Peter S. Chang scite author profile

Chimeric antigen receptor T (CAR-T) cell therapy has the potential to transform cancer treatment. However, CAR-T therapy application is currently limited to certain types of relapse and refractory liquid tumors. To unlock the full potential of CAR-T therapy, technologic breakthroughs will be needed in multiple areas, including optimization of autologous CAR-T development, shortening the innovation cycle, and further manufacturing advancement of next-generation CAR-T therapies. Here, we established a simple and robust virus-free multiplex Quantum CART (qCART™) system that seamlessly and synergistically integrates four platforms: 1. GTailor™ for rapid identification of lead CAR construct design, 2. Quantum Nufect™ for effective but gentle electroporation-based gene delivery, 3. Quantum pBac™, featuring a virus-free transposon-based vector with large payload capacity and potentially safe integration profile, and 4. iCellar™ for robust and high-quality CAR+ T memory stem cell (TSCM) expansion. This robust, virus-free multiplex qCART™ system is expected to unleash the full potential of CAR-T therapy for treating diseases.Significance StatementChimeric antigen receptor T (CAR-T) cell therapy is currently ineffective against solid tumors. Here, we showcase Quantum CART (qCART™), a simple and robust system that seamlessly and synergistically integrates four platforms for optimal production of multiplex virus-free CAR-T cells: GTailor™ for rapid identification of lead CAR candidates; Quantum Nufect™ for effective but gentle electroporation-based gene delivery; Quantum pBac™, featuring a highly efficient, high payload capacity virus-free gene therapy vector and potentially safe integration profile; and iCellar™ for robust and high quality CAR-T cell expansion. We demonstrate that qCART™ is a simple and robust system for cost-effective and time-efficient manufacturing of T memory stem cell (TSCM) multiplex CAR-T cells.

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Quantum pBac: An effective, high-capacitypiggyBac-based gene integration vector system for unlocking gene therapy potential

Hua¹,

Hsu²,

Chen³

et al. 2022

Preprint

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Recent advances in gene therapy have brought novel treatment options to multiple fields of medicine, including cancer. However, safety concerns and limited payload capacity in commonly-utilized viral vectors prevent researchers from unlocking the full potential of gene therapy. Virus-free DNA transposons, including piggyBac, have been shown to obviate these shortcomings. We have previously demonstrated the superior transposition efficiency of a modified piggyBac system in HEK293 cells. Here, we further advanced and broadened the therapeutic application of this modified piggyBac system. We demonstrated that the internal domain sequence (IDS) within the 3′ terminal repeat domain of hyperactive piggyBac (hyPB) donor vector contain dominant enhancer elements. We showed that a plasmid-free donor vector having IDS-free terminal inverted repeats in conjunction with a helper plasmid expressing Quantum pBase™ v2 form the most optimal piggyBac system, Quantum pBac™ (qPB), in T cells. We further demonstrated that T cells transfected with qPB expressing CD20/CD19 CAR outperformed cells transfected with the same donor vector but with plasmid expressing hyPB transposase in CAR-T cell production. Importantly, we showed that qPB produced mainly CD8+ CAR-T cells that are also highly represented by TSCM. These CAR-T cells effectively eliminated CD20/CD19-expressing tumor cells in vitro and in Raji-bearing immunodeficient mice. Our findings confirm that qPB is a promising virus-free vector system that is safer, and highly efficient in mediating transgene integration with the payload capacity to incorporate multiple genes.

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Manufacturing CD20/CD19-targeted iCasp9 regulatable CAR-T_SCMcells usingqCART, theQuantum pBac-based CAR-T system

Chen

Chang

Hua

et al. 2022

Preprint

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CD19-targeted chimeric antigen receptor therapies (CAR19) have driven a paradigm shift in the treatment of relapsed/refractory B-cell malignancies. However, >50% of CAR19-treated patients experienced progressive disease mainly due to antigen escape and low persistence. Clinical prognosis is heavily influenced by CAR-T cell function and systemic cytokine toxicities. Furthermore, it remains a challenge to efficiently, cost-effectively, and consistently manufacture clinically relevant number of virally engineered CAR-T cells. Using a highly efficient piggyBac transposon-based vector, Quantum pBac, we developed a virus-free cell engineering system, Quantum CAR-T (qCART™), for development and production of multiplex CAR-T therapies. Here, we demonstrated in vitro and in vivo that consistent, robust, and functional CD20/CD19 dual-targeted CAR-T stem cell memory (TSCM) cells can be efficiently manufactured using the qCART™ system for clinical application. qCART™-manufactured CAR-T cells from cancer patients expanded efficiently, rapidly eradicated tumors, and can be safely controlled via an iCasp9 suicide gene-inducing drug.

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QuantumpBac: An effective, high‐capacity piggyBac‐based gene integration vector system for unlocking gene therapy potential

Hua¹,

Hsu²,

Chen³

et al. 2023

The FASEB Journal

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Recent advances in gene therapy have brought novel treatment options for cancer. However, the full potential of this approach has yet to be unlocked due to the limited payload capacity of commonly utilized viral vectors. Virus‐free DNA transposons, including piggyBac, have the potential to obviate these shortcomings. In this study, we improved a previously modified piggyBac system with superior transposition efficiency. We demonstrated that the internal domain sequences (IDS) within the 3′ terminal repeat domain of hyperactive piggyBac (hyPB) donor vector contain dominant enhancer elements. Plasmid‐free donor vector devoid of IDS was used in conjunction with a helper plasmid expressing Quantum PBase™ v2 to generate an optimal piggyBac system, Quantum pBac™ (qPB), for use in T cells. qPB outperformed hyPB in CD20/CD19 CAR‐T production in terms of performance as well as yield of the CAR‐T cells produced. Furthermore, qPB also produced CAR‐T cells with lower donor‐associated variabilities compared to lentiviral vector. Importantly, qPB yielded mainly CD8+ CAR‐TSCM cells, and the qPB‐produced CAR‐T cells effectively eliminated CD20/CD19‐expressing tumor cells both in vitro and in vivo. Our findings confirm qPB as a promising virus‐free vector system with an enhanced payload capacity to incorporate multiple genes. This highly efficient and potentially safe system will be expected to further advance gene therapy applications.

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Peter S. Chang

Quantum CART(qCART), apiggyBac-basedsystem for development and production of virus-free multiplex CAR-T cell therapy

Quantum pBac: An effective, high-capacitypiggyBac-based gene integration vector system for unlocking gene therapy potential

Manufacturing CD20/CD19-targeted iCasp9 regulatable CAR-T_SCMcells usingqCART, theQuantum pBac-based CAR-T system

QuantumpBac: An effective, high‐capacity piggyBac‐based gene integration vector system for unlocking gene therapy potential

Contact Info

Product

Resources

About

Peter S. Chang

Quantum CART(qCART), apiggyBac-basedsystem for development and production of virus-free multiplex CAR-T cell therapy

Quantum pBac: An effective, high-capacitypiggyBac-based gene integration vector system for unlocking gene therapy potential

Manufacturing CD20/CD19-targeted iCasp9 regulatable CAR-TSCMcells usingqCART, theQuantum pBac-based CAR-T system

QuantumpBac: An effective, high‐capacity piggyBac‐based gene integration vector system for unlocking gene therapy potential

Contact Info

Product

Resources

About

Manufacturing CD20/CD19-targeted iCasp9 regulatable CAR-T_SCMcells usingqCART, theQuantum pBac-based CAR-T system