Objective: In response to antigenic stimulation, naive MHC-class I restricted and antigen-specific CD8+CD45RA+CD28+T-cells undergo clonal expansion and differentiate into CD8+CD45RO+ memory T-cells. Upon re- encounter with the nominal antigen, CD45RO+ T-cells are able to convert to CD8+CD45RA+CD28-T-cells displaying potent immune effector functions, including TNF-alpha production. This T-cell subpopulation constitutes a minor population in healthy individuals. In the present study we are currently evaluating whether this particular T-cell subset in PBL represents CD8+T-cells which may be able to recognize cervical cancer associated antigens provided by HPV 16 E7.
Material and methods: Flow-cytometric cell sorted CD8+CD45RA+CD28- and CD8+CD45RA+CD28-T-cells were obtained from patients with cervical cancer and tested for recognition of HLA-A2 restricted peptides derived from the human papillomavirus (HPV)16-E7 gene product using ELISA. HPV DNA in tumor tissue was detected by PCR.
Results: We show that the effector CD8+CD45RA+CD28-T-cell subset is expanded in peripheral blood lymphocytes (PBL) from patients with cervical cancer, but also in PBL from patients with an acute mycobacterial infection. CD8+T-cells from 3/6 cancer patients showed a peptide-specific immune response which could be segregated in peptide epitopes which elicited either a strong TNF-alpha production, or GM-CSF and IL-2 secretion. Peptide-reactivity could exclusively be detected in the ex vivo freshly isolated CD8+CD45RA+CD28-T-cell population. A similar situation was found to be true for HLA-A2 presented peptide epitopes derived from M. tuberculosis-associated antigens presented to T-cells obtained from patients with tuberculosis.
Conclusions: The sorting of CD8+CD45RA+CD28-T-cells enables to determine the fine specificity of CD8+ effector T-cells without the need for in vitro manipulation and aids to define the most appropriate target epitopes for novel vaccine designs.