Optimization of the PiggyBac transposon system for the sustained genetic modification of human T lymphocytes.

Nakazawa Y, Huye LE, Dotti G, Foster AE, Vera JF, Manuri PR, June CH, Rooney CM, Wilson MH
J Immunother. 2009 32 (8): 826-36

PMID: 19752751 · PMCID: PMC2796278 · DOI:10.1097/CJI.0b013e3181ad762b

Optimal implementation of adoptive T-cell therapy for cancer will likely require multiple and maintained genetic modifications of the infused T cells and their progeny so that they home to tumor sites and recognize tumor cells, overcome tumor immune evasion strategies, and remain safe. Retroviral vectors readily transduce T cells and integrate into the host cell genome, but have a limited capacity for multigene insertion and cotransduction and are prohibitively expensive to produce at clinical grade. Genetic modification of T cells using transposons as integrating plasmids is an attractive alternative because of the increased simplicity and cost of production. Of available transposons, piggyBac has the higher transposase activity and larger cargo capacity, and we now evaluate piggyBac for potential adoptive therapies with primary T cells. PiggyBac transposons mediated stable gene expression in approximately 20% of primary T cells without selection. Treatment and maintenance of T cells with interleukin-15 increased stable transgene expression up to approximately 40% and expression was sustained through multiple logs of expansion for over 9 weeks in culture. We demonstrate simultaneous integration of 2 independent transposons in 20% of T cells, a frequency that could be increased to over 85% by selection of a transgenic surface marker (truncated CD19). PiggyBac could also deliver transposons of up to 13 kb with 10,000-fold expansion of transduced T cells in culture and finally we demonstrate delivery of a functional suicide gene (iCasp9). PiggyBac transposons may thus be used to express the multiple integrated transgenes that will likely be necessary for the broader success of T-cell therapy.

MeSH Terms (12)

Apoptosis Cancer Vaccines Caspase 9 Cells, Cultured DNA Transposable Elements Genetic Engineering Genetic Vectors Humans Immunotherapy, Adoptive Interleukin-15 T-Lymphocytes Transgenes

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