The use of heparin for extracorporeal therapies has been problematical due to haemorrhagic complications; as a consequence, heparinase I from Flavobacterium heparinum is used for the determination of plasma heparin and for elimination of heparin from circulation. Here we report the expression of recombinant heparinase I in Escherichia coli, purification to homogeneity and characterization of the purified enzyme. Heparinase I was expressed with an N-terminal histidine tag. The enzyme was insoluble and inactive, but could be refolded, and was purified to homogeneity by nickel-chelate chromatography. The cumulative yield was 43%, and the recovery of purified heparinase I was 14.4 mg/l of culture. The N-terminal sequence and the molecular mass as analysed by matrix-assisted laser desorption MS were consistent with predictions from the heparinase I gene structure. The reverse-phase HPLC profile of the tryptic digest, the Michaelis-Menten constant Km (47 micrograms/ml) and the specific activity (117 units/mg) of purified recombinant heparinase I were similar to those of the native enzyme. Degradation of heparin by heparinase I results in a characteristic product distribution, which is different from those obtained by degradation with heparinase II or III from F. heparinum. We developed a rapid anion-exchange HPLC method to separate the products of enzymic heparin degradation, using POROS perfusion chromatography media. Separation of characteristic di-, tetra- and hexa-saccharide products is performed in 10 min. These methods for the expression, purification and analysis of recombinant heparinase I may facilitate further development of heparinase I-based medical therapies as well as further investigation of the structures of heparin and heparan sulphate and their role in the extracellular matrix.

Heparinases, enzymes that cleave heparin and heparin sulfate, are implicated in physiological and pathological functions ranging from wound healing to tumor metastasis and are useful in deheparinization therapies. We report the cloning of the heparinase I (EC 4.2.2.7) gene from Flavobacterium heparinum using PCR. Two degenerate oligonucleotides, based on the amino acid sequences derived from tryptic peptides of purified heparinase, were used to generate a 600-bp probe by PCR amplification using Flavobacterium genomic DNA as the template. This probe was used to screen a Flavobacterium genomic DNA library in pUC18. The open reading frame of heparinase I is 1152 bp in length, encoding a precursor protein of 43.8 kDa. Eleven of the tryptic peptides (approximately 35% of the total amino acids) mapped onto the open reading frame. The amino acid sequence reveals a consensus heparin binding domain and a 21-residue leader peptide with a characteristic Ala-(Xaa)-Ala cleavage site. Recombinant heparinase was expressed in Escherichia coli as a soluble protein, using the T7 polymerase pET expression system. The recombinant heparinase cleavage of heparin was identical to that of native heparinase.