Generating universal anti-CD19 CAR T cells with a defined memory phenotype by CRISPR/Cas9 editing and safety evaluation of the transcriptome

Kristina Pavlovic, MDolores Carmona-Luque, Giulia I. Corsi, Noelia Maldonado-Pérez, Francisco J. Molina-Estevez, Esther Peralbo-Santaella, Marina Cortijo-Gutiérrez, Pedro Justicia-Lirio, María Tristán-Manzano, Víctor Ronco-Díaz, Antonio Ballesteros-Ribelles, Alejandro Millán-López, Paula Heredia-Velázquez, Carla Fuster-García, Toni Cathomen, Stefan E. Seemann, Jan Gorodkin, Francisco Martin, Concha Herrera, Karim Benabdellah*

*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

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Abstract

Introduction: Chimeric antigen receptor-expressing T cells (CAR T cells) have revolutionized cancer treatment, particularly in B cell malignancies. However, the use of autologous T cells for CAR T therapy presents several limitations, including high costs, variable efficacy, and adverse effects linked to cell phenotype. Methods: To overcome these challenges, we developed a strategy to generate universal and safe anti-CD19 CAR T cells with a defined memory phenotype. Our approach utilizes CRISPR/Cas9 technology to target and eliminate the B2M and TRAC genes, reducing graft-versus-host and host-versus-graft responses. Additionally, we selected less differentiated T cells to improve the stability and persistence of the universal CAR T cells. The safety of this method was assessed using our CRISPRroots transcriptome analysis pipeline, which ensures successful gene knockout and the absence of unintended off-target effects on gene expression or transcriptome sequence. Results: In vitro experiments demonstrated the successful generation of functional universal CAR T cells. These cells exhibited potent lytic activity against tumor cells and a reduced cytokine secretion profile. The CRISPRroots analysis confirmed effective gene knockout and no unintended off-target effects, validating it as a pioneering tool for on/off-target and transcriptome analysis in genome editing experiments. Discussion: Our findings establish a robust pipeline for manufacturing safe, universal CAR T cells with a favorable memory phenotype. This approach has the potential to address the current limitations of autologous CAR T cell therapy, offering a more stable and persistent treatment option with reduced adverse effects. The use of CRISPRroots enhances the reliability and safety of gene editing in the development of CAR T cell therapies. Conclusion: We have developed a potent and reliable method for producing universal CAR T cells with a defined memory phenotype, demonstrating both efficacy and safety in vitro. This innovative approach could significantly improve the therapeutic landscape for patients with B cell malignancies.

OriginalsprogEngelsk
Artikelnummer1401683
TidsskriftFrontiers in Immunology
Vol/bind15
Antal sider19
ISSN1664-3224
DOI
StatusUdgivet - 2024

Bibliografisk note

Funding Information:
The author(s) declare financial support was received for the research, authorship, and/or publication of this article. This publication is based upon work from COST Action Gene Editing for the treatment of Human Diseases, CA21113 (https://www.genehumdi.eu) supported by COST (European Cooperation of Science and Technology). This project was funded by Spanish ISCIII Health Research Fund and the European Regional Development Fund (FEDER) through research grants PI18/01016 (CH) and PI18/00330 (KB). The CsyF of Junta de Andalucia FEDER/European Cohesion FUND (FSE) for Andalusia provided by the following research grant PE-0223-2018, and PECART-0027-2020. The study was also supported by Consejer\u00EDa de Universidad, Investigaci\u00F3n e Innovaci\u00F3n under Plan Andaluz de Investigaci\u00F3n, Desarrollo e Innovaci\u00F3n (PAIDI 2020) (ProyExcel_00875), Junta de Andaluc\u00EDa. K.B. held Nicolas Monardes contract from Consejer\u00EDa de Salud y Consumo of the Junta de Andaluc\u00EDa. MDCL is funded by the grants PE-0223-2018 and RH-0058-2021 from CsyF of the Junta de Andalucia. This work was supported by the Independent Research Fund Denmark, FTP (9041-00317B to JG) and the Novo Nordisk Foundation (NNF21OC0068988 to JG). PHV is funded by Spanish Ministry of Education and Science through fellowships FPU20/03260. PHV is PhD student from the Biomedicine. Instituto de Salud Carlos III (ISCIII) and the European Regional Development Fund (FEDER): Research grants, PI21/00298 (FM); ISCIII \u2013 NextGenerationEU funds - actions of the Recovery and Resilience Mechanism: Red TerAv RD21/0017/0004. (FM). Ministerio de Ciencia e Innovaci\u00F3n (MICIN). Plan de Recuperaci\u00F3n, Transformaci\u00F3n y Resiliencia, Centro para el Desarrollo Tecnol\u00F3gico Industrial (CDTI) and European Union-Next Generation EU: Research grants PMPTA22/00060 (FM). Consejer\u00EDa de Salud y Familias (CSyF) - Junta de Andaluc\u00EDa - FEDER/European Cohesion Fund (FSE) for Andaluc\u00EDa: Grants: CARTPI-0001-201 and PECART-0031-2020. Ministerio de Ciencia e Innovaci\u00F3n (MICIN) \u2013 l\u00EDneas estrat\u00E9gicas: Grant PLEC2021-008094 (FM). FM is financed by Maria Zambrano Senior Contract by the University of Granada.

