CAR T cell manufacturing from naive/stem memory T lymphocytes enhances antitumor responses while curtailing cytokine release syndrome
Silvia Arcangeli, … , Attilio Bondanza, Monica Casucci
Silvia Arcangeli, … , Attilio Bondanza, Monica Casucci
Published May 3, 2022
Citation Information: J Clin Invest. 2022;132(12):e150807. https://doi.org/10.1172/JCI150807.
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Research Article Immunology

CAR T cell manufacturing from naive/stem memory T lymphocytes enhances antitumor responses while curtailing cytokine release syndrome

Abstract

Chimeric antigen receptor (CAR) T cell expansion and persistence represent key factors to achieve complete responses and prevent relapses. These features are typical of early memory T cells, which can be highly enriched through optimized manufacturing protocols. Here, we investigated the efficacy and safety profiles of CAR T cell products generated from preselected naive/stem memory T cells (TN/SCM), as compared with unselected T cells (TBULK). Notwithstanding their reduced effector signature in vitro, limiting CAR TN/SCM doses showed superior antitumor activity and the unique ability to counteract leukemia rechallenge in hematopoietic stem/precursor cell–humanized mice, featuring increased expansion rates and persistence together with an ameliorated exhaustion and memory phenotype. Most relevantly, CAR TN/SCM proved to be intrinsically less prone to inducing severe cytokine release syndrome, independently of the costimulatory endodomain employed. This safer profile was associated with milder T cell activation, which translated into reduced monocyte activation and cytokine release. These data suggest that CAR TN/SCM are endowed with a wider therapeutic index compared with CAR TBULK.

Authors

Silvia Arcangeli, Camilla Bove, Claudia Mezzanotte, Barbara Camisa, Laura Falcone, Francesco Manfredi, Eugenia Bezzecchi, Rita El Khoury, Rossana Norata, Francesca Sanvito, Maurilio Ponzoni, Beatrice Greco, Marta Angiola Moresco, Matteo G. Carrabba, Fabio Ciceri, Chiara Bonini, Attilio Bondanza, Monica Casucci

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Figure 6

CAR TN/SCM better calibrate monocyte activation and cytokine production.

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CAR TN/SCM better calibrate monocyte activation and cytokine production....
(A) Absolute number (a.n.) of CAR T cells coexpressing activation markers (CD25, CD69, HLA-DR) 24 hours after coculture with NALM-6 cells (CAR TBULK/CAR TN/SCM 28z n = 11, left; CAR TBULK/CAR TN/SCM BBz n = 8, right). (B) Schematic representation of tripartite cocultures consisting of NALM-6 leukemia cells, CAR T cells, and autologous monocytes. Untransduced TBULK (Mock) and TN/SCM (MockN/SCM) were used as controls. CTKs, cytokines. (C) IL-6 production (Mock n = 3; Mock N/SCM n = 3; CAR TBULK/CAR TN/SCM 28z n = 5, left; CAR TBULK/CAR TN/SCM BBz n = 4, right) and (D) heatmap visualization of cytokine release 24 hours after plating. P = 0.0319 for the comparison between CAR TBULK BBz and CAR TN/SCM BBz in D. (E and F) RNA sequencing analysis of monocytes retrieved from tripartite cocultures including 4-1BB–costimulated CAR T cells and analyzed by RNA sequencing. (E) Pre-ranked GSEA depicting the expression profile of monocytes employing the activation gene set GSE5099 (CAR TBULK n = 4, CAR TN/SCM n = 3). (F) Heatmap illustrating expression values (log2-transformed RPKM) of selected genes retrieved from different pathways in monocytes as inflammatory response, activation, and inflammasome complex. Percentage of (G) CD28- and (H) 41BB-costimulated CAR T cells expressing granzyme A, granzyme B, and perforin 24 hours after coculture with NALM-6 cells (CAR TBULK/CAR TN/SCM 28z n = 6/7, CAR TBULK/CAR TN/SCM BBz n = 5). Data are represented as mean ± SEM together with overlapping scattered values and box and violin plots. *P < 0.05; **P < 0.01 by paired t test (A, C, D, G, and H).