Iron superoxide dismutase from the archaeon Sulfolobus solfataricus: average hydrophobicity and amino acid weight are involved in the adaptation of proteins to extreme environments.

The iron-superoxide dismutase in the thermoacidophilic archaeon Sulfolobus solfataricus has a homodimeric structure with a metal content of 0.7 atom of iron per subunit. The enzyme is insensitive to cyanide inhibition, sensitive to inactivation by H2O2 and is the most heat resistant SOD known so far being its half-life 2 h at 100 degrees C. Its primary structure was determined by a profitable combination of advanced mass spectrometry and automated sequence analysis of peptides obtained after cleavage of the purified protein. The enzyme subunit is composed of 210 amino acid residues accounting for a relative molecular mass of 24,112. It does not contain cysteine residues and has a high average of both hydrophobicity and amino acid weight. Vice versa, the hydrophobicity is lower in halophilic SODs. Therefore, it seems that the average hydrophobicity is involved in the adaptation of proteins to extreme environments. The multiple alignment of the primary structure of archaeal and thermophilic eubacterial SODs indicated that archaeal SODs evolved separately from the thermophilic eubacterial SODs and that halophiles originated from a gene different from that of thermophilic archaea.

Structure of fuscopeptins, phytotoxic metabolites of Pseudomonas fuscovaginae.

The structure of the fuscopeptins, bioactive lipodepsipeptides produced in culture by the gramineae pathogen Pseudomonas fuscovaginae, has been determined. The combined use of FAB mass spectroscopy NMR spectroscopy and chemical and enzymatic procedures allowed one to define a peptide moiety corresponding to Z-Dhb-D-Pro-L-Leu-D-Ala-D-Ala-D-Ala-D-Ala-D-Val-Gly-D-Ala-D-Val-D-Ala-D- Val-Z-Dhb-Da-Thr-L-Ala-L-Dab-D-Dab-L-Phe with the terminal carboxyl group closing a macrocyclic ring on the hydroxyl group of the allothreonine residue. The N-terminus is in turn acylated by 3-hydroxyoctanoate in fuscopeptin A and 3-hydroxydecanoate in fuscopeptin B. Some preliminary data on the biological activity of fuscopeptins are also reported.

Primary structure of ovine alpha s1-caseins: localization of phosphorylation sites and characterization of genetic variants A, C and D.

The primary structures of ovine alpha s1-casein variants A, C and D (formerly called Welsh variant) were determined. Separation of variants from whole casein was achieved using a fast and reliable reversed-phase HPLC method. Extended structural characterization of the purified proteins using electrospray mass spectrometry, automated Edman degradation and peptide mapping by means of HPLC-fast atom bombardment-mass spectrometry demonstrated that the mature protein was a mixture of two molecular species that differed in the deletion of residues 141-148 and were therefore 199 and 191 residues long respectively. The 199 residue peptide chain, which accounted for approximately 80% of the entire translated alpha s1-casein, was as long as its caprine and bovine counterparts, and had a 98 and 89% degree of identity with those two proteins respectively. Nine serine residues (positions 12, 44, 46, 64 to 68 and 75) were fully phosphorylated in alpha s1-casein A, whereas Ser115 and Ser41 were phosphorylated by approximately 50 and approximately 20% respectively. The differences between the three genetic variants A, C and D were simple silent substitutions, which however involved the degree to which the protein was phosphorylated. Variant C differed from variant A in the substitution Ser13-->Pro13 which determined the loss of the phosphate group on site 12 of the protein chain, SerP12-->Ser12. A further substitution, SerP68-->Asn68 caused the disappearance of both phosphate groups in the phosphorylated residues Ser64 and Ser66 in variant D; in this last casein variant there was no evidence of phosphorylation at Ser41.

Amino acid sequence and disulphide-bridge pattern of three gamma-thionins from Sorghum bicolor.

