In Situ Inner Lumen Attachment of Heparin to Poly(ether sulfone) Hollow Fiber Membranes Used for Microdialysis Sampling.

An in situ chemical surface modification method to attach heparin to the inner lumen of a single hollow fiber poly(ether sulfone) (PES) membrane incorporated into a commercial microdialysis sampling device is described. The immobilization process uses gentle, room-temperature conditions with the enzyme laccase (E.C. 1.10.3.2) and 4-hydroxybenzoic acid (4HBA). The resulting functionalized inner membrane surface with a carboxylic acid functional groups allowed for (1-ethyl-3-(3-(dimethylamino)propyl) carbodimide)/ N-hydroxysuccinimide) EDC/NHS chemistry to attach heparin to the membrane surface. X-ray photoelectron spectroscopy measurements suggested successful attachment of 4HBA polymers and heparin onto the PES membrane. The microdialysis extraction efficiency after membrane surface modification was measured with model compounds fluorescein isothiocyanate (FITC)-labeled dextrans and lysozyme and the cytokines acidic fibroblast growth factor (aFGF) and CXCL1 (KC/GRO). This work demonstrates an in situ method to modify commercially available PES hollow fiber microdialysis membranes with amine or carboxylic acid functional groups.

Large-scale production of bioactive recombinant human acidic fibroblast growth factor in transgenic silkworm cocoons.

With an increasing clinical demand for functional therapeutic proteins every year, there is an increasing requirement for the massive production of bioactive recombinant human acidic fibroblast growth factor (r-haFGF). In this present study, we delicately explore a strategy for the mass production of r-haFGF protein with biological activity in the transgenic silkworm cocoons. The sequence-optimized haFGF was inserted into an enhanced sericin-1 expression system to generate the original transgenic silkworm strain, which was then further crossed with a PIG jumpstarter strain to achieve the remobilization of the expression cassette to a "safe harbor" locus in the genome for the efficient expression of r-haFGF. In consequence, the expression of r-haFGF protein in the mutant line achieved a 5.6-fold increase compared to the original strain. The high content of r-haFGF facilitated its purification and large-scald yields. Furthermore, the r-haFGF protein bioactively promoted the growth, proliferation and migration of NIH/3T3 cells, suggesting the r-haFGF protein possessed native mitogenic activity and the potential for wound healing. These results show that the silk gland of silkworm could be an efficient bioreactor strategy for recombinant production of bioactive haFGF in silkworm cocoons.

Efficient and inexpensive method for purification of heparin binding proteins.

Heparin binding (HB) proteins mediate a wide range of important cellular processes, which makes this class of proteins biopharmaceutically important. Engineering HB proteins may bring many advantages, but it necessitates cost effective and efficient purification methodologies compared to currently available methods. One of the most important classes of HB proteins are fibroblast growth factors (FGFs) and their receptors (FGFRs). In this study, we report an efficient off-column purification of FGF-1 from soluble fractions and purification of the D2 domain of FGFR from insoluble inclusion bodies, using a weak Amberlite cation (IRC) exchanger. FGF-1 and the D2 domain have been expressed in Escherichia coli and purified to homogeneity using IRC resin. This approach is an alternative to conventional affinity column chromatography, which exhibits several disadvantages, including time-consuming experimental procedures for purification and regeneration and results in the expensive production of recombinant proteins. Results of the heparin binding chromatography and steady state fluorescence experiments show that the FGF-1 and the D2 are in a native conformation. The findings of this study will not only aid an in-depth investigation of this class of proteins but will also provide avenues for inexpensive and efficient purification of other important biological macromolecules.

Heparin-immobilized microspheres for the capture of cytokines.

