dithiothreitol or mercaptoethanol, placental bFGF appears as a single protein of 16,000 dalton. The reduced protein displays the same ability to stimulate the proliferation of CCL39 fibroblasts as the non-reduced doublet. These data indicate that bFGF extracted from placental tissue consists of two proteins with different apparent molecular masses which do not differ in their N-terminal sequence but in their oxidation state.

Alternative initiation of translation determines cytoplasmic or nuclear localization of basic fibroblast growth factor

Three forms of basic fibroblast growth factor (bFGF), initiated at an AUG (18 kDa) and two CUG (21 and 22.5 kDa) start codons, were produced following transfection of COS cells with human hepatoma bFGF cDNA. The subcellular localization of the different forms was investigated directly or by using chimeric genes constructed by fusion of the bFGF and chloramphenicol acetyltransferase open reading frames. The AUG-initiated proteins were cytoplasmic, while the CUG-initiated forms were nuclear. The signal sequence responsible for the nuclear localization of bFGF is contained within 37 amino acid residues between the second CUG and the AUG start codons. Alternative initiation of translation regulates the subcellular localization of bFGF and thus could modulate its role in cell growth and differentiation control.

Isolation from bovine brain and structural characterization of HBNF, a heparin-binding neurotrophic factor

A heparin-binding protein with neurotrophic activity for perinatal rat neurons, termed HBNF, was purified to homogeneity from bovine brain utilizing pH 4.5 extraction, ammonium sulfate precipitation, cation exchange and heparin-Sepharose affinity chromatographies, and reverse phase HPLC. In the presence of protease inhibitors during extraction, a protein with an apparent molecular weight of 18 kDa was obtained in a yield of approximately 0.5 mg/kg brain tissue. The amino acid sequence of the first 114 residues of HBNF was determined and found to highly homologous to the cDNA-derived amino acid sequence of human HBNF, a 136-residue protein. Bovine and human HBNFs have identical molecular weights as judged by SDS gel electrophoresis and very similar amino acid compositions. This and overall sequence conservation suggest that bovine HBNF is also a 136 amino acid protein with a calculated molecular weight of approximately 15.5 kDa. The apparent discrepancy between calculated and observed molecular weights of bovine HBNF (and of human HBNF of which the complete sequence is known) is most likely a result of the highly basic nature of HBNF. If protease inhibitors were omitted during tissue extraction, two additional proteins with lower apparent molecular weights and identical N-terminal sequences were isolated, with the smallest forms being the major product. Amino acid analysis showed that the smaller forms correspond to C-terminally truncated HBNFs with calculated molecular weights of 13.6 and 12.4 kDa, lacking approximately 14 and 22 residues. Comparison of the HBNF protein sequence with sequences stored in the Protein Identification Resource/Genbank databases reveals high homology to the translation product of the MK-1 gene, which is retinoic acid-inducible in embryonic carcinoma cells and developmentally expressed during gestation in mice.

Alternative initiation of translation determines cytoplasmic or nuclear localization of basic fibroblast growth factor

Three forms of basic fibroblast growth factor (bFGF), initiated at an AUG (18 kDa) and two CUG (21 and 22.5 kDa) start codons, were produced following transfection of COS cells with human hepatoma bFGF cDNA. The subcellular localization of the different forms was investigated directly or by using chimeric genes constructed by fusion of the bFGF and chloramphenicol acetyltransferase open reading frames. The AUG-initiated proteins were cytoplasmic, while the CUG-initiated forms were nuclear. The signal sequence responsible for the nuclear localization of bFGF is contained within 37 amino acid residues between the second CUG and the AUG start codons. Alternative initiation of translation regulates the subcellular localization of bFGF and thus could modulate its role in cell growth and differentiation control.