The complete primary structure of a new alpha-amylase inhibitor from Sorghum bicolor belonging to the gamma-thionin family has been determined and the amino acid sequences of two components of the family already elucidated have been corrected by combining the classical Edman degradation with advanced mass spectrometric procedures. The same integrated approach allowed us to define the pattern of the disulphide bridges in the three isoinhibitors. The arrangement of the cysteine pairing was determined as Cys3-Cys47, Cys14-Cys34, Cys20-Cys41 and Cys24-Cys43. The amino acid sequences of the alpha-amylase inhibitors share a high degree of similarity with the related plant gamma-thionins. All these proteins consist of 47 residues, contain eight cysteine residues forming four disulphide bridges, and show the presence of two clusters of basic amino acids located at both ends of the polypeptide chain. The pattern of S-S bridges determined for the isoinhibitors is identical to that inferred by NMR analysis in two related gamma-thionins, thus suggesting a highly conserved organization of the disulphide pairing. These results indicate that the structural similarities among the different gamma-thionins extend far beyond the primary structure and possibly concern the secondary structure and the general folding of the entire gamma-thionin family.

An extremely thermostable aromatic aminotransferase from the hyperthermophilic archaeon Pyrococcus furiosus.

Pyrococcus furiosus is a strictly anaerobic archaeon (formerly archaebacterium) that grows optimally at 100 degrees C by the fermentation of peptides. Cell-free extracts were found to contain two distinct aromatic aminotransferases (ArAT, EC 2.6.1.57), one of which was purified to electrophoretic homogeneity. P. furiosus ArAT is a homodimer with a subunit M(r) value of 44,000 +/- 1000. Using 2-ketoglutarate as the amino acceptor, the purified enzyme catalyzed the pyridoxal 5'-phosphate (PMP)-dependent transamination of phenylalanine, tyrosine and tryptophan with respective kcat values of 253, 72 and 62 (s-1 at 80 degrees C) under saturating conditions. The Km values for all three amino acids were between 1.1 and 2.1 mM and the optimum temperature for catalysis was above 95 degrees C. The melting point for the pure enzyme was also above 95 degrees C as determined by the change in ellipticity at 220 nm. Irreversible denaturation of the pure enzyme was not apparent after 6 h at 80 degrees C in the presence of PMP and 2-ketoglutarate and the time required for a 50% loss in activity at 95 degrees C was approx. 16 h. This decreased to approx. 12 h if cofactor and substrate were not added. In contrast, the apoenzyme (lacking PMP) lost most (70%) of its activity (measured after reconstitution) after 6 h at 80 degrees C, indicating that both PMP and 2-ketoglutarate stabilize the enzyme at extreme temperatures. Although few ArATs have been characterized to date, the molecular properties and substrate specificity of P. furiosus ArAT more resemble those of the ArAT from Escherichia coli than those of the analogous enzyme from rat liver. Moreover, the P. furiosus enzyme is by far the most thermostable aminotransferase of any type to be purified so far.

Production and structural characterization of amino terminally histidine tagged human oncostatin M in E. coli.

Oncostatin M is a cytokine that acts as a growth regulator on a wide variety of cells and has diverse biological activities including acute phase protein induction, LDL receptor up-regulation and cell-specific gene expression. In order to gather information about the Onc M structure, we established a protocol for large scale production and single step purification of this functional cytokine from bacterial cells. The cDNA of human Onc M was cloned by RT-PCR from total RNA of PMA induced U937 cells. After the addition of a six histidine tag at the N-terminus, the coding region of mature Onc M was cloned in the pT7.7 expression vector. Histidine tagged Onc M was overexpressed in bacterial cells and purified to homogeneity in one step on a metal chelating column. We found that recombinant 6xHis-OncM remains fully active in a growth inhibition assay. Structural characterization of the purified protein was performed by electrospray mass spectrometry, automated Edman degradation and peptide mapping by high-pressure liquid chromatography/fast-atom-bombardment mass spectrometry. Thermal and pH stability dependence of Onc M was assessed by circular dichroism spectroscopy; the helical content is about 50%, in agreement with the four helix bundle fold postulated for cytokines that bind haematopoietic receptors of type I.

Characterization of aromatic aminotransferases from the hyperthermophilic archaeon Thermococcus litoralis.

