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

Permeable FGF-1 nuclear localization signal peptide stimulates DNA synthesis in various cell types but is cell-density sensitive and unable to support cell proliferation

An earlier report indicated that a 26-amino-acid peptide (SA), comprised of the nuclear localization signal (NLS) of fibroblast growth factor-1 (FGF-1) and a membrane-permeable peptide, was able to stimulate DNA synthesis after it was taken up by NIH3T3 fibroblasts. Here, we report that SA, but not a mutant with the NLS motif destroyed, induced DNA synthesis in BALB/c3T3 murine fibroblasts, human vascular endothelial (HUVE) cells, and primary cultured hepatocytes, although the activity was weaker than that of FGF-1. The kinetics of SA-induced DNA synthesis and G1 cyclin expression were similar to those elicited by FGF-1, indicating that SA induces cell cycle progression. Kinetic analysis also suggested that SA stimulates only a fraction of the DNA replication in BALB/c3T3 cells. At high cell densities, SA-induced G1 cyclin expression and DNA synthesis were more strongly inhibited than those induced by FGF-1. SA did not induce cell division in HUVE and BALB/c3T3 cells and did not interfere with FGF-1-stimulated proliferation of HUVE cells. These results indicate that SA is able to partially induce cell cycle progression through a contact-inhibition sensitive signaling pathway, but it is insufficient to support cell mitosis. We also suggest that signaling by SA does not interfere with that of FGF-1.

Comparative effect of alpha-MSH and b-FGF on neurite extension of fetal rat spinal cord neurons in culture

Basic fibroblast growth factor (b-FGF) and alpha melanocyte stimulating hormone (alpha-MSH) were tested for their ability to promote axonal elongation on E14 fetal rat spinal cord cell culture, and to support cell survival. A similar development of neurite was observed in alpha-MSH treated cultures or in control cultures, with an axonal length ranging from 87.50 microns to 195.60 microns on day 3. Complete cell death occurred after 6 days of incubation. Whatever the concentration of b-FGF used (0.312-2.5 ng/ml), a significant increase (1.2- to 1.4-fold) in neurite length was observed, with neuronal survival up to 9 days.

Localization of mRNA for basic fibroblast growth factor in human placenta

The site of basic fibroblast growth factor (bFGF) gene expression in human placenta is not known. In situ hybridization using [35S]-labelled riboprobe was employed to localize the sites of expression of bFGF mRNA in placental sections from early and late gestation. Autoradiographic hybridization signal was present in all placental tissue examined, with no significant hybridization with sense control. Basic FGF expression was seen in the syncytiotrophoblast surrounding the placental villi and in or around cytotrophoblast cells in first trimester placenta. At term, the bFGF gene expression was detected in the syncytiotrophoblast and fetal membranes. Strong expression of bFGF mRNA was localized in the smooth muscle cells around the mid and large sized placental vessels. The detection of bFGF mRNA in the placenta during early pregnancy suggests a role for bFGF in angiogenesis, whereas, its expression at term suggests that bFGF may be associated with differentiated functions of the trophoblast.

Effect of basic fibroblast growth factor and alpha-melanocytic stimulating hormone on nerve regeneration through a collagen channel

An experimental study on the rat sciatic nerve was performed to evaluate nerve regeneration through a collagen guide and to study the effects of alpha-melanocytic stimulating hormone (alpha-MSH) and basic fibroblast growth factor (b-FGF) in accelerating axonal elongation. After transection, nerves were repaired over a 7 mm gap using a placental collagen type IV guide. The channel was filled with either a b-FGF solution or an alpha-MSH solution or was produced with b-FGF incorporated into the guide. Four weeks later, only groups in which b-FGF had been injected or incorporated displayed a significant somatosensory evoked potential response. Histological and quantitative analysis of nerve fibres confirmed the existence of nerve continuity in groups receiving an alpha-MSH solution or a channel containing b-FGF. These results demonstrate that alpha-MSH in solution and b-FGF incorporated into a collagen type IV channel enhance peripheral nerve regeneration. However, at 4 weeks, only b-FGF (3 ng) restores functional activity.

In vitro kinetics of basic fibroblast growth factor diffusion across a reconstituted corneal endothelium

We have studied the ability of bFGF to traverse and be trapped within basement membranes. An extract of EHS tumor (matrigel) coated on culture chamber filters was used as an in vitro model of basement membranes. Our results showed a slow diffusion of bFGF dependent on the amount of low affinity binding sites present within the matrigel. High amounts of bFGF and heparin increased the initial rate of diffusion by displacement of bFGF bound to matrigel. An in vitro corneal endothelium model (endothelial cells overlying matrigel) was also developed. This monolayer, with a weak permeability, decreased the kinetic rate of bFGF diffusion compared with matrigel alone. These results indicate that modulation of bFGF distribution in a tissue by a basement membrane is dependent on bFGF concentration, basement membrane composition, permeability of associated cells, and local presence of heparin. This selective control may be a regulating step in bFGF action.