IL-4 drives exhaustion of CD8+ CART cells

Carli M. Stewart; Elizabeth L. Siegler; R. Leo Sakemura; Michelle J. Cox; Truc Huynh; Brooke Kimball; Long Mai; Ismail Can; Claudia Manriquez Roman; Kun Yun; Olivia Sirpilla; James H. Girsch; Ekene Ogbodo; Wazim Mohammed Ismail; Alexandre Gaspar-Maia; Justin Budka; Jenny Kim; Nathalie Scholler; Mike Mattie; Simone Filosto; Saad S. Kenderian

doi:10.1038/s41467-024-51978-3

Nature Communications (Sep 2024)

IL-4 drives exhaustion of CD8+ CART cells

Carli M. Stewart,
Elizabeth L. Siegler,
R. Leo Sakemura,
Michelle J. Cox,
Truc Huynh,
Brooke Kimball,
Long Mai,
Ismail Can,
Claudia Manriquez Roman,
Kun Yun,
Olivia Sirpilla,
James H. Girsch,
Ekene Ogbodo,
Wazim Mohammed Ismail,
Alexandre Gaspar-Maia,
Justin Budka,
Jenny Kim,
Nathalie Scholler,
Mike Mattie,
Simone Filosto,
Saad S. Kenderian

Affiliations

Carli M. Stewart: T Cell Engineering, Mayo Clinic
Elizabeth L. Siegler: T Cell Engineering, Mayo Clinic
R. Leo Sakemura: T Cell Engineering, Mayo Clinic
Michelle J. Cox: T Cell Engineering, Mayo Clinic
Truc Huynh: T Cell Engineering, Mayo Clinic
Brooke Kimball: T Cell Engineering, Mayo Clinic
Long Mai: T Cell Engineering, Mayo Clinic
Ismail Can: T Cell Engineering, Mayo Clinic
Claudia Manriquez Roman: T Cell Engineering, Mayo Clinic
Kun Yun: T Cell Engineering, Mayo Clinic
Olivia Sirpilla: T Cell Engineering, Mayo Clinic
James H. Girsch: T Cell Engineering, Mayo Clinic
Ekene Ogbodo: T Cell Engineering, Mayo Clinic
Wazim Mohammed Ismail: Department of Lab Medicine and Pathology, Mayo Clinic
Alexandre Gaspar-Maia: Department of Lab Medicine and Pathology, Mayo Clinic
Justin Budka: Department of Oncology, Gilead Sciences Inc.
Jenny Kim: Department of Oncology, Gilead Sciences Inc.
Nathalie Scholler: Department of Oncology, Gilead Sciences Inc.
Mike Mattie: Department of Oncology, Gilead Sciences Inc.
Simone Filosto: Department of Oncology, Gilead Sciences Inc.
Saad S. Kenderian: T Cell Engineering, Mayo Clinic

DOI: https://doi.org/10.1038/s41467-024-51978-3
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 17

Abstract

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Abstract Durable response to chimeric antigen receptor T (CART) cell therapy remains limited in part due to CART cell exhaustion. Here, we investigate the regulation of CART cell exhaustion with three independent approaches including: a genome-wide CRISPR knockout screen using an in vitro model for exhaustion, RNA and ATAC sequencing on baseline and exhausted CART cells, and RNA and ATAC sequencing on pre-infusion CART cell products from responders and non-responders in the ZUMA-1 clinical trial. Each of these approaches identify interleukin (IL)-4 as a regulator of CART cell dysfunction. Further, IL-4-treated CD8+ CART cells develop signs of exhaustion independently of the presence of CD4+ CART cells. Conversely, IL-4 pathway editing or the combination of CART cells with an IL-4 monoclonal antibody improves antitumor efficacy and reduces signs of CART cell exhaustion in mantle cell lymphoma xenograft mouse models. Therefore, we identify both a role for IL-4 in inducing CART exhaustion and translatable approaches to improve CART cell therapy.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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