The hyperthermophilic archaeon (formerly archaebacterium) Thermococcus litoralis grows at temperatures up to 98 degrees C using peptides and proteins as the sole sources of carbon and nitrogen. Cell-free extracts of the organism contained two distinct types of aromatic aminotransferases (EC 2.6.1.57) which were separated and purified to electrophoretic homogeneity. Both enzymes are homodimers with subunit masses of approximately 47 kDa and 45 kDa. Using 2-oxoglutarate as the amino acceptor, each catalyzed the pyridoxal-5'-phosphate-dependent transamination of the three aromatic amino acids but showed virtually no activity towards aspartic acid, alanine, valine or isoleucine. From the determination of Km and kcat values using 2-oxoglutarate, phenylalanine, tyrosine and tryptophan as substrates, both enzymes were shown to be highly efficient at transaminating phenylalanine (kcat/Km approximately 400 s-1 mM-1); the 47-kDa enzyme showed more activity towards tyrosine and tryptophan compared to the 45-kDa one. Kinetic analyses indicated a two-step mechanism with a pyridoxamine intermediate. Both enzymes were virtually inactive at 30 degrees C and exhibited maximal activity between 95-100 degrees C. They showed no N-terminal sequence similarity with each other (approximately 30 residues), nor with the complete amino acid sequences of aromatic aminotransferases from Escherichia coli and rat liver. The catalytic properties of the two enzymes are distinct from bacterial aminotransferases, which have broad substrate specificities, but are analogous to two aromatic aminotransferases which play a biosynthetic role in a methanogenic archaeon. In contrast, it is proposed that one or both play a catabolic role in proteolytic T. litoralis in which they generate glutamate and an arylpyruvate. These serve as substrates for glutamate dehydrogenase and indolepyruvate ferredoxin oxidoreductase in a novel pathway for the utilization of aromatic amino acids.

Sheep haemoglobin I or beta B13(A10)Gly-->Ser: an example of a CpG mutation in vertebrates. Characterization using FAB-mass spectrometry and amino acid sequencing.

1. The amino acid substitution which characterizes the haemoglobin I variant from sheep has been ascertained using a combination of Fast Atom Bombardment mass spectrometry and protein sequencing. 2. A Ser for Gly substitution at position 13 (10 of the A helix) was found in a polypeptide with the overall sequence of the beta B globin. 3. On the basis of the nucleotide sequence of the beta B-globin gene, a C to T transition occurring on a CpG doublet is considered to be responsible for the amino acid substitution. 4. This represents the first observation of a variant sheep Hb due to a mutation which is rather common in the human genome. 5. Amongst ruminants, serine is normally present at position 13 of goat and sheep epsilon II and gamma chains and of bovine gamma chain which had an independent and more ancient evolutionary origin than the beta chains.

Risk factors for mortality after failed coronary angioplasty: an anesthesia perspective.

Monitored anesthesia care (MAC) for percutaneous transluminal coronary angioplasty (PTCA), and anesthesia for emergent coronary artery bypass graft (CABG) surgery due to failed PTCA, have added relatively new challenges to the cardiac anesthesiologist in community practice. This study attempted to define easily identifiable preangioplasty and periangioplasty risk factors for mortality after failed PTCA. A total of 1,380 angioplasties performed in a single community hospital were retrospectively reviewed; 120 (8.7%) were attempted PTCAs requiring subsequent CABG during the same hospital stay. The 120 failures included 10 surgical mortalities (8.3%); multivariate analysis revealed several significant differences between the mortality and survivor groups. Mortality tended to be higher in insulin-dependent diabetics (P = 0.003), females (P = 0.005), and patients 70 years or over (P = 0.043). Previous CABG, decreased left ventricular ejection fraction, and number of vessels with significant disease did not differ between the groups. Patients who died required more vasopressor agents (P = 0.011) during PTCA and experienced cardiac arrests (P = 0.011) at significantly higher rates than survivors. Left system (left anterior descending or circumflex coronary artery) angioplasty, inability to pass the angioplasty guidewire, and antiarrhythmic drug use did not differ between groups. Data concerning endotracheal intubation in the catheterization laboratory and time from laboratory exit to initiation of cardiopulmonary bypass, while bivariately significant, were too sparse for multivariate analysis. The authors believe that several risk factors for postangioplasty surgical mortality are easily determined without access to diagnostic angiographic studies.(ABSTRACT TRUNCATED AT 250 WORDS)

Stability and activity of a phenol oxidase from the ligninolytic fungus Pleurotus ostreatus.

Three different phenol oxidases produced by the basidiomycete fungus Pleurotus ostreatus have been isolated and their main structural, enzymatic and physico-chemical properties characterized. Studies have focused on the most abundantly secreted of these proteins, a copper-enzyme specific towards ortho-diphenol substrates. This protein was purified to homogeneity and part of its primary structure determined by direct protein sequencing. The influence of pH, temperature and presence of water-soluble or water-insoluble organic solvents on the activity and stability of the enzyme were also investigated. These data can be used for applying bioreactors to problems of environmental concern such as waste-water treatment.

