Immune isolation-enabled nanoencapsulation of donor T cells: a promising strategy for mitigating GVHD and treating AML in preclinical models.

Dan MeiZiyang XueTianjing ZhangYining YangLin JinQianqian YuJian HongXianzheng ZhangJinru GeLi XuHan WangZiwei ZhangYuchen ZhaoYuanfang ZhaiQianshan TaoZhi-Min ZhaiQingsheng LiHongxia LiLing-Ling Zhang

Published in: Journal for immunotherapy of cancer (2024)

Encapsulated donor T cells effectively mitigate GVHD while preserving the GVL effect by minimizing co-stimulatory signaling with APCs through early immune isolation. Subsequent degradation of nanocapsules restores T-cell cytotoxic efficacy against AML cells, mediated by cytotoxic pathways. Using transplant-encapsulated T cells offers a promising strategy to suppress GVHD while preserving the GVL effect.

Keyphrases

allogeneic hematopoietic stem cell transplantation
acute myeloid leukemia
induced apoptosis
acute lymphoblastic leukemia
cell cycle arrest
signaling pathway
cell proliferation
bone marrow
pi k akt