PURPOSE: Antitumor lymphocytes can be generated ex vivo unencumbered by immunoregulation found in vivo. Adoptive transfer of these cells is a promising therapeutic modality that could establish long-term antitumor immunity. However, the widespread use of adoptive therapy has been hampered by the difficulty of consistently generating potent antitumor lymphocytes in a timely manner for every patient. To overcome this, we sought to establish a clinical grade culture system that can reproducibly generate antigen-specific cytotoxic T lymphocytes (CTL). EXPERIMENTAL DESIGN: We created an off-the-shelf, standardized, and renewable artificial antigen-presenting cell (aAPC) line that coexpresses HLA class I, CD54, CD58, CD80, and the dendritic cell maturation marker CD83. We tested the ability of aAPC to generate tumor antigen-specific CTL under optimal culture conditions. The number, phenotype, effector function, and in vitro longevity of generated CTL were determined. RESULTS: Stimulation of CD8(+) T cells with peptide-pulsed aAPC generated large numbers of functional CTL that recognized a variety of tumor antigens. These CTLs, which possess a phenotype consistent with in vivo persistence, survived ex vivo for prolonged periods of time. Clinical grade aAPC(33), produced under current Good Manufacturing Practices guidelines, generated sufficient numbers of CTL within a short period of time. These CTL specifically lysed a variety of melanoma tumor lines naturally expressing a target melanoma antigen. Furthermore, antitumor CTL were easily generated in all melanoma patients examined. CONCLUSIONS: With clinical grade aAPC(33) in hand, we are now poised for clinical translation of ex vivo generated antitumor CTL for adoptive cell transfer.
PURPOSE: Antitumor lymphocytes can be generated ex vivo unencumbered by immunoregulation found in vivo. Adoptive transfer of these cells is a promising therapeutic modality that could establish long-term antitumor immunity. However, the widespread use of adoptive therapy has been hampered by the difficulty of consistently generating potent antitumor lymphocytes in a timely manner for every patient. To overcome this, we sought to establish a clinical grade culture system that can reproducibly generate antigen-specific cytotoxic T lymphocytes (CTL). EXPERIMENTAL DESIGN: We created an off-the-shelf, standardized, and renewable artificial antigen-presenting cell (aAPC) line that coexpresses HLA class I, CD54, CD58, CD80, and the dendritic cell maturation marker CD83. We tested the ability of aAPC to generate tumor antigen-specific CTL under optimal culture conditions. The number, phenotype, effector function, and in vitro longevity of generated CTL were determined. RESULTS: Stimulation of CD8(+) T cells with peptide-pulsed aAPC generated large numbers of functional CTL that recognized a variety of tumor antigens. These CTLs, which possess a phenotype consistent with in vivo persistence, survived ex vivo for prolonged periods of time. Clinical grade aAPC(33), produced under current Good Manufacturing Practices guidelines, generated sufficient numbers of CTL within a short period of time. These CTL specifically lysed a variety of melanoma tumor lines naturally expressing a target melanoma antigen. Furthermore, antitumor CTL were easily generated in all melanomapatients examined. CONCLUSIONS: With clinical grade aAPC(33) in hand, we are now poised for clinical translation of ex vivo generated antitumor CTL for adoptive cell transfer.
Authors: Richard Wu; Marie-Andrée Forget; Jessica Chacon; Chantale Bernatchez; Cara Haymaker; Jie Qing Chen; Patrick Hwu; Laszlo G Radvanyi Journal: Cancer J Date: 2012 Mar-Apr Impact factor: 3.360
Authors: Sascha Ansén; Marcus O Butler; Alla Berezovskaya; Andrew P Murray; Kristen Stevenson; Lee M Nadler; Naoto Hirano Journal: Clin Cancer Res Date: 2008-10-01 Impact factor: 12.531