Recovery of mitogenic activity of a growth factor mutant with a nuclear translocation sequence

Interleukin 1: the patterns of translation and intracellular distribution support alternative secretory mechanisms

Interleukin-1 (IL-1) is synthesized as a 31 kDa precursor protein, whose multiple extracellular activities are attributed to receptor binding of a processed, carboxy-terminal 17 kDa peptide. Unlike other secreted proteins, the IL-1 precursor lacks a hydrophobic leader sequence and is not found in organelles composing the classical secretory pathway. In order to further clarify the intracellular processing of IL-1, we studied its site of synthesis in human monocytes. Secreted and integral membrane proteins are translated on membrane-bound polyribosomes, while intracellular proteins are translated on free polyribosomes. Free and membrane-bound polysomes were isolated from Lipid A-stimulated monocyte lysates and immunoblotted using antibodies specific to the N-terminal regions of the IL-1 alpha and beta precursors. Free polysome fractions showed multiple small bands consistent with nascent peptide chains; membrane-bound polysomes yielded no detectable IL-1. Polysome fractions were then analyzed by immunoelectron microscopy; nascent IL-1 alpha and beta peptide chains were readily seen emerging from cytoskeletal-associated free polyribosomes, but not membrane-bound polyribosomes. Electron microscopic in situ hybridization revealed IL-1 mRNA chains attached to cytoskeletal-associated free, but not membrane-bound polyribosomes. The intracellular distribution of the fully synthesized IL-1 beta precursor was studied in human mesangial cells (HMC), whose cytoskeletal organization is more readily evaluated than that of monocytes. Dual immunofluorescence microscopy of these cells revealed a complex intracellular distribution of the fully synthesized 31 kDa IL-1 precursors. IL-1 was asymmetrically distributed between cytosolic, microtubule, and nuclear compartments, without association with actin or intermediate filaments. This demonstration of the sites of IL-1 synthesis and patterns of intracellular distribution provide further evidence for an extracellular release mechanism which is clearly distinct from the classical secretory pathway.

Autocrine action of amphiregulin in a colon carcinoma cell line and immunocytochemical localization of amphiregulin in human colon

Amphiregulin (AR) is a newly discovered glycosylated, 84-amino acid residue polypeptide growth regulator which has sequence homology to the EGF family of proteins. To obtain immunological reagents to study the biological role of AR, two synthetic peptides containing sequences corresponding to distinct regions of AR were used to generate polyclonal antibodies in rabbits. One preparation of antipeptide antibodies directed against residues 26-44 of AR (AR-Ab2) was most effective in the detection of native AR, whereas another preparation of antibodies against residues 8-26 (AR-Ab1) was found to be most efficacious in the detection of AR in formalin-fixed and paraffin-embedded tissues. The growth of a colon carcinoma cell line, Geo, which proliferates autonomously under serum-free conditions, was stimulated by the exogenous addition of AR or EGF. Half-maximal stimulation of this growth was observed at 40 and 200 pM of EGF and AR, respectively. A mAb to the extracellular domain of the EGF receptor blocked the stimulation of cell proliferation induced by the exogenous addition of AR, suggesting that this stimulation was mediated via the EGF receptor. Geo cells were found to constitutively express significant levels of the AR mRNA transcript as determined by analysis of the polymerase chain reaction-amplified cDNA product and AR protein was detected immunocytochemically using the AR-Ab1 antibodies in these cells. AR was immunoprecipitated specifically using the AR-Ab2 antibodies from the conditioned medium of Geo cells, which had been metabolically labeled with [35S]cysteine. The secreted AR migrated as a broad band (18.5-22.5 kD) with a median molecular weight of approximately 20.7 kD in SDS-PAGE. Immunospecific removal of AR from serum-free medium conditioned by the Geo cells and readdition of the AR-depleted medium to Geo cells resulted in an approximately 40% inhibition of cell growth relative to controls. Furthermore, the growth of the Geo cells was also inhibited by approximately 50% by the addition of the anti-EGF receptor mAb alone. These results indicate that AR and the EGF receptor are involved in the autocrine growth of these cells and suggests that AR may act through the EGF receptor via an extracellular autocrine loop. To study the expression of AR in human colon in vivo, AR was localized immunocytochemically in formalin-fixed, paraffin-embedded sections from normal and malignant human colon using the AR-Ab1 antibodies.(ABSTRACT TRUNCATED AT 400 WORDS)

Receptor phenotype underlies differential response of hepatocytes and nonparenchymal cells to heparin-binding fibroblast growth factor type 1 (aFGF) and type 2 (bFGF)

Heparin-binding fibroblast growth factors (HBGF) have been implicated in the regeneration of both parenchymal and nonparenchymal cells of the liver. The response to and phenotype of hepatocyte receptors for HBGF-1 (acidic fibroblast growth factor) and HBGF-2 (basic fibroblast growth factor) were compared to keratinocytes, fibroblasts, and endothelial cells. HBGF-1 stimulated DNA synthesis in hepatocytes, keratinocytes, fibroblasts, and endothelial cells whereas activity of HBGF-2 was limited to fibroblasts and endothelial cells. HBGF-2 antagonized the mitogenic activity of HBGF-1 for hepatocytes and keratinocytes. Hepatocytes and keratinocytes exhibited both high- and low-affinity, nonmatrix receptor sites for HBGF-1, but only low-affinity sites for HBGF-2. The mesenchymal cells displayed only high-affinity sites for both HBGF-1 and HBGF-2. Northern blot and immunochemical analysis revealed that the expression of HBGF receptor genes bek and flg are partitioned between normal hepatocytes and nonparenchymal cells, respectively. Expression of epithelial cell-specific, mesenchymal cell-derived HBGF-7 (keratinocyte growth factor) mRNA in regenerating liver tissue was undetectable relative to HBGF-1. The results support a multifunctional role of HBGF-1 acting through different receptor phenotypes in hepatocyte and nonparenchymal cells during liver regeneration.

