Expression in Escherichia coli of a recombinant fragment (Ile 914-Leu 1364) of human von Willebrand factor containing a collagen binding domain.

Previous studies have shown that a collagen binding domain of human von Willebrand factor (vWF) resides on a fragment named SpI obtained by digestion with Staphylococcus aureus V8 protease which corresponds to residues Gly 911-Glu 1365 of the mature plasma vWF subunit. We have subcloned a fragment of a full-length cDNA encoding vWF into an expression vector which uses an inducible lambda PL promoter. The predicted product expressed by this plasmid is a fusion protein consisting of 16 amino acids (aa) of the lambda cII protein and aa Ile 914-Leu 1364 of human vWF. This fusion protein was shown to be expressed as insoluble inclusion bodies by induced E. coli harbouring the recombinant vector and was partially purified from bacterial debris and renatured. Partially purified bacterial extract run on SDS-polyacrylamide gels contained a major band representing 50-70% of the visualized proteins and corresponded to the predicted fusion protein. This band reacted with both polyclonal antibodies against human vWF and monoclonal antibodies (MAbs) which recognize the SpI fragment of plasma vWF. The radiolabelled partially purified bacterial extract was shown to bind specifically to human fibrillar collagen types I and III. This binding, which was a function of radiolabelled ligand and collagen concentrations, did not occur on monomeric denatured collagen. It was inhibited by both unlabelled bacterial extract and plasma vWF and also by a MAb against vWF SpI, which has the property of inhibiting vWF/collagen interaction. Our data demonstrate that this recombinant vWF SpI fragment, which can be obtained in large amounts, is a useful model for localizing the epitopes of monoclonal antibodies and then for studying the mechanism of vWF/collagen interaction.

Increased biological activity of a recombinant factor IX variant carrying alanine at position +1.

In attempts to improve the post-translational modification and processing of recombinant factor IX (FIX) we have altered the cDNA sequence encoding pre-pro-FIX using site-directed mutagenesis and have expressed the variant cDNAs in BHK21 cells using a vaccinia-virus-derived vector. We find that substitution of the tyrosine residue at +1 for an alanine increases the biological activity of the recombinant molecules 2-fold. On the other hand, substitution of the proline at -3 for a valine results in no significant change to the specific activity of the protein. Other alterations to the N-terminus of the FIX proteins, in attempts to mimic other vitamin-K-dependent proteins, result in the failure to produce a secreted polypeptide. N-terminal sequence analysis of purified recombinant molecules reveals a correlation between specific activity and the efficiency of correct pro-sequence cleavage. gamma-Carboxylation analysis of purified recombinant proteins indicates that each molecule including unmutated FIX is completely gamma-carboxylated in this system. Thus the observed increase in biological activity of FIX variants containing an alanine at position +1 is not due to increased gamma-carboxylation but, at least in part, to more efficient pro-peptide cleavage.

A new recombinant procoagulant protein derived from the cDNA encoding human factor VIII.

We have constructed new B domain deletion derivatives of human factor VIII (FVIII) by manipulating the cDNA using recombinant DNA techniques. One of these new derivatives, FVIII delta II, in which amino acids 771(pro)-1666(asp) have been deleted, no longer contains the protease cleavage site at amino acid position 1648(arg)-1649(glu) known to be involved in the initial step of FVIII processing. We have expressed this molecule in both baby hamster kidney (BHK) 21 cells using the vaccinia virus (VV) expression system and have established Chinese hamster ovary (CHO) derived permanent cell lines expressing either recombinant (r)FVIII or FVIII delta II. The characteristics of FVIII delta II have been compared to those of rFVIII and/or plasma derived (pd) FVIII. FVIII delta II has the following properties: (i) it exhibits FVIII procoagulant activity; (ii) it is expressed at 5-fold higher levels than is the complete molecule in comparable systems; (iii) it migrates for the most part as a single major band on SDS-PAGE, in contrast to the complete molecule; (iv) it is activated to a greater extent by thrombin than is either rFVIII or pdFVIII; and (v) it retains the ability to bind von Willebrand factor (vWf).

Two independent domains of factor VIII co-expressed using recombinant vaccinia viruses have procoagulant activity.

Using recombinant DNA technology, the NH2 and COOH terminal domains of the human Factor VIII molecule were co-expressed in baby hamster kidney 21 (BHK21) cells using the vaccinia virus system. Procoagulant activity was detectable in cell supernatants, thus suggesting that the central portion present in the FVIII protein (domain B) is not required for FVIII function.