Immunoreactivity and conformation of the immunodominant domain of HTLV-I envelope surface glycoprotein

Abstract

The envelope of the human retrovirus HTLV-I (human T-cell leukemia virus type I), like those of other retroviruses, plays an important role in viral infection. One of the major immunodominant domains of HTLV-I surface glycoprotein (gp46), inducing antibody reactions in over 90% of infected individuals, is bounded by amino acids 175 and 199. As compared to HTLV-I prototype strain MT-2, few amino acid substitutions have been described in this region; the most frequently observed is the replacement of a proline by a serine at position 192. In order to investigate the antigenic impact of this variation, we analysed the reactivity of synthetic peptides, harbouring either a proline or a serine residue, towards antibody containing HTLV-I positive sera in enzyme linked immunosorbent assays. The possible influence of this amino acid substitution on the conformational behaviour has been examined by studying the solution structure of two model peptides (corresponding to the 175–199 region) using two-dimensional1H NMR spectroscopy. The results of this work should allow us to find out whether this amino acid substitution has to be taken into account for the design of a future peptide-based vaccine against HTLV-I infection.