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Homology-independent targeted insertion (HITI) enables guided CAR knock-in and efficient clinical scale CAR-T cell manufacturing

Mol Cancer. 2023-06; 
Hyatt Balke-Want, Vimal Keerthi, Nikolaos Gkitsas, Andrew G Mancini, Gavin L Kurgan, Carley Fowler, Peng Xu, Xikun Liu, Kyle Asano, Sunny Patel, Christopher J Fisher, Annie K Brown, Ramya H Tunuguntla, Shabnum Patel, Elena Sotillo, Crystal L Mackall, Steven A Feldman
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Proteins, Expression, Isolation and Analysis … Knock-In templates were synthesized at Genscript and flanking cut sites for NheI and KpnI were … were collected in a single file and analyzed on the Living Image software (Perkin Elmer). … Get A Quote

摘要

background: Chimeric Antigen Receptor (CAR) T cells are now standard of care (SOC) for some patients with B cell and plasma cell malignancies and could disrupt the therapeutic landscape of solid tumors. However, access to CAR-T cells is not adequate to meet clinical needs, in part due to high cost and long lead times for manufacturing clinical grade virus. Non-viral site directed CAR integration can be accomplished using CRISPR/Cas9 and double-stranded DNA (dsDNA) or single-stranded DNA (ssDNA) via homology-directed repair (HDR), however yields with this approach have been limiting for clinical application (dsDNA) or access to large yields sufficient to meet the manufacturing demands outside early phase clinica... More

关键词

CRISPR/Cas9, GMP, Genomic safety, Homology-independent targeted insertion (HITI), Non-viral CAR-T cell, Targeted insertion
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