The preparation and characterization of heparin-immobilized microspheres which were used to bind acidic fibroblast growth factor (aFGF), vascular endothelial growth factor (VEGF), monocyte chemoattractant protein 1 (MCP-1/CCL2), and regulation upon activation normal T cell express sequence (RANTES/CCL5) is described. These beads were used as trapping agents in microdialysis sampling experiments in a separate study. Both free heparin and a synthesized heparin-albumin conjugate were immobilized onto microspheres and compared for their effectiveness. The heparin-albumin conjugate microspheres exhibited significant nonspecific adsorption which appeared to be due to the albumin content. The prepared heparin-immobilized microspheres were stable for 3 months at 4 °C. A bead-based flow cytometric assay was developed to study the binding capacity and specificity of the heparin-immobilized microspheres to cytokines. These heparin-immobilized microspheres exhibited broad dynamic ranges for binding to the four cytokines (aFGF, 1.0-1,000 ng/mL; VEGF, 0.5-1,000 ng/mL; CCL2, 1.95-1,000 ng/mL; CCL5, 1.95-500 ng/mL). Fast binding kinetics of the cytokines to the heparin-immobilized beads suggests that these beads may be useful as affinity agents in microfluidic flow systems.

Strategy for fluorescent labeling of human acidic fibroblast growth factor without impairment of mitogenic activity: a bona fide tracer.

Here we describe, for the first time, the design and characterization of a bona fide fluorescently labeled mutant of the human acidic fibroblast growth factor (aFGF). The aFGF-Cys2 mutant was recombinantly synthesized by substituting the second amino acid with a reactive cysteine whose sulfhydryl group's side chain reactivity facilitated the covalent binding of a fluorescent probe as a thiolyte monobromobimane. Using a combination of biophysical and functional assays, we found that the fluorescently labeled mutant aFGF is characterized by essentially the same global folding, mitogenic activity, and association behavior with heparin, its physiological activator, as the unlabeled wild-type protein. We used this new tracer protein mutant to determine the association behavior of aFGF with heparin in the presence of high concentrations of albumin that mimicked more closely the plasma medium in which aFGF is naturally located and in which it has evolved to function. By exposing the aFGF-Cys2-heparin complex to increasing concentrations of albumin up to physiological plasma levels, we were able to demonstrate that macromolecular crowding does not affect the stoichiometry of the interaction. In summary, the dimeric aFGF-Cys2-heparin complex might represent a biologically relevant complex in physiological media.

In vitro and in vivo affinity microdialysis sampling of cytokines using heparin-immobilized microspheres.

Heparin-immobilized microspheres were included in microdialysis sampling perfusion fluids under both in vitro and in vivo conditions to improve the recovery of different cytokines, acidic fibroblast growth factor, vascular endothelial growth factor, monocyte chemoattractant protein-1 (or CCL2), and regulation upon activation normal T cell express sequence (or CCL5). Different strategies to dissociate captured CCL2 and CCL5 from the immobilized heparin were attempted, and both cytokines could be quantitatively eluted from the beads using a phosphate buffer (pH 7.4) containing 25% (v/v) acetonitrile which did not interfere with the subsequent detection of cytokine using an ELISA assay. Using these heparin-immobilized microspheres, a two to fivefold increase of microdialysis relative recovery (RR) was achieved for the four cytokines from a quiescent solution. Enhanced microdialysis RR of CCL2 using the heparin-immobilized microspheres from microdialysis probes implanted into the peritoneal cavity of a rat was performed to test the in vivo application. This work suggests that the heparin-immobilized microspheres provide an alternative affinity agent to the previously used antibody-immobilized microspheres for enhanced microdialysis sampling of cytokines.

Glycosaminoglycans of the porcine central nervous system.

Glycosaminoglycans (GAGs) are known to participate in central nervous system processes such as development, cell migration, and neurite outgrowth. In this paper, we report an initial glycomics study of GAGs from the porcine central nervous system. GAGs of the porcine central nervous system, brain and spinal cord were isolated and purified by defatting, proteolysis, anion-exchange chromatography, and methanol precipitation. The isolated GAG content in brain was 5 times higher than in spinal cord (0.35 mg/g of dry sample, compared to 0.07 mg/g of dry sample). In both tissues, chondroitin sulfate (CS) and heparan sulfate (HS) were the major and the minor GAG, respectively. The average molecular masses of CS from brain and spinal cord were 35.5 and 47.1 kDa, respectively, and those for HS from brain and spinal cord were 56.9 and 34 kDa, respectively. The disaccharide analysis showed that the compositions of CS from brain and spinal cords are similar, with uronic acid (1→3) 4-O-sulfo-N-acetylgalactosamine residue corresponding to the major disaccharide unit (CS type A) along with five minor disaccharide units. The major disaccharides of both brain and spinal cord HS were uronic acid (1→4) N-acetylglucosamine and uronic acid (1→4) 6-O-sulfo-N-sulfoglucosamine, but their composition of minor disaccharides differed. Analysis by (1)H and two-dimensional NMR spectroscopy confirmed these disaccharide analyses and provided the glucuronic/iduronic acid ratio. Finally, both purified CS and HS were biotinylated and immobilized on BIAcore SA biochips. Interactions between these GAGs and fibroblast growth factors (FGF1 and FGF2) and sonic hedgehog (Shh) were investigated by surface plasmon resonance.

