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. 2025 Oct;646(8086):953-962.
doi: 10.1038/s41586-025-09489-8. Epub 2025 Sep 24.

In vivo CRISPR screens identify modifiers of CAR T cell function in myeloma

Nelson H Knudsen #  1   2   3 Giulia Escobar #  1   2   3   4 Felix Korell #  1   2   3   4 Tamina Kienka  1   2   3   4 Celeste Nobrega  3 Seth Anderson  3 Andrew Y Cheng  3 Maria Zschummel  3   4 Alexander Armstrong  1   2 Amanda Bouffard  1   2 Michael C Kann  1   2 Sadie Goncalves  1   2 Hans W Pope  3 Mitra Pezeshki  3 Alexander Rojas  3 Juliette S M T Suermondt  3 Merle Phillips  1   2   3   4 Trisha R Berger  1   2 Sangwoo Park  1   2   3   4 Diego Salas-Benito  1   2   3   4 Elijah P Darnell  1   2   4 Filippo Birocchi  1   2   3   4 Mark B Leick  1   2   3   4 Rebecca C Larson  1   2   3   4 John G Doench  3 Debattama Sen  1   3   4 Kathleen B Yates  3   4 Robert T Manguso  5   6   7   8 Marcela V Maus  9   10   11   12
Affiliations

In vivo CRISPR screens identify modifiers of CAR T cell function in myeloma

Nelson H Knudsen et al. Nature. 2025 Oct.

Abstract

Chimeric antigen receptor (CAR) T cells are highly effective in haematological malignancies1. However, progressive loss of CAR T cells contributes to relapse in many patients2-4. Here we performed in vivo loss-of-function CRISPR screens in CAR T cells targeting B cell maturation antigen to investigate genes that influence CAR T cell persistence and function in a human multiple myeloma model. We tracked the expansion and persistence of CRISPR library-edited T cells in vitro and at early and late time points in vivo to track the performance of gene-modified CAR T cells from manufacturing to survival in tumours. The screens revealed context-specific regulators of CAR T cell expansion and persistence. Ablation of RASA2 and SOCS1 enhanced T cell expansion in vitro, whereas loss of PTPN2, ZC3H12A and RC3H1 conferred early growth advantages to CAR T cells in vivo. Notably, we identified cyclin-dependent kinase inhibitor 1B (encoded by CDKN1B), a cell cycle regulator, as the most important factor limiting CAR T cell fitness at late time points in vivo. CDKN1B ablation increased CAR T cell proliferation and effector function, significantly enhancing tumour clearance and overall survival. Our findings reveal differing effects of gene perturbation on CAR T cells over time and in different environments, highlight CDKN1B as a promising target to generate highly effective CAR T cells for multiple myeloma and underscore the potential of in vivo screening for identifying genes to enhance CAR T cell efficacy.

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Conflict of interest statement

Competing interests: M.V.M., N.H.K., F.K., T.R.B. and R.T.M. are inventors on patents filed by MGH and the Broad Institute on these technologies. M.V.M. is an inventor on patents related to adoptive cell therapies, held by MGH (some licensed to ProMab and Luminary) and the University of Pennsylvania (some licensed to Novartis). M.V.M. holds equity in 2seventy bio, A2 Bio, AffyImmune, BendBio, Cargo, GBM newco, Model T bio, NexImmune and Oncternal. M.V.M. receives grant and/or research support from Kite Pharma, Moderna and Sobi. M.V.M. has served as a consultant for multiple companies involved in cell therapies. M.V.M.’s competing interests are managed by Mass General Brigham. R.T.M. has received consulting or speaking fees from Bristol Myers Squibb, Gilead Sciences and Immunai Therapeutics, has equity ownership in OncoRev and receives research funding from Calico Life Sciences. M.B.L. is an inventor on patents related to adoptive cell therapies held by MGH and has served as a consultant for BioNTech and Cabaletta Bio. M.B.L. holds equity in AbbVie. R.C.L. is an inventor on patents related to adoptive cell therapies held by MGH, has served as a consultant for Cargo and is now an employee of Link Cell Therapies. The other authors declare no competing interests.

References

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