| Literature DB >> 32758419 |
Wentao Li1, Shizhen Qiu2, Jian Chen3, Shutan Jiang4, Wendong Chen5, Jingwei Jiang6, Fei Wang6, Wen Si7, Yilai Shu3, Ping Wei7, Gaofeng Fan2, Ruijun Tian5, Haitao Wu8, Chenqi Xu9, Haopeng Wang10.
Abstract
Clinical evidence suggests that poor persistence of chimeric antigen receptor-T cells (CAR-T) in patients limits therapeutic efficacy. Here, we designed a CAR with recyclable capability to promote in vivo persistence and to sustain antitumor activity. We showed that the engagement of tumor antigens induced rapid ubiquitination of CARs, causing CAR downmodulation followed by lysosomal degradation. Blocking CAR ubiquitination by mutating all lysines in the CAR cytoplasmic domain (CARKR) markedly repressed CAR downmodulation by inhibiting lysosomal degradation while enhancing recycling of internalized CARs back to the cell surface. Upon encountering tumor antigens, CARKR-T cells ameliorated the loss of surface CARs, which promoted their long-term killing capacity. Moreover, CARKR-T cells containing 4-1BB signaling domains displayed elevated endosomal 4-1BB signaling that enhanced oxidative phosphorylation and promoted memory T cell differentiation, leading to superior persistence in vivo. Collectively, our study provides a straightforward strategy to optimize CAR-T antitumor efficacy by redirecting CAR trafficking.Entities:
Keywords: 4-1BB; CAR; CAR-T; T cell persistence; degradation; downmodulation; endosomal signaling; internalization; relapse; ubiquitination
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Year: 2020 PMID: 32758419 DOI: 10.1016/j.immuni.2020.07.011
Source DB: PubMed Journal: Immunity ISSN: 1074-7613 Impact factor: 31.745