Use of flanking sequences to study secondary structure-activity correlations of a Mycobacterium leprae T cell epitope.

The 65-kDa protein of the intracellular pathogen M. leprae is prominent in the immune response to this mycobacterium, and individual T cell epitopes from this protein sequence have been defined. We have tested the stimulatory activity of extended analogs of the minimal peptide representing one such epitope, LQAAPALDKL, with a variety of tetrapeptide extensions added to enhance or destabilize alpha helix formation. The conformational potential of the peptides was measured by circular dichroism using aqueous trifluoroethanol as a secondary structure inducer. Although analogs with high helical potential activated T cells at low concentrations, a less helical variant was similarly potent. Activity also did not correlate with predicted overall alpha helical amphipathicity. One analog was found which stimulated T cell proliferation in the 50 pM range. The effect of tetrapeptide extensions on epitope activity is not consistent with the importance in activity of only a single stable secondary structure such as an alpha helix.

Molecular mapping of interactions between a Mycobacterium leprae-specific T cell epitope, the restricting HLA-DR2 molecule, and two specific T cell receptors.

A systematic series of 89 single residue substitution analogs of the Mycobacterium leprae 65-kDa protein-derived peptide LQAAPALDKL were tested for stimulation of two HLA-DR2 restricted 65 kDa-reactive T cell clones from a tuberculoid leprosy patient. Some analogs with substitutions outside a "core" region showed enhanced stimulation of the T cell clones. This core region of seven or eight residues was essential for recognition, whereas substitution of amino acids outside this region did not affect T cell recognition although these residues could not be omitted. Thus these core residues interact directly with the presenting HLA-DR2 molecule and/or the TCR. Except for analogs of position 419 for clone 2B6, the majority of the nonstimulatory substitution analogs did not inhibit the presentation of LQAAPALDKL and thus probably failed to bind to the HLA-DR2 molecule. Unless all of the core residues are physically involved in binding to DR2, substitution at a position not directly involved in binding appears to have an influence on other residues that do bind to the DR2 molecule. Active peptide analogs with two or more internal prolines suggest that not all analogs need be helical for activity with clone 2F10.

A Mycobacterium leprae-specific human T cell epitope cross-reactive with an HLA-DR2 peptide.

Mycobacterium leprae induces T cell reactivity and protective immunity in the majority of exposed individuals, but the minority that develop leprosy exhibit various types of immunopathology. Thus, the definition of epitopes on M. leprae antigens that are recognized by T cells from different individuals might result in the development of an effective vaccine against leprosy. A sequence from the 65-kD protein of this organism was recognized by two HLA-DR2-restricted, M. leprae-specific helper T cell clones that were derived from a tuberculoid leprosy patient. Synthetic peptides were used to define this epitope as Leu-Gln-Ala-Ala-Pro-Ala-Leu-Asp-Lys-Leu. A similar peptide that was derived from the third hypervariable region of the HLA-DR2 chain, Glu-Gln-Ala-Arg-Ala-Ala-Val-Asp-Thr-Tyr, also activated the same clones. The unexpected cross-reactivity of this M. leprae-specific DR2-restricted T cell epitope with a DR2 peptide may have to be considered in the design of subunit vaccines against leprosy.

Exact definition of species-specific and cross-reactive epitopes of the 65-kilodalton protein of Mycobacterium leprae using synthetic peptides.

With the use of solid phase synthesis of peptides corresponding to major and minor peaks in a Hopp-Woods hydrophilicity plot, the epitopes for 10 of 14 known different mAb to the Mycobacterium leprae 65-kDa protein, a prominent T and B cell Ag of this bacillus, have been located in the primary structure. Five epitopes have been precisely mapped by using the synthetic peptides in inhibition ELISA experiments, and five others have been located on peptides of 22 amino acids or less in length. The epitope of an important species-specific antibody, IIIE9, which may be useful for seriodiagnosis of leprosy, appears to be distinguished from the epitope of the antibody IVD2, widely cross-reactive among mycobacteria, not by its sequence, but only by its critical residues. All epitopes studied appear continuous insofar as can be determined by this approach.