BACKGROUND: Immunotherapy for B-cell lymphomas has evolved significantly with the advent of CD20-targeted Ab-based therapeutics. Strategies to invoke or augment cellular anti-lymphoma immune responses may also have considerable therapeutic potential and serve to further augment the clinical efficacy of MAbs. METHODS: We report here the aquisition by priming human cytotoxic T lymphocyte (CTL) effectors of re-directed CD20 specificity by their genetic modification to express a chimeric immunoreceptor consisting of an anti-CD20 single chain Ab extracellular domain molecularly fused to the T-cell receptor complex CD3-zeta cytoplasmic tail (scFvFczeta). Peripheral blood-derived human T-cells were transduced with naked DNA plasmid vector by electoporation then selected for G418 resistance. RESULTS: Following cloning in limiting dilution and ex vivo expansion to large numbers scFvFczeta+ TCRalpha/beta+ CD4- CD8+ CTL display re-directed HLA-unresricted CD20-specific lymphoma cell cytolysis proportional to the cell-surface density of the chimeric immunoreceptor. Engineered CTL clones are also activated through the chimeric immunoreceptor to produce Tc1 cytokines (IFN-gamma) upon co-culture with CD20+ lymphoma stimulator cells. Additionally, CD20-specific CTL proliferate in the presence of lymphoma stimulators and IL-2 (5 U/mL). DISCUSSION: These studies provide the rationale for exploring the clinical utility of adoptive therapy with CD20-specific CTL as a component of immunotherapeutic targeting of CD20+ malignancy.
BACKGROUND: Immunotherapy for B-cell lymphomas has evolved significantly with the advent of CD20-targeted Ab-based therapeutics. Strategies to invoke or augment cellular anti-lymphoma immune responses may also have considerable therapeutic potential and serve to further augment the clinical efficacy of MAbs. METHODS: We report here the aquisition by priming human cytotoxic T lymphocyte (CTL) effectors of re-directed CD20 specificity by their genetic modification to express a chimeric immunoreceptor consisting of an anti-CD20 single chain Ab extracellular domain molecularly fused to the T-cell receptor complex CD3-zeta cytoplasmic tail (scFvFczeta). Peripheral blood-derived human T-cells were transduced with naked DNA plasmid vector by electoporation then selected for G418 resistance. RESULTS: Following cloning in limiting dilution and ex vivo expansion to large numbers scFvFczeta+ TCRalpha/beta+ CD4- CD8+ CTL display re-directed HLA-unresricted CD20-specific lymphoma cell cytolysis proportional to the cell-surface density of the chimeric immunoreceptor. Engineered CTL clones are also activated through the chimeric immunoreceptor to produce Tc1 cytokines (IFN-gamma) upon co-culture with CD20+ lymphoma stimulator cells. Additionally, CD20-specific CTL proliferate in the presence of lymphoma stimulators and IL-2 (5 U/mL). DISCUSSION: These studies provide the rationale for exploring the clinical utility of adoptive therapy with CD20-specific CTL as a component of immunotherapeutic targeting of CD20+ malignancy.
Authors: Lisa Marie Serrano; Timothy Pfeiffer; Simon Olivares; Tontanai Numbenjapon; Jennifer Bennitt; Daniel Kim; David Smith; George McNamara; Zaid Al-Kadhimi; Joseph Rosenthal; Stephen J Forman; Michael C Jensen; Laurence J N Cooper Journal: Blood Date: 2005-12-13 Impact factor: 22.113
Authors: Alena A Chekmasova; Thapi D Rao; Yan Nikhamin; Kay J Park; Douglas A Levine; David R Spriggs; Renier J Brentjens Journal: Clin Cancer Res Date: 2010-07-13 Impact factor: 12.531
Authors: Gregory A Rufener; Oliver W Press; Philip Olsen; Sang Yun Lee; Michael C Jensen; Ajay K Gopal; Barbara Pender; Lihua E Budde; Jeffrey K Rossow; Damian J Green; David G Maloney; Stanley R Riddell; Brian G Till Journal: Cancer Immunol Res Date: 2016-04-21 Impact factor: 11.151