Treatment of allergic eosinophilic asthma through engineered IL-5-anchored chimeric antigen receptor T cells
Chen Sisi, Chen Gaoying, Xu Fang, Sun Beibei, Chen Xinyi, Hu Wei, Li Fei, Syeda Madiha Zahra, Chen Haixia, Wu Youqian, Wu Peng, Jing Ruirui, Geng Xinwei, Zhang Lingling, Tang Longguang, Li Wen, Chen
Journal:Cell Discovery
IF:38.08
DOI:10.1038/s41421-022-00433-y
PMID:35973984
Published:2022-08-16
research field:
Abstract
Severe eosinophilic asthma (SEA) is a therapy-resistant respiratory condition with poor clinical control. Treatment efficacy and patient compliance of current therapies remain unsatisfactory. Here, inspired by the remarkable success of chimeric antigen receptor-based cellular adoptive immunotherapies demonstrated for the treatment of a variety of malignant tumors, we engineered a cytokine-anchored chimeric antigen receptor T (CCAR-T) cell system using a chimeric IL-5-CD28-CD3ζ receptor to trigger T-cell-mediated killing of eosinophils that are elevated during severe asthma attacks. IL-5-anchored CCAR-T cells exhibited selective and effective killing capacity in vitro and restricted eosinophil differentiation with apparent protection against allergic airway inflammation in two mouse models of asthma. Notably, a single dose of IL-5-anchored CCAR-T cells resulted in persistent protection against asthma-related conditions over three months, significantly exceeding the typical therapeutic window of current mAb-based treatments in the clinics. This study presents a cell-based treatment strategy for SEA and could set the stage for a new era of precision therapies against a variety of intractable allergic diseases in the future.
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