HBNF and MK, members of a novel gene family of heparin-binding proteins with potential roles in embryogenesis and brain function

HBNF (heparin-binding neurite-promoting factor) is a heparin-binding protein which is found primarily in the brain and stimulates neurite outgrowth in cultured perinatal neurons. It was also reported to be mitogenic for fibroblasts and endothelial cells but this activity is still controversial. The sequence of HBNF is highly conserved in diverse species suggesting important function. Expression of the HBNF gene in brain tissue appears to be developmentally regulated, increasing during gestation to highest levels around the time of birth. The HBNF gene shows high sequence homology to another gene, MK (midkine). Like HBNF, the MK gene is developmentally regulated, however, high expression occurs in most fetal tissues during mid-gestation. The biological properties of the MK protein are remarkably similar to those of HBNF. The available evidence suggests that HBNF and MK are members of a new family of genes with potential roles in fetal development and in brain function or maintenance.

Physiological and pharmacological regulation of biological calcification

Biological calcification is a highly regulated process which occurs in diverse species of microorganisms, plants, and animals. Calcification provides tissues with structural rigidity to function in support and protection, supplies the organism with a reservoir for physiologically important ions, and also serves in a variety of specialized functions. In the vertebrate skeleton, hydroxyapatite crystals are laid down on a backbone of type I collagen, with the process being controlled by a wide range of noncollagenous proteins present in the local surroundings. In bone, cells of the osteoblast lineage are responsible for the synthesis of the bone matrix and many of these regulatory proteins. Osteoclasts, on the other hand, are continually resorbing bone to both produce changes in bone shape and maintain skeletal integrity, and to establish the ionic environment needed by the organism. The proliferation, differentiation, and activity of these cells is regulated by a number of growth factors and hormones. While much has already been discovered over the past few years about the involvement of various regulators in the process of mineralization, the identification and functional characterization of these factors remains an area of intense investigation. As with any complex, biological system that is in a finely tuned equilibrium under normal conditions, problems can occur. An imbalance in the processes of formation and resorption can lead to calcification disorders, and the resultant diseases of the skeletal system have a major impact on human health. A number of pharmacological agents have been, and are being, investigated for their therapeutic potential to correct these defects.(ABSTRACT TRUNCATED AT 250 WORDS)

Scatter factor: molecular characteristics and effect on the invasiveness of epithelial cells

The generation of invasiveness in transformed cells represents an essential step of tumor progression. We have previously shown that MDCK epithelial cells, which are deprived of intracellular adhesion by the addition of anti-Arc-1/uvomorulin antibodies, become invasive for collagen gels and embryonal heart tissue (Behrens, J., M. M. Mareel, F. M. Van Roy, and W. Birchmeier. 1989. J. Cell Biol. 108: 2435-2447.). Here we examined whether invasiveness is also induced by scatter factor, which is known to dissociate epithelial cells (Stoker, M., E. Gherardi, M. Perryman, and J. Gray. 1987. Nature (Lond.). 327:239-242.). Scatter factor was purified to homogeneity from conditioned medium of human fibroblasts by heparin-Sepharose chromatography, followed by cation exchange chromatography, gel filtration, or preparative SDS gel electrophoresis. We found that scatter factor represents a 92,000 mol wt glycoprotein which, apparently, is converted by limited proteolysis into disulfide-linked 62,000 and 34/32,000 mol wt subunits. Reversed phase HPLC and sequence analysis of tryptic peptides confirmed the suggested molecular structure, and revealed further that scatter factor exhibits sequence similarities to hepatocyte growth factor and to plasminogen. Purified scatter factor in fact induces the invasiveness into collagen matrices of MDCK epithelial cells, and induces or promotes the invasiveness of a number of human carcinoma cell lines. Apparently, the effect on the human cells depends on their respective degree of differentiation, i.e., cell lines with a less pronounced epithelial phenotype were more susceptible to the factor. Scatter factor does not seem to influence synthesis, steady-state level, and phosphorylation of the cell adhesion molecule Arc-1/uvomorulin. Thus, scatter factor represents a clearly defined molecular species which induces, in vitro, the progression of epithelial cells to a more motile, i.e., invasive phenotype.