Structure-function relationship of basic fibroblast growth factor: site-directed mutagenesis of a putative heparin-binding and receptor-binding region

Basic residues Arg-118, Lys-119, Lys-128, and Arg-129 within a putative heparin-binding and receptor-binding region of the 155-amino acid form of basic fibroblast growth factor (bFGF) have been changed to neutral glutamine residues by site-directed mutagenesis of the human bFGF cDNA. The bFGF mutant (M6B-bFGF) was expressed in E. coli and purified to homogeneity. When compared to wild type bFGF, M6B-bFGF showed in cultured endothelial cells a similar receptor-binding capacity and mitogenic activity, but a reduced affinity for heparin-like low affinity binding sites, a reduced chemotactic activity, and a reduced capacity to induce the production of urokinase-type plasminogen activator. In vivo, M6B-bFGF lacked a significant angiogenic activity. Modifications of both the primary and the tertiary structure of bFGF appear to be responsible for the modified biological properties of M6B-bFGF, thus confirming the possibility to dissociate at the structural level some of the biological activities exerted by bFGF on endothelial cells.

Direct effect of basic fibroblast growth factor on gene transcription in a cell-free system

Recent findings on the translocation of intact fibroblast growth factor (FGF) into the cell nucleus suggest that it functions directly in nuclear events. We examined the effect of human basic FGF (bFGF) on gene transcription in a cell-free system. When mouse genes encoding phosphoglycerate kinases 1 and 2 (Pgk-1 and Pgk-2) were transcribed by using nuclear extracts of Ehrlich ascites tumor cells, FGF affected transcription in different ways: in the presence of bFGF, transcription of the Pgk-1 gene was inhibited, whereas that of the Pgk-2 gene was enhanced. When viral genes were tested, transcription of the adenovirus major late DNA was slightly stimulated but that of the adenovirus early E1A DNA or the human immunodeficiency virus DNA was not changed by the addition of bFGF. Moreover, the presence of a distinct 5' upstream region of the Pgk-2 gene, which includes a negative cis-acting element, was required for transcription stimulation by bFGF. These results suggest that bFGF can regulate transcription directly in the nucleus in a gene-specific manner.

Endothelial cell chemotactic factor derived from human glioma cell lines

✓ The authors report a study of the human umbilical vein endothelial cell chemotactic factor derived from human malignant glioma cell lines. The endothelial cell chemotactic activity of serum-free conditioned medium from cultures of U-373MG, U-251MG, or U-105MG cell lines was measured using a 48-well microchemotaxis chamber. The best response was from U-373MG, which was selected for further study. Chemotactic activity was contained in materials unadsorbed and adsorbed to the heparin-affinity column. Because the higher activity was seen in the unadsorbed material, it was used for characterization and partial isolation. The chemotactic activity was decreased under the condition of tumor protein synthesis inhibition. Heating, exposure to acid, and trypsin digestion also decreased the activity. The factor was found to be a protein with a relative molecular weight of greater than 200 kD; it has no mitogenic activity for endothelial cells in vitro and, partially purified, it was not identical to any other known endothelial cell chemotactic or mitogenic factor. Fibronectin was not detected, and anti-fibronectin antibody failed to inhibit the activity of the factor. These results suggest that malignant glioma cells produce a yet unknown endothelial cell chemotactic factor.

An acidic fibroblast growth factor protein generated by alternate splicing acts like an antagonist

Polymerase chain reaction amplification of cDNA for acidic fibroblast growth factor in several lines of cultured human cells revealed two forms of mRNA. The novel smaller mRNA lacks the entire second coding exon of the acidic fibroblast growth factor gene, whereas the previously identified mRNA consists of three coding exons. The truncated variant of acidic fibroblast growth factor (aFGF') is only 60 amino acids long with an apparent molecular mass of 6.7 kD on sodium dodecyl sulfate gels in contrast to 18 kD for the full-length acidic fibroblast growth factor. aFGF' elicits only minimal fibroblast proliferation and antagonizes the effects of acidic fibroblast growth factor when added exogenously to or when coexpressed with aFGF in BALB/c/3T3 fibroblasts. Thus, the truncated variant of acidic fibroblast growth factor may provide fibroblasts with a unique mechanism for endogenous regulation of their responses to acidic fibroblast growth factor.

