Lymphocytic infiltrate is often present in cervical cancer lesions, possibly reflecting an ongoing, but ineffective, immune response to the tumour. Recently, evidence has accumulated for systemically impaired T-cell functions in cancer patients, associated with decreased expression of signal-transducing zeta (zeta) chain dimer molecules on circulating T-cells and NK-cells. Here, we report on the intralesional down-regulation of zeta chain expression on T-cells in cervical carcinoma. Paraffin-embedded or snap-frozen sections from 24 different cervical cancer specimens were studied. Paraffin-embedded tumour-positive (n = 7) and tumour-negative (n = 15) pelvic lymph nodes were also included in the study. Immunostaining was performed on consecutive sections with antibodies specific for CD3-epsilon or the CD3-associated zeta chain dimer. Antigen retrieval by sodium citrate/microwave treatment was essential for zeta staining of paraffin sections. The amount of zeta positive cells was quantitated and related to the number of CD3-epsilon+ cells in corresponding tumour areas. Of the 24 cervical cancer specimens studied, zeta chain dimer expression was reduced in seven cases and strongly reduced in the other 17 samples. In tonsil control sections, CD3-epsilon and CD3-zeta were always co-expressed in almost equal numbers. Also, both tumour-negative and -positive lymph nodes showed zeta chain expression which equalled that of CD3-epsilon expression. These data indicate that a decreased expression of signal-transducing zeta molecules on tumour-infiltrating T-cells is frequent in cervical cancer. The apparently unimpaired zeta chain expression within draining lymph nodes suggests that local tumour-derived factors at the primary site are instrumental in zeta chain down-regulation.