Human papillomavirus 16 E6-specific CD45RA+ CCR7+ high avidity CD8+ T cells fail to control tumor growth despite interferon-gamma production in patients with cervical cancer.

We defined the nature of the cellular immune response in 5 women with human papillomavirus (HPV) 16+cervical carcinoma at a single time point when surgery was performed for treatment. To monitor the differences in T-cell recognition, 2 approaches of tetramer-guided technology were employed: (i) the in situ localization of major histocompatibility complex class I peptide complexes in the tumor lesions and (ii) the ex vivo sorting of HLA-A*0201-restricted and HPV16 E6-reactive T cells. CD8 T cells from the periphery (peripheral blood lymphocytes), the tumor (tumor-infiltrating lymphocytes), and T cells harvested from draining lymph nodes (T-LN) were analyzed. HPV16 E6 tetramer-sorted lymphocytes from the different anatomic sites recognized an HLA-A*0201-restricted E6 peptide irrespective of the type of antigen-presenting cells used for stimulation as determined by interferon-gamma production: autologous tumor cells, HLA-A*0201 surrogate antigen-presenting cells pulsed with the nominal peptide, and an HLA-A*0201-matched human dendritic cell line transgenic for HPV16 E6. Further analysis showed that the HPV16 E6-reactive CD8 T cells were of high avidity defined by blocking with an anti-CD8-alpha specific monoclonal antibody. We found that HPV16 E6-reactive T cells reside preferentially within the CD45RA+ CCR7+ T-cell subpopulation of tumor-infiltrating lymphocyte, peripheral blood lymphocyte, and T-LN in cervical cancer patients, suggesting that successful immune surveillance of HPV16+ tumor cells in cervical cancer patients is impaired. The CD45RA+/CCR7+ phenotype of HPV antigen-reactive T cells may serve as an indicator of dysfunctional T cells, despite effective interferon-gamma production in response to HPV antigens.