Fibroblast Growth Factor Enhances Long-term Potentiation in the Hippocampal Slice

Recently we reported that perfusion of hippocampal slices with epidermal growth factor (EGF) lead to enhancement of potentiated responses after tetanic stimulation. In the present study we report that basic fibroblast growth factor (FGF) can also lead to an enhancement of potentiated responses. FGF is a mitogen for several cell types and exhibits neurotrophic effects on neurons of the central nervous system (CNS). Rat hippocampal slices were perfused with FGF at a concentration of 10-9 M. During extra- and intracellular recordings in the CA1-region, the addition of FGF to the perfusing medium produced no change in evoked responses if single pulse or paired pulse stimulation was used. Furthermore FGF had no influence on the resting membrane potential and input resistance. However, after tetanic stimulation, FGF-treated slices showed an increase in the magnitude of potentiation compared to control slices. Taken together with the EGF data these results support the hypothesis that growth factors like FGF with neurotrophic potential on CNS-neurons can influence synaptic efficacy. Furthermore these results show that factors which are able to modulate developmental plasticity and regenerative plasticity can also modulate synaptic plasticity.

Heparin and heparan sulfate increase the radius of diffusion and action of basic fibroblast growth factor

The radius of diffusion of basic FGF (bFGF) in the presence and in the absence of the glycosaminoglycans heparin and heparan sulfate was measured. Iodinated 125I-bFGF diffuses further in agarose, fibrin, and on a monolayer of bovine aortic endothelial (BAE) cells in the presence of heparin than in its absence. Heparan sulfates affected the diffusion of 125I-bFGF in a manner similar to, though less pronounced than, heparin. When applied at the center of a monolayer of BAE cells, bFGF plus heparin stimulated morphological changes at a 10-fold greater radius than bFGF alone. These results suggest that bFGF-heparin and/or heparan sulfate complexes may be more effective than bFGF alone in stimulating cells located away from the bFGF source because the bFGF-glycosaminoglycan complex partitions into the soluble phase rather than binding to insoluble glycosaminoglycans in the extracellular matrix. Thus, the complex of bFGF and glycosaminoglycan may represent one of the active forms of bFGF in vivo.

Developmental and regional expression of basic fibroblast growth factor mRNA in the rat central nervous system

A cDNA clone encoding rat basic fibroblast growth factor (bFGF) was used as a hybridization probe to determine the level of bFGF mRNA during rat brain development as well as in different adult rat brain regions. In the rat brain, a 3.7kb bFGF mRNA was detected together with lower levels of two minor bFGF mRNA species of 1.8kb and 1.5kb, respectively. The 3.7kb bFGF mRNA was detected in the rat brain already at embryonic day 16, the earliest time point tested. The embryonic brain contained 1.5 to 2 times higher levels of the 3.7kb bFGF mRNA than the adult brain. The amount of the 3.7kb bFGF mRNA in the adult rat brain was approximately 50 times higher than the level of beta-nerve growth factor mRNA in the rat brain. bFGF mRNA was found in all 12 brain regions tested in the adult rat brain with the highest level in colliculi, cerebral cortex, thalamus, and olfactory bulb. The lowest levels were found in pons and medulla oblongata. All three bFGF mRNA species showed the same regional distribution in the brain. In contrast to nerve growth factor mRNA, the level of bFGF mRNA in the neonatal hippocampus was slightly decreased 10 days after a cholinergic denervation by transection of the fimbria-fornix.

Basic fibroblast growth factor in neuronal cultures of human fetal brain

The presence of basic fibroblast growth factor (bFGF) was investigated in neuronal cells derived from 12 and 18 week-old human fetal brain cultures. To this purpose, the ability of bFGF to stimulate plasminogen activator (PA) production in fetal bovine aortic endothelial GM 7373 cells was used as an assay for this molecule in neuronal cell extracts. The identity of the PA-stimulating activity of neuronal cell extract with bFGF was confirmed by its high affinity for heparin and by its cross-reactivity with polyclonal antibodies to human placental bFGF. These antibodies recognized a Mr 18,000 cell-associated protein both in Western blot and in immuno-precipitation experiments. All the neurons showed bFGF immunoreactivity, as demonstrated by immunocytochemical staining, while nonneuronal cells were unstained. The data demonstrate for the first time that cultured human fetal brain neurons contain and synthesize bFGF.

