Cytotoxic T lymphocytes (CTL) form an important immune surveillance system against intracellular pathogens. Here we describe a simple, visual assay for identifying peptides specifically recognized by CTL, based on the discovery that CTL develop increased adhesive properties upon TCR triggering. Several CTL lines were shown to pellet to the bottom of a round bottom 96-well plate in the absence of peptide. In contrast, these same CTL lines incubated with their cognate peptide, allowing them to present peptide to each other, adhered to the sides of the well and were readily distinguished by macroscopic visual examination of the plate after 4-5 h or overnight incubation. This CTL adherence assay (CAA) demonstrated peptide specificity and MHC restriction, and was titratable with peptide concentration. With this technique, a minimal-sized, malaria CTL epitope was correctly identified from a panel of overlapping nonamers, although the adherence pattern of two mono-substituted, variant peptides was less predictive of lytic activity. Also, substitutions in an HIV-1 envelope CTL epitope that reduced lytic activity were correctly predicted. Inhibitors of RNA and protein synthesis, upon preincubation, abrogated the adherence, indicating, at minimum, a need for live cells. Wortmannin, a PI-3 kinase inhibitor, inhibited the peptide specific adherence, consistent with a role for TCR or integrin signal transduction in CAA. Other cytoskeletal and metabolic inhibitors had no effect. Adherence of the T cells may involve low affinity, nonspecific interactions since wells coated with FCS, BSA or milk powder all produced an effective CAA in the presence of peptide under serum free conditions. Consequently, CAA may represent a rapid, simple method for screening large numbers of peptides to find cytolytic epitopes for a given CTL line and may identify additional epitopes causing T cell activation and adherence but not cytolytic activity.