Can't Get Any Help? New Approaches for Adoptive Immunotherapy of Cancer:

Generation of canine dendritic cells from peripheral blood mononuclear cells

Dendritic cells (DCs) are the most potent antigen-presenting cells that are expected to be therapeutic agents for tumor immunotherapy. In this study, we generated DCs of sufficient number for DC-based immunotherapy from peripheral blood mononuclear cells (PBMC) in dogs. PBMC were cultured in the presence of phytohemagglutinin (PHA). On day 6, large adherent cells with dendrite-like projections were seen, and the number of these large cells with projections increased on day 8. These cells were positive for esterase staining. They expressed MHC class II, CD11b, CD8 and weakly CD4 on their surface. They tended to make contact with lymphocytes under culture conditions. We obtained about 2-5 x 10(6) of DCs from 10 ml of peripheral blood. These DCs phagocytosed HEK-293 cells by overnight co-culturing. These cells generated from PBMC are possible canine DCs and are applicable to clinical trials of DC-based whole tumor cell immunotherapy in dogs.

Antitumor reactivity of anti-CD3/anti-CD28 bead-activated lymphoid cells: implications for cell therapy in a murine model

Ligation of TCR and CD28 expressed on T cells via mAbs results in activation of T cells capable of tumor destruction in adoptive immunotherapy. In a murine model, the authors examined in vitro activation conditions utilizing plate-immobilized and bead-conjugated mAbs that bind to CD3 and CD28. Bead-activated tumor-draining lymph node (TDLN) cells demonstrated superior cytokine (IFN-gamma, GM-CSF, IL-2, and IL-10) secretion and mediated tumor regression more efficiently compared with plate-activated cells. The bead-activated TDLN cells had a significantly higher percentage of CD4+ cells compared with plate-activated cells. On a per-cell basis, positively selected CD4+ cells activated with bead-coupled or plate immobilized mAbs mediated tumor-specific regression equally. Bead-activated CD4+ TDLN cells demonstrated significantly higher levels of tumor specific IL-2 secretion compared with plate-activated CD4+ cells that may provide helper function to CD8+ effector cells. The antitumor reactivity of bead-activated lymphoid cells depended upon their source. TDLN cells after bead activation were more potent than splenocytes from tumor-bearing hosts in mediating tumor regression in vivo. Bead-activated LN cells and splenocytes from nontumor-bearing hosts demonstrated nonspecific cytokine secretion and minimal efficacy in adoptive immunotherapy. At minimal doses of IL-2, the antitumor reactivity of bead-activated TDLN cells was significantly enhanced. Anti-CD3/anti-CD28 bead activation of tumor-primed T cells represents an efficient method to generate effector cells for immunotherapy.