Acidic fibroblast growth factor (aFGF) is present in the fluid of brain tumour pseudocysts

Fluid samples from brain tumour pseudocysts were examined for the presence of Fibroblast Growth Factor (FGF). Fluids were collected from 6 patients with differentiated low grade gliomas (group A), 3 anaplastic gliomas (group B) and 3 metastases (group C). For FGF assays pooled fluids from group A, B, and C were subjected to affinity chromatography on a Heparin-Sepharose column. Each pool contained endothelial cell mitogenic activity which eluted in the 1.2 M NaCl fraction and to a lesser degree in the 0.6 M fraction of Heparin-Sepharose high affinity chromatography. Mitogenic activity in the 1.2 M NaCl fraction of Heparin-Sepharose chromatography suggests the presence of acidic FGF (aFGF).

Serial subculture and relative transport of human endothelial cells in serum-free, defined conditions

Endothelial cells bind, process, and transport bioactive molecules and thus provide an interactive interface between the plasma and adjacent tissues. Various hormones and factors induce endothelial cells to synthesize and secrete interactive factors. However, study of endothelial cell synthesis, processing, and transport of these bioactive molecules has been impeded because of the serum requirement for cell growth. Many of these bioactive molecules are derived from or are modified by serum components. We have developed a short-term culture system that supports sequential subculturing of endothelial cells in a serum-free culture medium on a defined extracellular matrix. The cells have a doubling rate of 33 h and the total cell number can be expanded more than 800-fold. Expression of specific markers; factor VIII related antigen-von Willebrand factor, Wiebel-Palade bodies, a cobblestone appearance of confluent cell monolayers, and angiotensin-converting enzyme activity confirm the normal morphologic integrity and biochemical function of these cultures. Using this defined serum-free medium, we have grown human endothelial cell monolayers on porous polycarbonate membrane inserts, thereby creating an upper and a lower chamber that models the vascular architecture and demonstrates an inverse relationship between transport and molecular weight. By eliminating serum components, this model system should facilitate the study of endothelial cell binding, metabolism, and transport of bioactive molecules and may contribute to a better understanding of the blood-tissue interface.

Fibroblast growth factor receptor is a portal of cellular entry for herpes simplex virus type 1

Herpes simplex virus type 1 (HSV-1) is a ubiquitous pathogen responsible for considerable morbidity in the general population. The results presented herein establish the basic fibroblast growth factor (FGF) receptor as a means of entry of HSV-1 into vertebrate cells. Inhibitors of basic FGF binding to its receptor and competitive polypeptide antagonists of basic FGF prevented HSV-1 uptake. Chinese hamster ovary (CHO) cells that do not express FGF receptors are resistant to HSV-1 entry; however, HSV-1 uptake is dramatically increased in CHO cells transfected with a complementary DNA encoding a basic FGF receptor. The distribution of this integral membrane protein in vivo may explain the tissue and cell tropism of HSV-1.

Effects of recombinant human basic fibroblast growth factor and its modified protein CS23 on survival of primary cultured neurons from various regions of fetal rat brain

Neutrophic effects of recombinant human basic fibroblast growth factor (hbFGF) and its modified protein CS23 on brain neurons were evaluated by their abilities to promote survival of primary cultured neurons from various regions of fetal rat brain. In the molecule of CS23, two serines are substituted for two cysteines at positions 70 and 88 in the natural hbFGF. Both hbFGF and CS23 markedly increased the survival of cultured neurons from all regions tested, i.e., cerebral cortex, septum, striatum, hippocampus, thalamus, substantia nigra, colliculus and cerebellum. The effects were concentration-dependent, in the range of 0.01 to 10 ng/ml, in similar manners among all regions. Although the maximal number of surviving neurons in the presence of CS23 was little different from that of hbFGF, CS23 could significantly promote neuronal survival at a lower concentration than hbFGF. The time-course of these effects on survival was almost the same between hbFGF (1 ng/ml) and CS23 (1 ng/ml). These results suggest that hbFGF has a strong neurotrophic activity on a wide range of brain neurons and that CS23 maintains the activity of original hbFGF successfully.