Expression and transforming activity of a variant of the heparin-binding fibroblast growth factor receptor (flg) gene resulting from splicing of the alpha exon at an alternate 3'-acceptor site

Splicing at an alternate 3'-acceptor site results in deletion of a CCCAG in the 5'-sequence of the exon coding for the NH2-terminal immunoglobulin-like disulfide loop of the heparin-binding fibroblast growth factor receptor (flg) alpha isoform. The result is an in-frame stop codon 138 base pairs after the first flg consensus translational initiation site. The next more favorable site predicts the same two loop intracellular receptor isoform, gamma, which was predicted from two different human cDNAs that arise by alternate use of two exons at the same site. Although expressed in normal tissue, the gamma mRNA is increased in rat prostate tumors and confers ability of anchorage-dependent cells expressing non-secreted heparin-binding fibroblast growth factors to grow in soft agar.

Growth factors, growth factor response elements, and the cardiac phenotype

Fibroblast growth factors (FGF) and type beta-1 transforming growth factor (TGF beta 1) are pleiotropic regulatory peptides which are expressed in myocardium in a precise developmental and spatial program and are up-regulated, in the adult heart, by ischemia or a hemodynamic burden. The accumulation of trophic factors after aortic banding supports the hypothesis that autocrine or paracrine pathways might function to mediate, in part, the consequences of mechanical load. Our laboratory has demonstrated that cardiac muscle cells are targets for the action of peptide growth factors and, more specifically, that modulation of the cardiac phenotype by basic FGF (bFGF) and TGF beta 1 strongly resembles the induction of fetal cardiac genes--including skeletal alpha-actin (SkA), beta-myosin heavy chain, and atrial natriuretic factor--which are characteristic of pressure-overload hypertrophy. Unexpectedly, and despite effects like those of bFGF on five other cardiac genes, acidic FGF (aFGF) was found to repress, rather than stimulate, SkA transcription in neonatal cardiac muscle cells. The proximal 200 nucleotides of a heterologous SkA promoter were sufficient for basal tissue-specific transcription, for induction by bFGF, and for inhibition by aFGF. Thus, both positive and negative regulation by peptide growth factors can be localized to the proximal SkA promoter. Full promoter activity required each of three CC[A/T]6GG motifs similar to the serum response element (SRE) for activation of the c-fos proto-oncogene, as previously shown for SkA transcription in a skeletal muscle background. The most proximal SRE, SRE1, was sufficient in the absence of other SkA promoter sequences for efficient tissue-specific expression in cardiac myocytes (versus cardiac fibroblasts), and was stimulated by bFGF to the same extent as the full-length promoter and endogenous gene. Despite its ability to repress the SkA promoter, aFGF had no significant effect on SRE1. Both FGFs up-regulated the canonical fos SRE, to a comparable degree. Thus, SRE1 can discriminate between signals generated in cardiac myocytes by bFGF and aFGF. In cardiac myocyte extracts, two predominant proteins contact SRE1: serum response factor (SRF) and a second protein, F-ACT-1. Thus, serum response factor and F-ACT-1 are candidate trans-acting factors for basal transcription of the SkA gene in cardiac muscle cells and for induction of SkA by bFGF and, potentially, other trophic signals.

Interactions of FGFs with target cells

Growth factors play a key role in cellular communication, a necessary step for the development of pluricellular organisms. The fibroblast growth factors (FGF) are among these polypeptides and have seven known members: FGF 1 to FGF 7 which are also known as acidic FGF, basic FGF, translation products of oncogenes hst, int 2, FGF 5, FGF 6 and FGF 7 or keratinocyte growth factor (KGF) respectively [1]. The best known and the most abundant in normal adult tissues are acidic and basic FGFs, or FGF 1 and 2 respectively, which have been subjected to extensive studies both in vitro and in vivo. These two factors have almost ubiquitous distribution and a wide spectrum of biological activity including action on cellular proliferation and differentiation, as well as neurotrophic and angiogenic properties [1]. These different activities are induced by triggering specific receptors present at the surface of the target cell. Following this interaction, the FGF-receptor complexes are internalized and activate intracellular pathways. An important effort of investigations has been produced to characterize these receptors and intracellular pathways. It is the purpose of this review to present this work which will focus on FGFs 1 and 2. The existence of two classes of interactions has been reported as early as 1987 [52, 53, 54] suggesting the presence of high and low affinity receptors for FGFs.

The interaction of amphiregulin with nuclei and putative nuclear localization sequence binding proteins

Amphiregulin (AR) is a 23 kDa, bifunctional growth modulating glycoprotein belonging to the epidermal growth factor (EGF) family of polypeptide growth regulators. AR possesses two putative nuclear localization sequences (NLS), binds to DNA sepharose, and localizes to the nucleoli of human ovarian surface epithelial carcinoma cells suggesting that AR has a direct nuclear role. We have found that 125I-labeled AR, when exogenously applied to several carcinoma cell lines, associated with nuclei in a time, temperature, and concentration dependent fashion. The control peptide, EGF, also associated with these fractions but at approximately 20% of the efficiency of AR. Cross-linking experiments with 125I-labeled AR and nuclear fractions derived from various carcinoma and normal cell lines demonstrated that AR binds two proteins of molecular mass 205 and 120 kDa. AR binding to these nuclear fraction proteins was specific and saturable as shown by competition experiments utilizing both SV-40 large T antigen NLS and an AR derived peptide encompassing both putative AR NLS. The combined results suggest that nuclear interactions may play a significant role in AR induced growth responses.

