BACKGROUND: In order to establish efficient gammadelta T-cell based tumor immunotherapy, we explored a method to enhance the cytotoxicity of gammadelta T cells against leukemia cells by stimulating gammadelta T cells with type I IFN. METHODS: Gammadelta T cells were expanded from normal PBMC by culturing with zoledronate and a low concentration of IL-2 for 2 weeks. For the activation of gammadelta T cells, gammadelta T cells were cultured with type I IFN (HLBI, IFN-alpha2b and IFN-beta) for 1-3 days. The cytotoxicity of HLBI-activated gammadelta T cells against leukemia cell lines and fresh leukemia cells was evaluated by 51Cr-release assay. RESULTS: Gammadelta T cells, which were expanded and purified with magnetic beads using an anti-gammadelta TCR MAb, were demonstrated to be cytotoxic against leukemia cell lines of both lymphoid and myeloid origin and fresh myeloid leukemia cells. By culturing expanded gammadelta T cells with type I IFN, the expression of the activation marker CD69 was increased and the cytometric bead array showed an elevated production of IFN-gamma by gammadelta T cells. In addition, the cytotoxicity of gammadelta T cells against leukemia cells was definitely enhanced by culturing gammadelta T cells with HLBI. DISCUSSION: The present study has demonstrated that type I IFN could enhance the anti-leukemic cytotoxicity of expanded gammadelta T cells, which implies that in vitro bisphosphonate (such as zoledronate)-expanded and type I IFN-activated gammadelta T cells could be applied to immunotherapy for hematologic malignancies such as leukemia and lymphoma.
BACKGROUND: In order to establish efficient gammadelta T-cell based tumor immunotherapy, we explored a method to enhance the cytotoxicity of gammadelta T cells against leukemia cells by stimulating gammadelta T cells with type I IFN. METHODS: Gammadelta T cells were expanded from normal PBMC by culturing with zoledronate and a low concentration of IL-2 for 2 weeks. For the activation of gammadelta T cells, gammadelta T cells were cultured with type I IFN (HLBI, IFN-alpha2b and IFN-beta) for 1-3 days. The cytotoxicity of HLBI-activated gammadelta T cells against leukemia cell lines and fresh leukemia cells was evaluated by 51Cr-release assay. RESULTS: Gammadelta T cells, which were expanded and purified with magnetic beads using an anti-gammadelta TCR MAb, were demonstrated to be cytotoxic against leukemia cell lines of both lymphoid and myeloid origin and fresh myeloid leukemia cells. By culturing expanded gammadelta T cells with type I IFN, the expression of the activation marker CD69 was increased and the cytometric bead array showed an elevated production of IFN-gamma by gammadelta T cells. In addition, the cytotoxicity of gammadelta T cells against leukemia cells was definitely enhanced by culturing gammadelta T cells with HLBI. DISCUSSION: The present study has demonstrated that type I IFN could enhance the anti-leukemiccytotoxicity of expanded gammadelta T cells, which implies that in vitro bisphosphonate (such as zoledronate)-expanded and type I IFN-activated gammadelta T cells could be applied to immunotherapy for hematologic malignancies such as leukemia and lymphoma.
Authors: Nichole L Bryant; Catalina Suarez-Cuervo; G Yancey Gillespie; James M Markert; L Burt Nabors; Sreelatha Meleth; Richard D Lopez; Lawrence S Lamb Journal: Neuro Oncol Date: 2009-02-11 Impact factor: 12.300