In vivo expression of mutant preproendothelins: hierarchy of processing events but no strict requirement of Trp-Val at the processing site.

Endothelin-1 (ET-1), a 21-residue vasoconstrictor peptide, originates in human cells from a 212-amino acid precursor (preproET-1). Big ET-1, an intermediate form of 38 amino acids, is generated by cleavage at basic-pair residues of proET-1, while a specific "ET-converting enzyme" was proposed to process the unusual Trp-Val site at positions 21 and 22 of big ET-1. We have previously shown that expression of synthetic RNA encoding human preproET-1 in Xenopus oocytes results in secretion of putative ET-1 and big ET-1. Here, to further dissect the processing pathway of preproET-1, we designed and expressed in oocytes a set of preproET-1 mutants. Four mutants affecting the Trp-Val site always originated putative ET-1(s) at levels comparable to the wild type, suggesting that there is only a conformational requirement for cleavage at this site. An Arg-->Ile mutation at the basic-pair site after the C terminus of big ET-1 fully inhibited the formation of both big ET-1 and ET-1, indicating that processing at this site is an early event and that big ET-1 is an obligate intermediate for the synthesis of ET-1 in vivo. Also, a truncated mutant bearing a stop codon after the C terminus of the big ET-1 sequence was totally stable and further processed into mature big ET-1 and ET-1, indicating that the second part of the precursor is not necessary for maturation.

Disulfide isoform intermediates in the reoxidation of recombinant human basic fibroblast growth factor.

The reoxidation of human recombinant basic fibroblast growth factor was investigated following treatment of the protein with a mixture of reduced and oxidized glutathione, both in the absence and in the presence of protein disulfide isomerase. The oxidative process took place throughout the formation of two transient intermediates and yielded a stable bFGF derivative, GS2-bFGF. All of these components were separated by HPLC and accurately characterized at the molecular level by advanced mass spectrometric procedures. When the reoxidation was carried out in the presence of PDI, a 4-fold increase in the reaction rate was estimated. A mixed disulfide with a single glutathione molecule was shown to occur in the two transient intermediates, each of which has different cysteine residues involved in the linkage. The final product GS2-bFGF was structurally different from other bFGF derivatives previously described [Thompson, S. A. (1992) J. Biol. Chem. 267, 2269-2273; Caccia et al. (1992) Eur. J. Biochem. 204, 649-655]. The four cysteine residues are all involved in disulfide bridges; Cys 34 and Cys 78 are linked to exogenous glutathione, whereas Cys 91 and Cys 101 form an intramolecular S-S bridge.

Novel hirudin variants from the leech Hirudinaria manillensis. Amino acid sequence, cDNA cloning and genomic organization.

Novel hirudin variants isolated from the leech Hirudinaria manillensis, a leech more specialized for mammalian parasitism, are described. Isolation of antithrombin polypeptides was performed by ion-exchange chromatographies followed by an affinity chromatography step on immobilized thrombin. The major active component, antithrombin polypeptide peak 2 (HM2) and a second polypeptide, named HM1, were purified to homogeneity and their complete amino acid sequences were determined. The protein structure of the two hirudin variants include 64 amino acids with 6 cysteine residues at highly conserved positions. Comparison of the amino acid sequences of HM1 and HM2 with other known hirudins shows differences mainly in the central part and in the C-terminal region of the polypeptides. Particularly significant is the lack of a sulfated tyrosine residue in the C-terminal portion of the molecule which is replaced by aspartic acid. Polymerase chain reaction cloning techniques were used to isolate and characterize the cDNAs and determine the genomic structures of these hirudin-like polypeptides. The cDNA clones coding for the two variants indicate the expression of pre-hirudins of 84 amino acids where the first 20 residues constitute the signal peptide required for extracellular secretion. The leader sequence appears to be highly conserved for both isoforms and shares a complete similarity with the partial hirudin variant 2 (HV2) signal peptide sequence previously reported. The HM1 and HM2 gene fragments show the presence of four exons: the first one corresponding to a 20-amino-acid signal peptide while the other three exons share the full primary structure of the antithrombin polypeptides. HM2 was also efficiently produced in recombinant Escherichia coli by expressing a periplasmic construction containing the synthetic gene.