Biologically active synthetic fragments of human basic fibroblast growth factor (bFGF): identification of two Asp-Gly-Arg-containing domains involved in the mitogenic activity of bFGF in endothelial cells

Synthetic peptides derived from the amino acid sequence of human basic fibroblast growth factor (bFGF) have been assayed for the capacity to exert bFGF agonist and antagonist activities in cultured endothelial cells. bFGF fragments A and C, which correspond to the sequences bFGF (38-61) and bFGF (82-101), induce a limited but statistically significant increase in cell number when administered to cultures of fetal bovine aortic endothelial GM 7373 cells and adult bovine aortic endothelial cells. The two peptides also exert a partial antagonist activity when GM 7373 cells are stimulated to proliferate by bFGF, but they do not affect cell proliferation induced by serum, epidermal growth factor (EGF), phorbol ester (TPA), or 1,2-diacylglycerol (diC8). Moreover, antibodies raised against peptides A and C specifically quench the mitogenic activity of bFGF. Peptides A and C contain the amino acid sequence Asp-Gly-Arg (DGR), which is the inverse of the cell adhesion signal sequence RGD recognized by integrins. DGR- and RGD-containing tetra- and heptapeptides inhibit the mitogenic activity exerted by bFGF and by the two active bFGF fragments. They do not affect cell proliferation induced by acidic FGF, EGF, serum, TPA, and diC8. However, neither peptides A and C, their corresponding antibodies, nor DGR-and RGD-containing peptides inhibit the binding of 125I-bFGF to its low and high affinity binding sites. The data suggest that amino acid residues 38-61 and 82-101, both containing a core DGR sequence, represent two "activation" domains of bFGF. Both domains are involved in the modulation of the mitogenic activity of bFGF without interacting directly with the bFGF receptor.

Platelet-derived growth factors and heparin-binding (fibroblast) growth factors in the synovial tissue pathology of rheumatoid arthritis

The pathology of rheumatoid arthritis (RA) is characterized by massive tumor like hyperplasia of synovial connective tissues. Fibroblast like cells and microvascular endothelial cells are the predominant cell types present in this invasive tissue, particularly at sites of bone erosions. Identification of growth factors or cytokines that drive this process is an important goal of current research. Here we review evidence that platelet-derived growth factor (PDGF)-like and heparin-binding fibroblast growth factor (HBGF)-like polypeptides play a significant role in this process. For example, messenger RNA transcripts for PDGF-A, PDGF-B, HBGF-1, and HBGF-2 are present in RA synovial tissue specimens, and immunoreactive PDGF-like and HBGF-1- and -2-like polypeptides are present in RA synovia. Levels of expression are significantly higher in RA synovia than in osteoarthritis (OA) synovia, and their expression correlates with the extent and intensity of mononuclear cell infiltration. Similarly, PDGF-receptor expression is elevated in RA synovia compared with OA synovia. High levels of tyrosine phosphorylation and Fos and Myc expression are also characteristic of RA synovia and occur in cells after PDGF- and HBGF-receptor interaction. These and other observations strongly support the view that PDGF-like and HBGF-like factors are involved in stimulating the proliferative and invasive phenotype of RA synovial connective tissue cells.

Differential localization and possible functions of aFGF and bFGF in the central and peripheral nervous systems

We investigated the relative distribution of acidic and basic FGF (aFGF and bFGF) in the nervous system of the rat, using a combination of biological, biochemical, immunochemical, and immunohistochemical methods that can differentiate unambiguously between aFGF and bFGF. We found that different regions of the nervous system contained varying levels of aFGF and bFGF. In the central nervous system, bFGF was present nearly exclusively in astrocytes. Most neurons did not contain detectable amounts of bFGF immunoreactivity, with the notable exception of pyramidal cells in hippocampal area CA2. Interestingly, bFGF immunoreactivity was localized to the nucleus of both CA2 neurons and astrocytes. Astrocytes in vitro were also found to express bFGF, whereas cortical neurons in culture did not contain detectable amounts of bFGF. Transection of the optic nerve led to an approximately twofold increase of bFGF in the distal stump, which is consistent with the observation that bFGF is expressed by astrocytes. Transection of rat and chicken sciatic nerve resulted in a rapid and complete disappearance of aFGF from the distal nerve stump, suggesting that aFGF is present in axons projecting through the sciatic nerve. We observed, in agreement with this notion, that cultured sensory neurons contain reasonably high levels of FGF-like bioactivity. Similar levels of activity were found in developing sciatic nerve, suggesting that neuronal aFGF might be involved in regulating the development of the peripheral nervous system.

Hypotensive activity of fibroblast growth factor

Acidic and basic fibroblast growth factors (FGFs) are members of a family of proteins that are broad-spectrum mitogens, have diverse hormone-like activities, and function in tumorigenesis. FGF's ability to raise the concentration of intracellular calcium ion suggests that FGF could induce the synthesis of endothelium-derived relaxing factor (EDRF) and consequently vasodilation. Systemic administration of FGF decreased arterial blood pressure. This effect was mediated by EDRF and by adenosine triphosphate-sensitive potassium ion channels. The hypotensive effect of FGF was segregated from its mitogenic activity by protein engineering. These results extend the range of FGF autocrine activities and potential therapeutic applications, emphasize the role of endothelium as an arterial blood pressure--regulating organ, and provide insight on the structural basis of FGF functions.

