A protein secreted in vivo by Echinococcus granulosus inhibits elastase activity and neutrophil chemotaxis

Abstract

A cDNA encoding the carboxy-terminal of the 12-kDa subunit of antigen B of Echinococcus granulosus has been cloned and sequenced. In addition, an amino acid sequence has been generated for the amino-terminal which is tentatively contiguous with the open reading frame of the DNA-derived sequence. Comparison of the inferred sequence of the 12-kDa antigen with other known sequences indicated a limited similarity to alpha-1 antitrypsin. In functional assays, gel-purified native 12-kDa antigen from natural infections inhibited elastase but not trypsin or chymotrypsin, providing further evidence that this antigen is a parasite protease inhibitor. Possibly unrelated to its anti-protease activity but a potentially important function of the 12-kDa antigen was its ability to inhibit recruitment of neutrophils. These functions may be important to the viability of the parasite in the face of the host immune response. In addition, the match between the DNA-derived sequence and the protein sequence was imperfect, with some residues having, according to the amino acid sequencing, two alternatives in approximately equal concentrations, and four DNA-derived residues failing to match with the protein sequence at all. The 12-kDa antigen may be expressed as isoforms from a polymorphic gene and, as far as aware, this observed sequence polymorphism has not, to date, been described for any other flatworm antigen.