Expression of a hyperthermophilic aspartate aminotransferase in Escherichia coli.

The gene for an archaebacterial hyperthermophilic enzyme, aspartate aminotransferase from Sulfolobus solfataricus (AspATSs), was expressed in Escherichia coli and the enzyme purified to homogeneity. A suitable expression vector and host strain were selected and culture conditions were optimized so that 6-7 mg of pure enzyme per litre of culture were obtained repeatedly. The recombinant enzyme and the authentic AspATSs are indistinguishable: in fact, they have the same molecular weight, estimated by means of SDS-PAGE and gel filtration, the same Km values for 2-oxo-glutarate and cysteine sulphinate and the same UV-visible spectra. Moreover, recombinant AspATSs is thermophilic and thermostable just as the enzyme extracted from Sulfolobus solfataricus. The protocol described may be used to produce thermostable arachaebacterial enzymes in mesophilic hosts.

Bean homologs of the mammalian glucose-regulated proteins: induction by tunicamycin and interaction with newly synthesized seed storage proteins in the endoplasmic reticulum.

Treatment of developing bean cotyledons with the inhibitor of N-glycosylation tunicamycin enhanced the synthesis of at least two polypeptides with molecular mass 78 kDa and 97 kDa. Pulse-chase experiments and subcellular fractionation indicated that these are endoplasmic reticulum (ER) residents. The 78 kDa protein is a major component of the ER protein fraction and, by N-terminal sequencing, was identified as a bean homolog of the mammalian 78 kDa glucose-regulated protein (GRP78). This is a molecular chaperone that is probably involved in the folding and oligomerization of several animal and yeast proteins in the ER. When newly synthesized storage glycoproteins phaseolin, phytohemagglutinin or alpha-amylase inhibitor were immunoprecipitated from an ER preparation of tunicamycin-treated tissue, the GRP78 homolog was always co-precipitated. Bound GRP78 homolog could be released by ATP treatment. These results suggest that, at least when glycosylation is inhibited, this protein plays a role in the early stages of the synthesis of vacuolar storage proteins.

Stabilization of recombinant human basic fibroblast growth factor by chemical modifications of cysteine residues.

The production of recombinant human basic fibroblast growth factor (rhbFGF) in Escherichia coli cells yielded active forms of this polypeptide which, however, displayed a high degree of instability towards oxidative processes. Biochemical studies in our laboratory and those of others indicated that the reactivity of the four cysteine residues was the main cause of the observed instability. Several attempts to obtain more stable derivatives of rhbFGF were carried out by modification of the sulfhydryl groups. Among these, treatment of rhbFGF with iodoacetic acid led to the isolation of a partially carboxymethylated form (Cm-FGF). Peptide mapping analysis of the modified protein showed that two cysteines (78 and 96) were blocked by a carboxymethyl group. The remaining cysteines (34 and 101) were not modified under the conditions used and were found to be in the reduced form. Cm-FGF and unmodified rhbFGF showed similar affinity both for heparin and for high-affinity receptors. Cm-FGF was more stable than the unmodified molecule as measured by HPLC and SDS/PAGE analysis. Interestingly, Cm-FGF was more active than unmodified rhbFGF in stimulating proliferation of endothelial cells and DNA synthesis in 3T3 fibroblasts. This new derivative could represent a desirable complementation to rhbFGF for the development of more stable pharmaceutical formulations in wound healing applications.

Limited proteolysis as a probe of conformational changes in aspartate aminotransferase from Sulfolobus solfataricus.