Analysis of mutations in the putative nuclear localization sequence of interleukin-1 beta

Previous studies have shown that, after receptor-mediated endocytosis, interleukin-1 alpha (IL1 alpha) and interleukin-1 beta (IL1 beta) are translocated to the nucleus, where they appear to accumulate. It has been suggested that nuclear translocation may be involved in the biological responsiveness of target cells to IL1 stimulation. The human IL1 beta molecule contains a seven-amino-acid sequence (-Pro208-Lys-Lys-Lys-Met-Glu-Lys-) that shows some sequence identity with the nuclear localization sequence of the simian-virus-40 large T-antigen. The effects of point mutations within this putative nuclear localization sequence on IL1 beta binding, receptor-mediated endocytosis and biological activity have been characterized. Mutants M49 (Lys210----Ala), M50 (Lys211----Ala) and M51 (Pro208----Ala) all retained the ability to bind to the IL1 receptor, albeit with lower affinity than the wild-type molecules. However, mutants M49, M50 and M51 showed greater biological potency than wild-type IL1 alpha or IL1 beta, as measured by the induction of IL2 secretion. However, receptor-mediated endocytosis and nuclear accumulation of M50 were comparable with those in the wild-type. These observations suggest that the putative nuclear localization sequence may play an important role in the generation of biological responses to IL1 stimulation, even though it may not influence internalization of the ligand.

Brain-derived neurotrophic factor: subcellular compartmentalization and interneuronal transfer as visualized with anti-peptide antibodies

The recent cloning of a second member of the nerve growth factor family, brain-derived neurotrophic factor (BDNF), has prompted investigation into the cells that express this factor's mRNA and protein. In the present study, antibodies raised against unique peptide sequences within the porcine BDNF protein detect BDNF-like immunoreactivity in neurons in rat hippocampal and cortical areas consistent with the distribution of BDNF mRNA as detected with in situ hybridization. Within these neurons, BDNF-like immunoreactivity was observed in the cytoplasm, dendrites, and nuclei. In addition, BDNF immunoreactivity was observed in the cytoplasm of cholinergic neurons that do not express detectable levels of BDNF mRNA. Thus, anti-peptide antibodies can be used to detect this neurotrophic factor protein in cytoplasmic sites of synthesis and in areas of probable action. We propose that one form of the BDNF protein enters the nucleus and may directly influence transcription, while another fraction of the protein is transported out of the synthesizing cell and can be detected, after retrograde axonal transport, in cytoplasmic granules in the perikarya of cholinergic neurons. These basal forebrain cholinergic neurons project to regions enriched in BDNF-synthesizing cells and are known to be responsive to BDNF in vitro. Our data provide information regarding the cellular distribution of BDNF protein in vivo and suggest a dendro-axonic interneuronal transfer of BDNF as well as an additional, intracellular signaling pathway not previously thought to occur in postmitotic neurons in brain.

The vascular endothelial growth factor family of polypeptides

Vascular endothelial growth factor (VEGF) was identified as a heparin-binding polypeptide mitogen with a target cell specificity restricted to vascular endothelial cells. Molecular cloning reveals the existence of four species of VEGF having 121, 165, 189, and 206 amino acids. These have strikingly different secretion patterns, which suggests multiple physiological roles for this family of polypeptides. The two shorter forms are efficiently secreted, while the longer ones are mostly cell-associated. Alternative splicing of mRNA, rather that transcription from different genes, is the mechanism for their generation. In situ hybridization reveals that the VEGF mRNA is widely distributed in most tissues and organs and expressed at particularly high levels in areas of active vascular proliferation, like the ovarian corpus luteum. Ligand autoradiography on rat tissue sections demonstrates that VEGF binding sites are associated with vascular endothelial cells of both fenestrated and non-fenestrated capillaries and with the endothelium of large vessels, while no displaceable binding is evident on non-endothelial cell types. These findings support the hypothesis that VEGF plays a highly specific role in the maintenance and in the induction of growth of vascular endothelial cells.

Response to and expression of amphiregulin by ovarian carcinoma and normal ovarian surface epithelial cells: nuclear localization of endogenous amphiregulin

Amphiregulin (AR) is a polypeptide growth regulator which has sequence homology to the epidermal growth factor-related family of ligands and contains putative nuclear targeting sequences. Human ovarian carcinoma cell lines and their normal counterparts, ovarian surface epithelial cells (OSEs), were assessed for their ability to respond to and express AR. Addition of exogenous AR (8-200 pM) inhibited the growth of 2 of 3 OSE specimens and 3 of the 6 carcinoma cell lines indicating that AR has the potential to inhibit the growth of normal cells, in addition to carcinoma cells. In contrast, concentrations of AR ranging from 1-5 nM stimulated the growth of all 3 of the OSEs and 4 of the 6 carcinoma cell lines. Immunocytochemical staining of the cells using antipeptide antibodies directed against residues 8-26 of AR indicated that all cells expressed AR and that the staining was localized to the nucleus. The nuclear staining of AR was concentrated in the nucleolus of the carcinoma cells, whereas the staining was diffuse in the nucleus of the OSEs. These results suggest that AR may play a growth regulatory role in the nucleus of cells and this role may be different in normal and malignant epithelial cells.

