An endogenously synthesized decamer peptide efficiently primes cytotoxic T cells specific for the HIV-1 envelope glycoprotein.

The immunodominant H-2Dd-restricted cytotoxic T lymphocyte (CTL) response to the HIV-1 gp160 envelope glycoprotein maps to a single determinant in the V3 loop, designated p18. Using a series of peptides synthesized on pins we have determined that the minimal core sequence of this determinant required for CTL recognition comprises 8 amino acids (residues 320-327). However, 9mer and 10mer peptides containing this core sequence were more effective than the 8mer peptide at sensitizing Dd-expressing target cells. To analyze the antigenicity of endogenously synthesized p18, minigenes encoding a 10-amino acid determinant (residues 318-327) and a 67-amino acid peptide (residues 281-348; containing the V3 loop) were expressed using vaccinia virus (Vac) recombinants. Both peptides were as effective as wild-type gp160 in their ability to sensitize target cells for lysis by gp160-specific CTL. Immunization of BALB/c mice with Vac recombinants encoding both gp160 peptides elicited gp160-specific CTL. These data demonstrate that both the V3 loop itself and a 10-residue epitope are sufficient to prime CTL in vivo and strongly support the potential use of minigene-encoded CTL epitopes for recombinant vaccines designed to induce protective T cell-mediated immunity against HIV-1.