Identification of hypoxanthine and inosine in brain dialyzable fraction as stimulators for growth of porcine aortic endothelial cells in response to fibroblast growth factor in either dialyzed serum media or low serum media

The rate of proliferation of porcine aortic endothelial cells (PAEC) in response to fibroblast growth factor (FGF) was largely retarded when incubated in Dulbecco's modified Eagle's medium (DMEM) supplemented with either 1% fetal bovine serum (FBS) or 10% dialyzed FBS in place of 10% FBS. Proliferation of endothelial cells in low serum media in response to FGF was enhanced to the level of media containing FGF plus 10% FBS by the addition of the dialyzable fraction from bovine brain homogenates. From the bovine brain dialyzable fraction, two active components were purified and identified as hypoxanthine and inosine. Either hypoxanthine or inosine, at a dose of 5 microM in DMEM with 1% FBS, maximally increased the incorporation of [3H]thymidine into DNA of PAEC in low serum media in the presence of FGF. However, no additive effect was observed when hypoxanthine and inosine were added simultaneously. The present data indicate that the proliferative action of FGF on PAEC can be potentiated by hypoxanthine and inosine.

Effects of acidic and basic fibroblast growth factors on the proliferation of rabbit corneal cells

Effects of acidic and basic forms of Fibroblast Growth Factor (aFGF, bFGF) on cell proliferation and DNA synthesis were studied in stromal fibroblasts and epithelial cells of rabbit cornea. Both aFGF and bFGF enhance proliferation of sparse cells and trigger DNA synthesis in confluent cultures. Stromal fibroblasts are more sensitive to aFGF than to bFGF in DNA synthesis. No significant difference was seen in the proliferation. Epithelial cells maintained in medium allowing survival are equally sensitive to aFGF and bFGF regardless of the assay used.

Isolation from fetal bovine serum of an apolipoprotein-H-like protein which inhibits thymidine incorporation in fetal calf erythroid cells

A 46 kDa heparin-binding protein which inhibits thymidine incorporation in cultures of fetal calf liver erythroid cells was isolated from fetal bovine serum by affinity chromatography on heparin-Sepharose, ion-exchange chromatography, gel filtration and reversed-phase h.p.l.c. The N-terminal sequence of the first 22 amino acids showed 81% identity with the published sequence of human apolipoprotein H. The isolated protein inhibited thymidine incorporation with an ED50 (concn. producing 50% of maximal effect) of 36 nM. A 100% inhibition of thymidine incorporation and a 40% decrease in cell numbers in cultures of fetal calf erythroid cells were observed at a protein concentration of 840 nM. No effects could be seen in cultures of 3T3 cells used as controls. Human apolipoprotein H had no inhibitory activity in any of the cell cultures tested, suggesting a species-specificity or a different structure or function for the bovine heparin-binding protein.

Propagation of fetal human RPE cells: preservation of original culture morphology after serial passage

The permissive effects of extracellular matrix (ECM) on in vitro growth and differentiation of fetal human retinal pigment epithelial (RPE) cells have been studied. Factors which enhanced the effect of ECM to support cell division were also examined, including growth factors, culture media, and serum requirement. Under the specific culture conditions we have defined, it is possible to propagate these RPE cells at low density (less than 20 cells/mm2) with excellent growth properties for greater than 72 doublings (fourteen passages) in serial culture. Later-passaged cells maintained the morphological appearance of early-passaged cultures. ECM produced by bovine corneal endothelial cells was by far the most predominant factor in promoting rapid cell proliferation and viability over repeated passaging. Basic fibroblast growth factor (bFGF) exerted a substantial effect on the rate of cell division at different serum concentrations on plastic dishes. In addition, this factor showed profound synergistic effect when RPE cells were maintained on ECM, both in the preservation of cell morphology and also in long term viability. Other growth factors, such as epidermal growth factor (EGF) and transforming growth factor-beta (TGF-B), were also tested, but EGF effects were less prominent than those observed with bFGF, and TGF-B had an inhibitory effect at high concentrations. The ability to obtain a relatively large number of human RPE cells in vitro which preserve the appearance of early passage cells may provide useful opportunities to study the physiological properties and pathological alterations involving this important cell type.

