Abstract
Low-molecular-weight heparin (LMWH) is prepared from the controlled chemical or enzymatic depolymerization of animal sourced heparins. It has been widely used as an anticoagulant. Concerns about the shortcomings of animal-derived heparin and the contamination of supply chain demand biochemical approaches for synthesizing LMWH. In the present study, two LMWHs were enzymatically synthesized from low molecular weight N-sulfated heparosan (LMW-NSH) cleaved by recombinant hydrolase, endo-β-glucuronidase, (HepBp) or heparin lyase III (HepIII), followed by subsequent sulfotransferase modifications. Structural characterization shows that LMWH chains prepared using HepBp had a saturated uronic acid residue at their reducing ends, while chains of LMWH prepared using HepIII had an unsaturated uronic acid residue at their non-reducing end. Both LMWHs had anti-factor Xa and anti-factor IIa activities comparable to enoxaparin. This approach demonstrates that the hydrolase, HepBp, can be used to prepare a new type of LMWH that has no unsaturated uronic acid at its non-reducing end.