Funding Information:
The author(s) declare financial support was received for the research, authorship, and/or publication of this article. This publication is based upon work from COST Action Gene Editing for the treatment of Human Diseases, CA21113 ( https://www.genehumdi.eu ) supported by COST (European Cooperation of Science and Technology). This project was funded by Spanish ISCIII Health Research Fund and the European Regional Development Fund (FEDER) through research grants PI18/01016 (CH) and PI18/00330 (KB). The CsyF of Junta de Andalucia FEDER/European Cohesion FUND (FSE) for Andalusia provided by the following research grant PE-0223-2018, and PECART-0027-2020. The study was also supported by Consejer\u00EDa de Universidad, Investigaci\u00F3n e Innovaci\u00F3n under Plan Andaluz de Investigaci\u00F3n, Desarrollo e Innovaci\u00F3n (PAIDI 2020) (ProyExcel_00875), Junta de Andaluc\u00EDa. K.B. held Nicolas Monardes contract from Consejer\u00EDa de Salud y Consumo of the Junta de Andaluc\u00EDa. MDCL is funded by the grants PE-0223-2018 and RH-0058-2021 from CsyF of the Junta de Andalucia. This work was supported by the Independent Research Fund Denmark, FTP (9041-00317B to JG) and the Novo Nordisk Foundation (NNF21OC0068988 to JG). PHV is funded by Spanish Ministry of Education and Science through fellowships FPU20/03260. PHV is PhD student from the Biomedicine. Instituto de Salud Carlos III (ISCIII) and the European Regional Development Fund (FEDER): Research grants, PI21/00298 (FM); ISCIII \u2013 NextGenerationEU funds - actions of the Recovery and Resilience Mechanism: Red TerAv RD21/0017/0004. (FM). Ministerio de Ciencia e Innovaci\u00F3n (MICIN). Plan de Recuperaci\u00F3n, Transformaci\u00F3n y Resiliencia, Centro para el Desarrollo Tecnol\u00F3gico Industrial (CDTI) and European Union-Next Generation EU: Research grants PMPTA22/00060 (FM). Consejer\u00EDa de Salud y Familias (CSyF) - Junta de Andaluc\u00EDa - FEDER/European Cohesion Fund (FSE) for Andaluc\u00EDa: Grants: CARTPI-0001-201 and PECART-0031-2020. Ministerio de Ciencia e Innovaci\u00F3n (MICIN) \u2013 l\u00EDneas estrat\u00E9gicas: Grant PLEC2021-008094 (FM). FM is financed by Maria Zambrano Senior Contract by the University of Granada. Acknowledgments

Publisher Copyright:
Copyright © 2024 Pavlovic, Carmona-Luque, Corsi, Maldonado-Pérez, Molina-Estevez, Peralbo-Santaella, Cortijo-Gutiérrez, Justicia-Lirio, Tristán-Manzano, Ronco-Díaz, Ballesteros-Ribelles, Millán-López, Heredia-Velázquez, Fuster-García, Cathomen, Seemann, Gorodkin, Martin, Herrera and Benabdellah.

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