Expansion Of Antigen-specific Cells Research Articles

Abstract 3193: Combining immunotherapies: A strategy for improving CD8 T cell-mediated antitumor responses

Abstract Adoptive cell therapy (ACT) of retrovirally transduced (RV) CD8 T cells is a powerful technique that has shown promise in tumor eradication in cancer patients. However, some major barriers to current methods are that ACT is expensive, time consuming, and requires harmful and toxic adjunct procedures. Our laboratory has demonstrated the use of TriVax, a potent peptide vaccination strategy that dramatically expands ACT cell populations and bypasses the necessity for adjunct procedures. The purpose of this project was to enhance current methods of ACT+TriVax by testing an antigen-specific antitumor response of RV CD8 T cells and if it could be improved with constitutively active STAT5 (CA-STAT5) expression, a protein activated downstream several cytokine pathways that have been shown to play a role in increasing CD8 T cell persistence and resistance to apoptosis. We tested the hypothesis that CA-STAT5 in CD8 T cells enhances an antitumor effect by increasing T cell persistence and efficacy. Our results show that TriVax administration selectively expanded frequencies of the ACT cell population expressing gp100-TCR in both blood and spleen. When co-transduced with CA-STAT5, an even higher fold expansion of antigen-specific cells was observed. +CA-STAT5 T cells were able to expand more robustly than -CA-STAT5 T cells upon repeated antigen stimulation (vaccine boost), demonstrating nearly 4000-fold increases in antigen-specific CD8 T cells. +CA-STAT5 T cells also seemed to persist longer in vivo over time, and they expressed lower levels of surface PD-1. Using B16F10 melanoma, ACT+TriVax of these cell populations into tumor-bearing mice demonstrated a powerful antitumor effect, leading to tumor regression in treated groups. CA-STAT5 seemed to recapitulate similar antitumor effects our laboratory observed previously with combinatorial anti-PD-L1 treatment or IL2/anti-IL2 mAb complexes (IL2Cx), suggesting a potential role for STAT5 in resisting the PD-1/PD-L1 inhibitory pathway. When compared to tumor-bearing mice treated with ACT+TriVax with anti-PD-L1 antibody, our approach using +CA-STAT5 T cells generated a comparable antitumor response. Altogether, these results demonstrate that RV CD8 T cells expressing gp100-TCR and CA-STAT5 are capable of antigen-dependent expansion in response to TriVax. CA-STAT5 plays a role in increasing T cell proliferation and persistence, as well as increasing efficacy through mechanisms that seem to indicate resistance to PD-1/PD-L1 inhibition. Citation Format: Aaron E. Fan, Hussein Sultan, Takumi Kumai, Esteban Celis. Combining immunotherapies: A strategy for improving CD8 T cell-mediated antitumor responses [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 3193.

Somatic diversity of the immunoglobulin repertoire is controlled in an isotype-specific manner.

We have studied two aspects of the IgE immune response. First, we have compared the kinetics of the IgE response to the T cell-dependent antigen ph-Ox coupled to ovalbumin with that of the IgG1 response and we have assessed the quality of the IgE response. Second, we have studied the generation of somatic diversity, understood as the combined effect of somatic mutation and the selection of D(iversity) and J(oining) elements, in germinal center B cells at the molecular level, using the germ-line sequence of the prototype anti-ph-Ox heavy chain variable element V(H)Ox1 as reference. We evaluated sequences derived from mu-, gamma 1- and epsilon-variable elements and showed that somatic diversification was different for all isotypes studied. We further compared the IgE responses of wild-type mice with those of mice expressing a truncated cytoplasmic IgE tail (IgE(KVK Delta tail)). IgE(KVK Delta tail) mice showed a more diverse sequence pattern. We corroborated previous results suggesting that short CDR3 regions are indicative for high-affinity antibodies by measuring relative affinities of phage-expressed Fab fragments with prototype long and short CDR3 regions. Therefore, the composition of the antigen-receptor is responsible for the selection process and the expansion of antigen-specific cells, leading to an isotype-specific antibody repertoire.