Measuring Antiviral Capacity of T Cell Responses to Adenovirus.

Adenoviruses are a major cause of infectious mortality in children following allogeneic hematopoietic stem cell transplantation, with adoptive transfer of adenovirus-specific T cells being an effective therapeutic approach. We have previously shown that T cells specific for the peptide epitope LTDLGQNLLY were protective. In this study, we aimed to establish a viral dissemination assay to measure the antiviral capacity of T cells specific for this and other peptide epitopes in an infectious setting. We used replication-competent adenovirus 11 (Ad11pGFP) and adenovirus 5 containing adenovirus 35 fiber (Ad5F35GFP) viruses and T cells specific for HLA-A01-restricted LTDLGQNLLY, HLA-B07-restricted KPYSGTAYNAL, and HLA-A02-restricted LLDQLIEEV peptide epitopes. T cells in PBMC from healthy donors were expanded with peptide and IL-2 or treated with IL-2 alone to serve as nonstimulated control cells, and then these expanded or nonstimulated CD8 cells were purified and cocultured with autologous monocytes infected with adenovirus at low multiplicity of infection. After 3 d, the number of infected GFP monocytes and, hence, viral dissemination was quantified by flow cytometry. T cells expanded with LTDLGQNLLY peptide from multiple HLA-A01 donors prevented adenovirus dissemination, and nonstimulated T cells did not prevent dissemination, thus, indicating that LTDLGQNLLY-specific T cells have high antiviral capacity. Similarly, expanded KPYSGTAYNAL- and LLDQLIEEV-specific T cells could prevent viral dissemination. However, the frequency of expanded T cells specific for these last two epitopes was variable between donors with consequent variable prevention of adenoviral dissemination. Taken together, we demonstrate that T cells specific for three peptide epitopes, from both structural and nonstructural proteins, can prevent adenoviral dissemination and provide a novel method to measure the antiviral capacity of adenovirus-specific T cell responses.