Synthesized T-cell epitopes of tetanus toxin are universally immunogenic and serve to enhance immune response when they are used as vaccine carriers of B-cell epitopes. The immunogenicity of the P2, P30, and P2P30 T-cell epitopes of tetanus toxin and whole tetanus toxoid (TT) was evaluated by in vitro proliferation assay of lymphocytes from men with no history of tetanus vaccination who were enrolled in a malaria prophylaxis trial. The enhancement of immune response by tetanus vaccination (Td) and possible antagonism by the antimalarial drugs, was measured by pre- and post-Td comparisons within and between immunized prophylaxis groups (primaquine, chloroquine, placebo) and a nonimmunized control group. Constructs demonstrated low immunogenicity relative to TT in all groups. Relative to both control and its own baseline, the immunized primaquine prophylaxis group was distinct in demonstrating significantly increased proliferation against all three subunits and at both high (30 microg ml(-1)) and low (3 microg ml(-1)) concentrations. Immunization elicited significantly increased proliferation responses by placebo and chloroquine prophylaxis groups against only the P2P30 construct. Despite these significant post-Td changes, a low concentration of TT 0.1 microg ml(-1)) stimulated proliferation 7-10 times over that induced by the greatest concentration of the constructs.