A majority of immunodominant epitopes of mycobacterial antigens are known to be recognized by murine T cells in the context of several H-2 haplotypes. In this study, we established the frequency of T cells able to recognize these peptides promiscuously, i.e. in the context of allogeneic antigen-presenting cells, using hybridomas from peptide-immunized H-2 homologous and heterologous mice. The degree of promiscuity in homozygous mice varied between 4-27% between different specificities and genetic backgrounds. In particular, the results showed that promiscuity between Ab and Ad in respect to a peptide from the Mycobacterium tuberculosis 38-kDa protein (residues 350-369) was displayed by 22% of BALB/c and 4% of C57BL/10-derived hybrids, but by 42% of [BALB/c x C57BL/10] F1-derived clones. This represents a significant increase (p < 0.001) of T cell promiscuity compared to the parental haplotypes. It is noteworthy that considerably lower peptide concentrations were able to stimulate the promiscuous hybridomas compared to the H-2-restricted hybrids. This finding suggests a functional advantage of promiscuous T cells which enables them to expand preferentially in the initial stages of infections with M. tuberculosis and thus enables the host to mount a rapid protective immune response.