Abstract
Adoptive transfer of antigen-specific T cells is a potentially curative strategy for patients with solid tumors and leukemia. Most clinical trials of adoptive T cell therapy have used cytotoxic CD8+ T cells recognizing MHC class I-restricted tumor antigens. Despite overwhelming evidence suggesting the fundamental influence of CD4+ T cells on the immune system, clinical experience with tumor-specific CD4+ Th cells is almost non-existent. Unlike most other tissues, bone marrow-derived cells constitutively express MHC class II and CD4+ T cells play crucial role in mediating the curative GVL effect after allogeneic SCT and donor lymphocyte infusion (DLI). Furthermore, experimental evidences suggest that MHC class II-restricted antigenic targets recognized by CD4+ T cells exist in both solid cancers and in hematological malignancies. Therefore adoptive immunotherapy using CD4+ T cells in the setting of leukemia might be especially relevant.
The goal of this study is to establish a simplified non-individualized protocol of generating LAA-reactive CD4+ T cells from patients and normal donors for adoptive immunotherapy directed against common leukemia-associated antigens (LAA) expressed in acute myeloid leukemias (AML) and myelodysplastic syndrome (MDS). We isolated naïve and memory CD4+ T cells from 3 normal donors and stimulated with twice at weekly interval with autologous monocytes pulsed with libraries of overlapping 15-amino acid length peptides (pepmixes) derived from WT-1, MAGE A3 and A4, PRAME and SSX2 antigens. At the end of the experiment CD4+ T cells were evaluated for reactivity against each LAA by analyzing their ability to specifically release cytokines (IL-2, TNF-α, and IFNγ) using flow cytometry. LAA-specific cells were found in either naïve or memory-derived CD4+ T cells upon stimulation with relevant pepmixes in all donors tested. However specific cytokine production could not be demonstrated when the same T cells were exposed to LAA-transduced autologous targets (LCL and T cells), raising the possibility that the majority of pepmix-reactive cells recognized epitopes that were not naturally processed. Therefore, as an alternative strategy to induce LAA-specific cells capable of targeting only therapeutically-relevant epitopes, we used autologous dendritic cells (DCs) transduced with a lentiviral vector encoding MAGE A3 antigen. Autologous CD4+ T cells were stimulated with MAGE A3 or mock-transduced DCs at an interval of 7-10 days and tested for their antigen-specific cytokine secretion. At the end of the culture we observed that Th cells expanded in presence of MAGE A3-expressing DCs and contained a significant number of cells possessing specific reactive against MAGE A3 pepmix (Figure ), but not to unrelated antigenic targets, suggesting induction of LAA-reactivity against naturally-processed MAGE A3 epitopes.
In summary, we demonstrate the feasibility of generating specific anti-tumor CD4+ T cells using autologous DCs engineered to express a full-length tumor antigen. This approach allows for selective expansion of polyclonal Th cells recognizing only naturally processed MHC class II-restricted epitopes. Therefore, this strategy circumvents the limitation inherent to usage of overlapping peptide libraries that might induce the expansion of high-avidity T cells specific to epitopes that are irrelevant to in vivo recognition of tumor targets. Furthermore, this approach does not rely on a particular pre-defined MHC class II restriction element, thus it is applicable to majority of donors or patients irrespective of their MHC haplotype.
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.