Basic fibroblast growth factor requires a long-lasting activation of protein kinase C to induce cell proliferation in transformed fetal bovine aortic endothelial cells

Basic fibroblast growth factor (bFGF) induces a protein kinase C (PKC)-dependent mitogenic response in transformed fetal bovine aortic endothelial GM 7373 cells. A long-lasting interaction of bFGF with the cell is required to induce cell proliferation. bFGF-treated cells are in fact committed to proliferate only after they have entered the phase S of the cell cycle, 12-14 h after the beginning of bFGF treatment. Before that time, the mitogenic response to bFGF is abolished by 1) removal of extracellular bFGF by suramin, 2) addition of neutralizing anti-bFGF antibodies to the culture medium, 3) inhibition of PKC activity by the protein kinase inhibitor H-7, and 4) down-regulation of PKC by cotreatment with phorbol ester. Thus the requirement for a prolonged interaction of bFGF with the cell reflects the requirement for a prolonged activation of PKC. Similar conclusions can be drawn for the PKC activators 12-O-tetradecanoyl phorbol 13-acetate and 1,2-dioctanoyl-sn-glycerol. The two molecules require 16 and 6 h, respectively, of activation of PKC to induce 50% of maximal cell proliferation. The requirement for a long-lasting activation of PKC appears to be a mechanism for the control of cell proliferation capable of discriminating among transient nonmitogenic stimuli and long-lasting mitogenic stimuli.

Prominent expression of acidic fibroblast growth factor in motor and sensory neurons

Several growth factors originally characterized and named for their action on a variety of cells have more recently been suggested to be importantly involved in the development and maintenance of the nervous system. Acidic fibroblast growth factor (aFGF) is a member of a family of seven structurally related polypeptide growth factors. The cells responsible for expression of aFGF in the nervous system of adult rats have been identified using an affinity-purified antibody to aFGF in immunohistochemical studies and synthetic oligonucleotide probes for in situ hybridization studies. High levels of aFGF expression were observed in motoneurons, primary sensory neurons, and retinal ganglion neurons. Glial cells did not express detectable amounts of aFGF. Confocal and electron microscopic analysis suggested that a large portion of aFGF immunoreactivity was associated with the cytoplasmic face of neuronal membranes, consistent with the hypothesis that aFGF is a sequestered growth factor.

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.

Three forms of rat basic fibroblast growth factor are made from a single mRNA and localize to the nucleus

The molecular weight of rat basic fibroblast growth factor is predicted to be 18 kDa when the amino acid sequence is read from the single AUG initiation codon found in the cDNA. DNA sequencing upstream of this AUG codon indicated, however, that there was an extended open reading frame. In vitro translation of the rat cDNA for basic FGF gave three proteins of 18.0, 21.5, and 22.0 kDa in equal abundance. The same proteins were produced in vivo by COS cells transfected with the rat cDNA. Deletion of 81 base pairs from the reading frame upstream of the AUG codon resulted in the expression of only one protein observed at 18.0 kDa. These results indicated that the 22.0 and 21.5 kDa forms of rat basic FGF were formed when translation initiates at the alternative upstream non-AUG codons. Rat cell lines and tissues were found to express all three forms of basic FGF protein. The cDNA was used to analyze the subcellular distribution of the different forms of rat basic FGF. Subcellular fractionation and immunofluorescence of transfected COS cells showed that all three forms of the protein localized preferentially in the nucleus. Expression of a truncated cDNA from which 81 base pairs (27 amino acids) of the upstream reading frame had been deleted, showed localization of the smaller form of bFGF alone in the nucleus. These results demonstrated that although the amino acids that were deleted from the N-terminus of rat basic fibroblast growth factor have a sequence characteristic of nuclear localization motifs, they are not obligatory for the transport of the growth factor into the nucleus. Nuclear extracts taken from transfected cells also contained two smaller proteins of 16 and 12 kDa that were detected by Western blot analysis. It is possible that these are proteolytic products of bFGF.

Requirement of nuclear prolactin for interleukin-2--stimulated proliferation of T lymphocytes

Prolactin (PRL) is necessary for the proliferation of cloned T lymphocytes in response to interleukin-2 (IL-2). Translocation of PRL into the nucleus occurs during IL-2--stimulated mitogenesis. Therefore, the function of intranuclear PRL in T cell proliferation was tested. Eukaryotic expression vectors were prepared to express wild-type PRL [PRL(WT)], PRL that lacks the signal sequence for translocation into the endoplasmic reticulum [PRL(ER-)], and chimeric PRL in which the signal peptide was replaced with the sequence that directs the nuclear translocation of the SV40 large T antigen [PRL(NT+)]. Expression of these constructs in a T cell line (Nb2) responsive to PRL and IL-2 resulted in localization of PRL in the extracellular milieu, cytoplasm, or nucleus, respectively. Stimulation with IL-2 alone resulted in a five- to tenfold increase in the incorporation of [3H]thymidine by cells expressing PRL(NT+) or PRL(WT) as compared to PRL(ER-) or the parental Nb2 cells. Only the PRL(NT+) clone proliferated continuously with IL-2 stimulation in the presence of antiserum to PRL. These results demonstrate that nuclear PRL is necessary for IL-2--stimulated proliferation and suggest that a peptide hormone can function in the nucleus without binding to its cell surface receptor.

