Expression of T-cell receptor- or Fcgamma receptor III-associated signal-transducing zeta chain is important for the functional integrity of immune cells. We found that significantly higher proportions of circulating CD3+ T cells as well as natural killer cells had low or absent expression of the zeta chain in patients with advanced melanoma than in normal donors (P < 0.0005). Decreased zeta expression was always observed in a small subset of circulating CD3+ T cells that were in the process of apoptosis, i.e., bound Annexin V or were terminal deoxynucleotidyl transferase-mediated nick end labeling positive. Up to 80% of T cells in the peripheral blood of patients with melanoma were Fas+, with the mean percentage of Fas+CD3+ cells significantly higher in patients (P < 0.004) than normal controls. These Fas+CD3+ T cells were found to preferentially undergo apoptosis. Annexin V binding, the loss of Fas expression from the cell surface as well as zeta down-regulation, which are associated with early apoptosis, were detected in a proportion of circulating Fas+CD3+. In Jurkat cells incubated with agonistic anti-Fas antibody (CH-11), a rapid loss of Fas expression from the cell surface coincided with Annexin V binding and preceded the loss of zeta chain during early apoptosis. In a subset of Jurkat cells coincubated with human melanoma cells, Annexin V binding and zeta degradation as well as DNA fragmentation were observed, indicating that the tumor induced T-cell death. Triggering of death receptors expressed on activated T lymphocytes was accompanied by the loss of zeta expression. On the other hand, soluble factors secreted by melanoma cells induced down-regulation but no apoptosis in activated normal T cells. In the circulation of patients with melanoma, apoptosis of immune effector cells may be related to the state of chronic activation, resulting in the up-regulation of death receptors and increased susceptibility to apoptosis.