A logical OR redundancy within the Asx-Pro-Asx-Gly type I beta-turn motif.

Turn secondary structure is essential to the formation of globular protein architecture. Turn structures are, however, much more complex than either alpha-helix or beta-sheet, and the thermodynamics and folding kinetics are poorly understood. Type I beta-turns are the most common type of reverse turn, and they exhibit a statistical consensus sequence of Asx-Pro-Asx-Gly (where Asx is Asp or Asn). A comprehensive series of individual and combined Asx mutations has been constructed within three separate type I 3:5 G1 bulge beta-turns in human fibroblast growth factor-1, and their effects on structure, stability, and folding have been determined. The results show a fundamental logical OR relationship between the Asx residues in the motif, involving H-bond interactions with main-chain amides within the turn. These interactions can be modulated by additional interactions with residues adjacent to the turn at positions i+4 and i+6. The results show that the Asx residues in the turn motif make a substantial contribution to the overall stability of the protein, and the Asx logical OR relationship defines a redundant system that can compensate for deleterious point mutations. The results also show that the stability of the turn is unlikely to be the prime determinant of formation of turn structure in the folding transition state.

FGF binding by extracellular matrix components of Wharton's jelly.

Our earlier paper has reported that Wharton's jelly is a reservoir of several peptide growth factors, including acidic and basic fibroblast growth factors (aFGF and bFGF, respectively). Both can be extracted by buffered salts solutions in the form of high molecular mass complexes, probably with a component(s) of the extracellular matrix. Both aFGF and bFGF from such extracts hardly penetrate 10% polyacrylamide gels during electrophoresis. Pre-treatment of Wharton's jelly with hyaluronidase slightly increased the extractability of aFGF, but did not affect the extractability of bFGF. In contrast, the pre-treatment of tissue homogenate with bacterial collagenase (2000 U/ml, 37 degrees C, 18 h) increased the extractability of bFGF. The presence of beta-mercaptoethanol in the extracting solutions increased the extractability of both FGFs, but did not release FGFs in their free form, despite reducing the molecular mass of the FGF-containing complexes. We conclude that both aFGF and bFGF are bound through disulphide bonds to a protein component of Wharton's jelly. We propose that ground substance composed mainly of collagen fibrils and hyaluronate molecules, which surrounds the cells of Wharton's jelly, prevents the access of the extracting solution to aFGF and bFGF. Although hyaluronate and collagen do not bind aFGF or bFGF directly, they may constitute a barrier which prevents the dispersion of FGFs in Wharton's jelly. Thus, the high concentration of FGFs around the cells of Wharton's jelly may facilitate the interaction of these factors with membrane receptors, thereby resulting in stimulation of cell division and differentiation, as well as of the synthesis of extracellular matrix components.

Improved yields of full-length functional human FGF1 can be achieved using the methylotrophic yeast Pichia pastoris.

We have produced human fibroblast growth factor 1 (hFGF1) in the methylotrophic yeast Pichia pastoris in order to obtain the large amounts of active protein required for subsequent functional and structural characterization. Four constructs were made to examine both intracellular and secreted expression, with variations in the location of the His6 tag at either end of the peptide. hFGF1 could be produced from all four constructs in shake flasks, but production was optimized by growing only the highest-yielding of these strains, which produced hFGF1 intracellularly, under tightly controlled conditions in a 3 L fermentor. One hundred and eight milligrams of pure protein was achieved per liter culture (corresponding to 0.68 mg of protein per gram of wet cells), the function of which was verified using NIH 3T3 cell cultures. This is a 30-fold improvement over previously reported yields of full-length hFGF1.