A novel mechanism regulating growth factor association with the cell surface: identification of a PDGF retention domain

Platelet-derived growth factor (PDGF) chimeras were used to map a domain responsible for either efficient secretion of PDGF-A or the tight cell association of PDGF-B to their carboxy-terminal domains. Introduction of stop codons within PDGF-A or PDGF-B further dissected their respective carboxy-terminal domains. Although successive deletions of the PDGF-A carboxyl terminus did not impair its secretion, incremental deletions from the carboxyl terminus of PDGF-B abrogated its membrane retention properties and promoted secretion. By this approach, PDGF-B retention properties could be localized to PDGF-B residues 212-226. A processed form of PDGF-B, which contained this domain, was expressed at the cell surface but not released. Comparison of PDGF-B with PDGF-A revealed an analogous sequence located at the PDGF-A carboxyl terminus. We demonstrated that this PDGF-A domain also acts as a retention sequence under conditions that inhibit its proteolytic cleavage. Thus, differences in PDGF-A and PDGF-B secretion relate to differential proteolytic processing of analogous retention domains. All of these findings establish a new mechanism for stable growth factor presentation at the cell surface.

Extracellular sequestration and release of fibroblast growth factor: a regulatory mechanism?

Basic fibroblast growth factor, (bFGF), promotes the formation of new blood capillaries and is sequestered and protected by binding to heparan sulfate (HS), both on the cell surface and in the extracellular matrix. Release of HS-bound bFGF by heparin-like molecules and HS-degrading enzymes (i.e., heparanase) provides a novel mechanism for regulation of the growth of capillary blood vessels in normal and pathological situations. The extracellular matrix also serves as a storage depot for other growth factors and enzymes.

Immunolocalization of basic fibroblast growth factor (bFGF) in growing and growth-inhibited placental cells: a possible role for bFGF in placental cell development

The distribution of basic (b) fibroblast growth factor (FGF) in growing and growth-arrested human placental tumour cells, as well as normal placental villous trophoblasts, was studied by immunofluorescence microscopy with antibodies to the amino terminus of bFGF. Placenta (FAR, FEG-3), breast (MCF-7, T-47D), cervix (HeLa) and uterine (HEC-1-A) tumour cells showed the same two patterns after immunofluorescent staining with antibodies to bFGF: (i) a perinuclear pattern and (ii) an intense homogeneous staining of the nucleus and cytoplasm. The homogeneous bFGF staining pattern was associated predominantly with actively dividing cells, observed at different stages of mitosis and cytokinesis. Placental (FEG-3) cell division was inhibited with methotrexate (MTX), a chemotherapeutic agent used in the treatment of placental tumours. MTX-treated FEG-3 cells as well as 'normal' non-proliferative placental (syncytiotrophoblast) cells from term placentae, showed perinuclear staining with antibodies to bFGF and immunofluorescence microscopy. The nuclear localization of bFGF in dividing but not non-dividing placental cells, suggests a role for bFGF in cytotrophoblast proliferation in vivo.

Heparin-binding (fibroblast) growth factors are potential autocrine regulators of esophageal epithelial cell proliferation

A serum-free culture system supplemented with neural tissue extract for normal and tumor human esophagi was applied to the culture of mouse esophageal epithelium. Similar to mouse mesenchyme and skin epithelium, esophageal epithelial lines (MEE) emerged after serial culture. The cells had an apparent unlimited life span but retained morphology and other characteristics of normal epithelial cells. The cells formed a small cyst consisting of keratinized squamous epithelium in syngenic hosts. A screen for growth factors that stimulated growth of the nonmalignant MEE cells in the absence of neural extract revealed that epidermal growth factor (EGF) and heparin-binding (fibroblast) growth factors (HBGF) were most effective. An HBGF-like activity was apparent in extracts of rapidly proliferating but not quiescent MEE cells at low or confluent densities. A cloned cell line (MEE/C8) was selected from MEE cell cultures in the absence of neural extract. MEE/C8 cells proliferated independent of either EGF or HBGF at rates equal to MEE cells, cell extracts exhibited HBGF-like activity at all stages of proliferation, and the cells formed large invasive tumors in syngenic hosts. The HBGF-like activity present in extracts of tumorigenic MEE/C8 and proliferating nonmalignant MEE cells had properties similar to HBGF-1 (acidic fibroblast growth factor). These results constitute a cultured mouse esophageal epithelial cell model for study of conversion of immortalized premalignant cells to malignant cells, and suggest that conversion from a state of cell cycle-dependent autocrine expression of one or more members of the HBGF family to a state of constitutive expression correlates with and may contribute to malignancy.

Growth factors and tyrosine protein kinases in normal and malignant melanocytes

Melanomas are highly variable with respect to aberrant gene expression and chromosomal lesions but share a common characteristic of an acquired independence from environmental growth factors that are needed for proliferation of normal melanocytes. Receptors with tyrosine kinase activity play a critical role in normal melanocyte proliferation and in the uncontrolled growth of melanomas. Normal human melanocytes depend on exogenous peptide growth factors such as basic fibroblast growth factor (bFGF), hepatocyte growth factor (HGF), or mast cell growth factor (MGF), all of which stimulate receptors with tyrosine kinase activity. In contrast, human melanoma cells from primary nodular and metastatic lesions grow autonomously partially because of inappropriate production of bFGF and continuous activation of the bFGF-receptor kinase. Animal models also provide evidence for the importance of receptor-tyrosine kinases in normal melanocyte proliferation and in malignant transformation. In the mouse, genes residing in three loci in which inactivation mutations lead to piebaldism, the dominant spotting (W), patch (Ph), and Sl encode, respectively, the receptor-kinases c-kit and platelet derived growth factor receptor, and the ligand for c-kit: MGF. In vivo transformation of mouse melanocytes to melanoma, due to constitutive expression of a transmembrane tyrosine kinase, the oncogene ret, was recently demonstrated in transgenic mice. Studies on a fish model, Xiphophorus, in which melanoma is inherited, showed that the dominant tumor inducing gene, Tu, encodes an EGF-receptor related tyrosine kinase which is expressed only in melanomas and not in normal tissues. Taken together, the results suggest that the uncontrolled growth of melanomas is due, in large part, to constitutive activation of receptors with tyrosine kinase activity.