The analysis of conformational transitions using limited proteolysis was carried out on a hyperthermophilic aspartate aminotransferase isolated from the archaebacterium Sulfolobus solfataricus, in comparison with pig cytosolic aspartate aminotransferase, a thoroughly studied mesophilic aminotransferase which shares about 15% similarity with the archaebacterial protein. Aspartate aminotransferase from S. solfataricus is cleaved at residue 28 by thermolysin and residues 32 and 33 by trypsin; analogously, pig heart cytosolic aspartate aminotransferase is cleaved at residues 19 and 25 [Iriarte, A., Hubert, E., Kraft, K. & Martinez-Carrion, M. (1984) J. Biol. Chem. 259, 723-728] by trypsin. In the case of aspartate aminotransferase from S. solfataricus, proteolytic cleavages also result in transaminase inactivation thus indicating that both enzymes, although evolutionarily distinct, possess a region involved in catalysis and well exposed to proteases which is similarly positioned in their primary structure. It has been reported that the binding of substrates induces a conformational transition in aspartate aminotransferases and protects the enzymes against proteolysis [Gehring, H. (1985) in Transaminases (Christen, P. & Metzler, D. E., eds) pp. 323-326, John Wiley & Sons, New York]. Aspartate aminotransferase from S. solfataricus is protected against proteolysis by substrates, but only at high temperatures (greater than 60 degrees C). To explain this behaviour, the kinetics of inactivation caused by thermolysin were measured in the temperature range 25-75 degrees C. The Arrhenius plot of the proteolytic kinetic constants measured in the absence of substrates is not rectilinear, while the same plot of the constants measured in the presence of substrates is a straight line. Limited proteolysis experiments suggest that aspartate aminotransferase from S. solfataricus undergoes a conformational transition induced by the binding of substrates. Another conformational transition which depends on temperature and occurs in the absence of substrates could explain the non-linear Arrhenius plot of the proteolytic kinetic constants. The latter conformational transition might also be related to the functioning of the archaebacterial aminotransferase since the Arrhenius plot of kcat is non-linear as well.

The active site of Sulfolobus solfataricus aspartate aminotransferase.

Aspartate aminotransferase from the archaebacterium Sulfolobus solfataricus binds pyridoxal 5' phosphate, via an aldimine bond, with Lys-241. This residue has been identified by reducing the enzyme in the pyridoxal form with sodium cyanoboro[3H]hydride and sequencing the specifically labeled peptic peptides. The amino acid sequence centered around the coenzyme binding site is highly conserved between thermophilic aspartate aminotransferases and differs from that found in mesophilic isoenzymes. An alignment of aspartate aminotransferase from Sulfolobus solfataricus with mesophilic isoenzymes, attempted in spite of the low degree of similarity, was confirmed by the correspondence between pyridoxal 5' phosphate binding residues. Using this alignment it was possible to insert the archaebacterial aspartate aminotransferase into a subclass, subclass I, of pyridoxal 5' phosphate binding enzymes comprising mesophilic aspartate aminotransferases, tyrosine aminotransferases and histidinol phosphate aminotransferases. These enzymes share 12 invariant amino acids most of which interact with the coenzyme or with the substrates. Some enzymes of subclass I and in particular aspartate aminotransferase from Sulfolobus solfataricus, lack a positively charged residue, corresponding to Arg-292, which in pig cytosolic aspartate aminotransferase interacts with the distal carboxylate of the substrates (and determines the specificity towards dicarboxylic acids). It was confirmed that aspartate aminotransferase from Sulfolobus solfataricus does not possess any arginine residue exposed to chemical modifications responsible for the binding of omega-carboxylate of the substrates. Furthermore, it has been found that aspartate aminotransferase from Sulfolobus solfataricus is fairly active when alanine is used as substrate and that this activity is not affected by the presence of formate. The KM value of the thermophilic aspartate aminotransferase towards alanine is at least one order of magnitude lower than that of the mesophilic analogue enzymes.

Production of homogeneous basic fibroblast growth factor by specific enzymatic hydrolysis of larger microheterogeneous molecular forms.

The 146-amino acid form of basic fibroblast growth factor (bFGF) was expressed in Escherichia coli and purified by a two step process including ion exchange and heparin-Sepharose chromatographies. However, the resulting protein consisted of a mixture of 146- and 145-amino acid forms, indicating that, besides the initial methionine, also the following residue (proline) was removed from the N-terminus. The same phenomenon was observed when the 155-amino acid form, which is biologically equivalent to the shorter one, was expressed in E. coli. Taking into account the previously known data concerning the possible mechanism of cleavage of the extended forms of bFGF in vivo, we developed an efficient enzymatic process that allows the production of an homogeneous 146-amino acid form from recombinant NH2-end extended forms. This process takes advantage of the protecting effect that heparin exerts on bFGF. Accordingly, when bFGF, complexed to heparin, is treated with pepsin A, an aspartic protease with a broad specificity, only the Leu9-Pro10 peptide bond is cleaved generating the 146-amino acid form. Quantitative yields of this reaction are also achieved when bFGF is bound to a heparin-Sepharose column, allowing the integration of this enzymatic step directly during purification of the recombinant extended forms of bFGF.