Production of basic fibroblast growth factor-like factor by cultured human cholangiocellular carcinoma cells

An extract of cultured human cholangiocellular carcinoma cells (HuCC-T1) was found to contain high mitogenic activity for BALB/c3T3 cells. The growth factor eliciting most of the mitogenic activity was purified and concluded to be identical with basic fibroblast growth factor (bFGF)-like factor on the basis of its molecular weight and heparin-Sepharose elution profile, and the results of immunoblotting and radioimmunoassay. HuCC-T1 cells also secreted bFGF-like factor into serum-free medium. A combination of insulin and transferrin or bovine serum albumin stimulated the growth of HuCC-T1 cells in serum-free medium. However, bFGF did not stimulate their growth in the presence and absence of these supplements. Neutralizing monoclonal antibody against bFGF did not inhibit growth. These results indicate that bFGF-like factor is not a growth factor for this cell line.

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 amino-terminal 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.

Purification and characterization of heparin-binding growth factors from porcine uterus

Heparin-binding growth factors present in pig uterine tissue were purified by approx. 50,000-fold using a combination of ammonium sulphate precipitation, ion-exchange chromatography and heparin-affinity chromatography. Purification of the uterus-derived growth factors (UDGFs) was monitored by the stimulation of [3H]thymidine incorporation into Swiss 3T3 cells and by a radioreceptor assay using 125I-labelled epidermal growth factor (EGF) as the ligand. The latter was shown to be a novel, rapid and reliable assay for heparin-binding growth factors which utilizes their trans-modulation of EGF receptor affinity. UDGFs exhibit strong affinity for immobilized heparin and two forms, named alpha UDGF and beta UDGF, were distinguished by salt gradient elution from heparin-agarose affinity columns. beta UDGF activity was eluted from heparin-agarose between 1.5 M- and 1.8 M-NaCl, and was correlated with the elution of a protein doublet of 17.2 kDa and 17.7 kDa. Immunoblotting of heparin-purified beta UDGF indicated that the beta UDGF doublet is immunologically related to the 146-amino-acid form of bovine basic fibroblast growth factor (bFGF), and that the 17.2 kDa component is an N-terminally truncated form of the 17.7 kDa component. After purification by C4 reversed-phase h.p.l.c., this doublet was biologically active and greater than 95% pure as assessed by silver-stained SDS/PAGE. Amino acid composition and sequence analysis confirmed that these beta UDGF polypeptides were microheterogeneous forms of bFGF. Fractions containing alpha UDGF activity were eluted from heparin-agarose in 1.3 M-NaCl. These fractions contained a 16.5 kDa protein which co-migrated on SDS/polyacrylamide gels with recombinant human acidic FGF (aFGF) and which which cross-reacted with an antiserum raised against aFGF. The identification of heparin-binding growth factors in porcine uterus at the time of implantation raises the possibility that they function in the reproductive tract during early pregnancy.

Stimulation and inhibition of cardiac myocyte proliferation in vitro

We have examined the effect of crude cardiac tissue extracts as well as that of several growth factors and triiodothyronin (T3) on DNA synthesis of cardiac myocytes in culture. Extracts from embryonic and adult cardiac tissue stimulated DNA synthesis of myocytes. Atrial myocytes exhibited overall higher degree of stimulation than their ventricular counterparts and extracts from adult atrial tissue had the highest apparent mitogenic activity for atrial myocytes. We have shown that adult heart contains basic fibroblast growth factor (bFGF), especially in the atria. Transforming growth factor beta (TGF beta) and insulin-like growth factors (IGFs) are also accumulated in cardiac tissues. We found that bFGF and the IGFs stimulate myocyte cell proliferation and DNA synthesis. These factors also stimulate cardiac non-muscle proliferation, especially in the presence of serum. TGF beta inhibited proliferation and DNA synthesis and cancelled the effect of bFGF or IGFs on the myocytes. T3 also diminished the bFGF-induced mitogenic stimulation of cardiomyocytes. Our data suggest that these factors may be involved in the regulation of cardiomyocyte proliferation in vivo.