Transdominant human T-cell lymphotropic virus type I TAX1 mutant that fails to localize to the nucleus

Human T-cell lymphotropic virus type I (HTLV-I) encodes a 40-kDa nuclear transactivating phosphoprotein, TAX1. The results presented in this study demonstrate that deletion of amino acids 2 through 59 of TAX1 (delta 58 TAX1) decreased transactivation of the HTLV-I long terminal repeat 10- to 20-fold. S1 nuclease analysis revealed that the decrease in transactivation of the HTLV-I long terminal repeat was associated with a lack of RNA synthesis. In contrast to the nuclear localization of the wild-type TAX1 protein, indirect immunofluorescence analysis demonstrated that delta 58 TAX1 failed to localize to the nucleus, indicating that the TAX1 nuclear localization sequence is present in amino acids 2 through 59. Cotransfection of wild-type and mutant TAX1 DNAs resulted in the cytoplasmic accumulation of TAX1 and a 25-fold decrease in transactivation. Although several possibilities which may account for this transdominant effect exist, we favor a model in which delta 58 TAX1 interferes with the nuclear localization of wild-type TAX1 protein, perhaps by forming heterodimer complexes.

A six-amino acid deletion in basic fibroblast growth factor dissociates its mitogenic activity from its plasminogen activator-inducing capacity

A recombinant deletion mutant of the 155-amino acid form of human basic fibroblast growth factor (bFGF), lacking amino acid residues 27-32 (Lys-Asp-Pro-Lys-Arg-Leu), was expressed in Escherichia coli and purified to homogeneity by heparin-Sepharose affinity chromatography. When maintained in the presence of an equimolar concentration of soluble heparin, the bFGF mutant (M1-bFGF) is as potent as bFGF in stimulating cell proliferation in normal and transformed fetal bovine aortic endothelial cells, in adult bovine aortic endothelial cells, and in NIH 3T3 fibroblasts. However, under the same experimental conditions, M1-bFGF is at least 100 times less efficient than bFGF in stimulating plasminogen activator (PA) production in endothelial cells, as assayed by chromogenic PA assay, SDS/PAGE zymography, and Northern blot analysis of urokinase-type PA mRNA. In the presence of heparin, M1-bFGF binds to bFGF plasma membrane receptors present on endothelial cells in a manner undistinguishable from bFGF. It also induces the same tyrosine phosphorylation pattern when added to NIH 3T3 cells. The data suggest that the PA-inducing activity of bFGF may depend upon a functional domain that differs from those involved in the mitogenic activity of the growth factor and that the binding of bFGF to its plasma membrane receptor may not be sufficient to induce urokinase-type PA production in endothelial cells.

Growth factors and receptors in cancer

There have been a number of recent developments in mechanisms of action of growth factors and their receptors with particular relevance to cancer. The tyrosine kinase receptor family, in particular, has been shown to be important in tumour growth. These receptors are the products of oncogenes, or can interact with other oncogene pathways. Thus, antibodies to either the receptor or its ligand can be used as therapeutic agents. Peptide analogues of ligands that can block receptor activation are also potential therapeutic agents.

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)

Three-dimensional structures of acidic and basic fibroblast growth factors

Members of the fibroblast growth factor (FGF) family of proteins stimulate the proliferation and differentiation of a variety of cell types through receptor-mediated pathways. The three-dimensional structures of two members of this family, bovine acidic FGF and human basic FGF, have been crystallographically determined. These structures contain 12 antiparallel beta strands organized into a folding pattern with approximate threefold internal symmetry. Topologically equivalent folds have been previously observed for soybean trypsin inhibitor and interleukins-1 beta and -1 alpha. The locations of sequences implicated in receptor and heparin binding by FGF are presented. These sites include beta-sheet strand 10, which is adjacent to the site of an extended sequence insertion in several oncogene proteins of the FGF family, and which shows sequence conservation among the FGF family and interleukin-1 beta.

Acidic fibroblast growth factor overexpression in corneal epithelial wound healing

aFGF expression was studied in normal and regenerating cornea of adult rats. aFGF mRNA and proteins were expressed mainly in corneal epithelium but not in stroma. After burning of the epithelium by iodine vapours, the intact epithelial cells migrated to cover the wounded area during the first 4 days and then divided to reconstitute a normal multilayered epithelium 6 days after injury. aFGF mRNA localized by in situ hybridization on regenerating epithelium showed a peak between 6 hr and 2 days after denudation, decreasing to basal levels 6 days later. This induction of aFGF mRNA preceded the increased amount of aFGF peptides, as assessed by indirect immunofluorescence staining. Thus aFGF overexpression is clearly correlated with active migration in epithelial wound healing.