High-level expression and purification of a nonmitogenic form of human acidic fibroblast growth factor in Escherichia coli.

To decrease the potential side effects of acidic fibroblast growth factor (aFGF) caused by its broad-spectrum mitogenic activity, a nonmitogenic form of aFGF (nhaFGF), which retained the cardio- and neuroprotective characters of the wild-type aFGF, was overexpressed in Escherichia coli. The expression level of nhaFGF was up to 25% of the total cellular protein. The expressed nhaFGF was purified by ionic exchange and heparin affinity chromatography from the supernatant of bacteria lysate. The mitogenic activity of the purified nhaFGF was decreased dramatically comparable to that of the wild-type aFGF (haFGF) detected by methylthiazoletetrazolium method. The purified recombinant nhaFGF was sufficiently prepared and sufficient for the following pharmacological study.

Accommodation of a highly symmetric core within a symmetric protein superfold.

An alternative core packing group, involving a set of five positions, has been introduced into human acidic FGF-1. This alternative group was designed so as to constrain the primary structure within the core region to the same threefold symmetry present in the tertiary structure of the protein fold (the beta-trefoil superfold). The alternative core is essentially indistinguishable from the WT core with regard to structure, stability, and folding kinetics. The results show that the beta-trefoil superfold is compatible with a threefold symmetric constraint on the core region, as might be the case if the superfold arose as a result of gene duplication/fusion events. Furthermore, this new core arrangement can form the basis of a structural "building block" that can greatly simplify the de novo design of beta-trefoil proteins by using symmetric structural complementarity. Remaining asymmetry within the core appears to be related to asymmetry in the tertiary structure associated with receptor and heparin binding functionality of the growth factor.

High-level expression of human acidic fibroblast growth factor and basic fibroblast growth factor in silkworm (Bombyx mori L.) using recombinant baculovirus.

A hybrid of Autographa californica nuclear polyhedrosis virus and Bombyx mori nuclear polyhedrosis virus, which is infectious to both Spodoptera frugiperda and Bombyx mori, was prepared in our previous study. Two recombinant hybrid baculoviruses, carrying cDNAs of human acidic and basic fibroblast growth factors, respectively, were successfully constructed in this study, for the large-scale production of human aFGF and bFGF using silkworm as host. These recombinant viruses were used to inoculate silkworm larvae. After the infection, the recombinant proteins were not found in the hemolymph. Such nonsecretion from cells has also been observed in the established insect cell lines, Sf21 and Tn-5. Tissue distribution analysis indicated that the expressed products were mainly located in fat body and the production of the recombinant aFGF and bFGF was maximal at around 80 h postinfection. Therefore, silkworm larvae infected with recombinant viruses were dissected and fat bodies were collected for the purification of recombinant aFGF and bFGF. The expression levels in both cases were estimated to be as high as approximately 600-700 microg per larva. Furthermore, the recombinant proteins were characterized and their biological activities were evaluated by in vitro bioassay using cell culture.

Optimized single-step affinity purification with a self-cleaving intein applied to human acidic fibroblast growth factor.

To reduce the number of recovery steps during downstream processing and to overcome the limitations of present fusion-based affinity separations, a controllable self-splicing protein element in the form of a mini-intein was used to optimize the recovery of proteins for both batch and flow purification strategies. The ability to recover purified proteins was demonstrated using a tripartite fusion consisting of a maltose binding domain, a truncated intein as a controllable linker molecule, and a protein of interest. To characterize expression level, solubility, cleavage rates, pH and temperature controllability, and protein activity, recombinant human acidic fibroblast growth factor (aFGF) was used as a model protein. A simple mass transport model, based on cleavage reaction-limited mass transfer and constant dispersion, was successfully used to predict product concentration and peak shape in relation to critical process parameters (with no fitting parameters). Insight into the nature of the cleavage reaction and its regulation was obtained via temperature- and pH-dependent kinetic data.

[High-level expression of human acidic fibroblast growth factor in E. coli and its purification].

