Deamidation of polyanion-stabilized acidic fibroblast growth factor.

The deamidation of polyanion-stabilized acidic fibroblast growth factor (aFGF; FGF-1) can be induced by prolonged storage under accelerated conditions of elevated pH and temperature. A urea-isoelectric focusing (urea-IEF) method has been developed to monitor aFGF deamidation in the presence of highly negatively charged polyanions which are required to maintain the conformational stability of the protein. The kinetics of aFGF deamidation have been established by a combination of urea-IEF and an enzymatic ammonia assay. Native, non-deamidated aFGF (complexed with heparin) has a half-life of 16 weeks at pH 7, 30 degrees C, and 4 weeks at pH 8, 40 degrees C. The mitogenic activity and biophysical properties of deamidated aFGF were compared to the non-deamidated protein. These initial deamidation events have no significant effect on the protein's overall conformation, thermal stability, interaction with heparin, or bioactivity. At longer times, however, limited aggregation of the protein was observed after prolonged storage under some conditions. N-terminal protein sequencing of the protein's first 21 amino acid residues have identified one of the deamidation sites in a flexible, peptide-like region of the protein (Asn8-Tyr9).

Interaction of nucleotides with acidic fibroblast growth factor (FGF-1).

A wide variety of nucleotides are shown to bind to acidic fibroblast growth factor (aFGF) as demonstrated by their ability to (1) inhibit the heat-induced aggregation of the protein, (2) enhance the thermal stability of aFGF as monitored by both intrinsic fluorescence and CD, (3) interact with fluorescent nucleotides and displace a bound polysulfated naphthylurea compound, suramin, (4) reduce the size of heparin-aFGF complexes, and (5) protect a reactive aFGF thiol group. The binding of mononucleotides, diadenosine compounds (ApnA), and inorganic polyphosphates to aFGF is enhanced as the degree of phosphorylation of these anions is increased with the presence of the base reducing the apparent binding affinity. The nature of the base appears to have much less effect. Photoactivatable nucleotides (8N3-ATP, 2N3-ATP, 8N3-GTP, and 8N3-Ap4A) were employed to covalently label the aFGF nucleotide binding site. In general, Kd's in the low micromolar range are observed. Protection against 90% displacement is observed at several hundred micromolar nucleotide concentration. Using 8N3-ATP as a prototypic reagent, photolabeled aFGF was proteolyzed with trypsin and chymotrypsin and labeled peptides were isolated and sequenced resulting in the identification of 10 possible labeled amino acids (Y8, G20, H21, T61, K112, K113, S116, R119, R122, H124). On the basis of the crystal structure of bovine aFGF, eight of the prospective labeled sites appear to be dispersed around the perimeter of the growth factor's presumptive polyanion binding site. On residue (T61) is more distally located but still proximate to several positively charged residues, and another (Y8) is not locatable in crystal structures. Using heparin affinity chromatography, at least three distinct photolabeled aFGF species were resolved. These labeled complexes display diminished affinity for heparin and a reduced ability to stimulate mitogenesis even in the presence of polyanions such as heparin. In conclusion, nucleotides bind apparently nonspecifically to the polyanion binding site of aFGF but nevertheless are capable of modulating the protein's activity. Evidence for the presence of a second or more extended polyanion binding site and the potential biological significance of these results in terms of potential natural ligands of aFGF are also discussed but not resolved.

Sucralfate and soluble sucrose octasulfate bind and stabilize acidic fibroblast growth factor.

The actions of the anti-ulcer drug sucralfate have been proposed to be mediated through interaction with fibroblast growth factors (Folkman, J., Szabo, S., Strovroff, M., McNeil, P., Li, W. and Shing, Y. (1991) Ann. Surg. 214, 414-427). We show here that acidic fibroblast growth factor (aFGF; FGF-1) binds in vitro to both the soluble potassium salt and the insoluble aluminum salt of sucrose octasulfate, as demonstrated by a variety of biophysical techniques. Similar to the well-described interaction and stabilization of aFGF by heparin, soluble sucrose octasulfate (SOS) stabilizes aFGF against thermal, urea and acidic pH-induced unfolding as determined by a combination of circular dichroism, fluorescence spectroscopy and differential scanning calorimetry. In addition, SOS also enhances the mitogenic activity of aFGF and partially protects the protein's three cysteine residues from copper-catalyzed oxidation. SOS competes with heparin and suramin for the aFGF polyanion binding site as measured by both fluorescence and light scattering based competitive binding assays. Front-face fluorescence measurements show that the native, folded form of aFGF binds to the insoluble aluminum salt of sucrose octasulfate (sucralfate). Moreover, sucralfate stabilizes aFGF against thermal and acidic pH-induced unfolding to the same extent as observed with SOS. Thus, due to their high charge density, SOS and sucralfate bind and stabilize aFGF via interaction with the aFGF polyanion binding site.

Agonist-like character of the (R)-enantiomer of 1-hydroxy-3-amino-pyrrolid-2-one (HA-966).

HA-966 (1-hydroxy-3-amino-pyrrolid-2-one), an antagonist at the strychnine-insensitive glycine site on the N-methyl-D-aspartate (NMDA) receptor complex, only partially inhibits the binding of noncompetitive antagonists to the NMDA receptor but enhances the binding of the NMDA competitive antagonist CPP (3-(2-carboxypiperazin-4-yl)propyl-1-phosphonic acid). Here we report that the IC50 of the active (R)-enantiomer of HA-966 for displacement of [3H]glycine binding is decreased in the presence of spermine, suggesting that spermine increases the affinity of (R)-HA-966 at the [3H]glycine binding site. The IC50 values of the agonist glycine and the partial agonist 1-aminocyclopropane-1-carboxylate are also decreased. The IC50 values of glycine antagonists 6,7-dinitroquinoxalin-2,3-dione and 7-chlorokynurenic acid are not significantly altered. The spermine shift represents the first demonstration of the agonist-like character of the (R)-enantiomer of HA-966 at the glycine site.