Mapping of heparin-binding structures on bovine herpesvirus 1 and pseudorabies virus gIII glycoproteins.

The gIII glycoproteins of both bovine herpesvirus 1 (BHV 1) and pseudorabies virus (PrV) mediate the initial and dominant interactions between virus and permissive host cells. By studying virus binding to wild-type and heparin-deficient CHO cells, we demonstrated that the cellular heparin-like moieties play an essential role in BHV 1 and PrV gIII-mediated virus attachment. Subsequent studies were carried out to map the gIII structures that are responsible for heparin binding. First, based on the observation that BHV 1 and PrV are differentially sensitive to heparin inhibition of gIII-mediated attachment to cells, we conducted a gIII domain shuffling experiment. This involved the construction of a set of recombinant BHV 1 expressing BHV 1 and PrV gIII chimeras and then using the sensitivity to heparin inhibition as a means of mapping the potential heparin-binding regions on the gIII molecules. Next, we synthesized panels of partially overlapping BHV 1 and PrV gIII peptides and examined their reactivity to heparin. The results from these experiments demonstrated five heparin-binding sites between amino acid 129 and 310 of BHV 1 gIII and four heparin-binding sites between amino acid 90 and 275 of PrV gIII.