A reconstructed human acidic fibroblast growth factor (haFGF) cDNA was cloned into the expression vector pkk223-3, and the expression in Escherichia coli. JM109 was induced by IPTG induction; the expression level of the recombinant haFGF was about 80 mg/L. The expressed haFGF was purified to identity by heparin affinity chromatography and the recovery rate of haFGF was 65%. The specific activity of the purified haFGF was ED50 4.6 ng/ml. The characters of recombinant haFGF was identical to that of natural one.

Isolation of a bioactive Ca(2+)-mobilizing complex lipid from bovine vitreous body.

Vitreous body extracts show a potent Ca(2+)-mobilizing activity on fibroblast cells. This Ca2+ signal is complex, and due to the presence of two different bioactive substances. The first one was identified as acid FGF. The second one was shown to be a low molecular weight substance identified as a complex lipid by a combination of chromatographic and biochemical data. This finding raises the possibility that non-classical substances with growth factor-like activity might play a role in the regulation of proliferative processes in the eye.

Affinity capillary electrophoresis employing immobilized glycosaminoglycan to resolve heparin-binding peptides.

A new capillary electrophoresis technique has been developed for the affinity resolution of synthetic heparin-binding peptides using an immobilized glycosaminoglycan. Heparin and heparan sulfate were immobilized onto fused silica capillaries using biotin-neutravidin conjugation. These capillaries exhibited markedly reduced electroosmotic flow and were able to distinguish peptides based on the heparin binding domain of acidic fibroblast growth factor (residues 125-144, GLKKNGSCKRGPRTHYGQKA) that differed only in the stereochemistry of the proline amino acid residue. The peptide based on the native sequence was retarded compared to the peptide having unnatural stereochemistry, consistent with its stronger interaction for immobilized glycosaminoglycan. Improved resolution is also obtained for additional arginine and lysine containing heparin-binding peptides.

Hepatocyte growth factor is a mitogen for alveolar type II cells in rat lavage fluid.

Proliferation of type II cells is required for maintenance of the alveolar epithelium and for restoration after lung injury. Although various known growth factors have been reported to stimulate type II cell proliferation in vitro, there is very little knowledge on which growth factors are present in the lung in vivo. We have previously reported that rat lavage fluid contains a mitogen(s) for type II cells, and this study was de signed to identify the growth factor(s) in this biological fluid for type II cells. The mitogenic activity was purified by sequential chromatography on blue Sepharose and heparin Sepharose. Hepatocyte growth factor (HGF) and acidic fibroblast growth factor by Western analysis. The amount of HGF recovered by lavage was approximately 6 ng/rat. By a use of neutralizing antibodies for different growth factors, HGF was found to be responsible for most of the stimulatory activity for rat type II cells in the partially purified lavage fluid. In addition to HGF, rat lavage fluid also contained potent mitogenic activity for fibroblasts. Finally, we have demonstrated that much of the mitogenic activity in salt extracts of human lung is HGF. We conclude that HGF is found in rat lavage fluid and is possibly an important mitogen for adult type II cells in vivo.

Production of acidic and basic fibroblast growth factor by the hormone-independent breast cancer cell line MDA-MB-231.

Normal, as well as the majority of malignant, mammary epithelial cells will proliferate upon stimulation by FGFs. However estrogen-independent MDA-MB-231 cells (which are able to grow in vitro in serum-free medium) are not significantly stimulated by exogenous FGFs even though they possess high and low affinity receptors for these growth factors. Biological assays, measuring CCL39 fibroblast proliferation or PC12 pheochromocytoma cell neurite outgrowth, demonstrated the presence of FGF activity in MDA-MB-231 cell extracts and also in the culture medium conditioned by these cells. This biological activity decreased in the presence of neutralizing anti-FGF antibodies. Using immunohistochemical methods FGF1 and FGF2 immunoreactivity was detected in MDA-MB-231 cells. After purification by heparin-Sepharose chromatography and Western blot analysis, M(r) 18000 molecules showed the same physicochemical characteristics as FGFI and FGF2. These results demonstrate the production and release of FGF related molecules by MDA-MB-231 cells and suggest an autocrine stimulation of these cells.

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).