Solution conformation of an immunogenic peptide derived from the principal neutralizing determinant of the HIV-2 envelope glycoprotein gp125.

Background: The conformational preferences of a number of peptides with sequences related to the envelope glycoproteins of HIV-1 have been investigated in the past few years. Similar studies have not been made for HIV-2, which is a distinct virus with similar physiological effects to those of HIV-1. The discovery of common structural features would be a promising route to the design of immunogens for generally effective HIV vaccines. We present the results of an NMR conformational study of a sequence deriving from the V3 loop of HIV-2.

Results: Three synthetic immunogenic peptides were studied, of 12, 22 and 39 amino acids in length, all containing a central Met-Ser-Gly-Arg sequence conserved among a number of HIV-2 isolates. In addition, the 39-mer contained a disulfide bond between cysteine residues close to the ends of the molecule, forming a loop that is thought to comprise an important structural and immunological component of the intact glycoprotein. All three peptides display well defined beta-turns in the Met-Ser-Gly-Arg sequence, independent of the integrity of the disulfide bond. No other conformational preferences for folded conformations were found for the peptides.

Conclusions: The presence of a beta-turn in the Met-Ser-Gly-Arg sequence is strikingly similar to the behavior seen for the corresponding principal neutralizing determinant sequence from gp120 of HIV-1 and argues, in the absence of information of the three-dimensional structure of the intact proteins, for a similarity in the structure of this region that could be exploited in the design of synthetic peptide vaccines generally effective against HIV infections.