Dynamic magneto-mechanical force in lysosomes induces durable macrophage repolarization for antitumor immunity

细胞生物学 巨噬细胞 生物 细胞内 先天免疫系统 机械转化 免疫系统 免疫疗法 体内 安普克 细胞器 小干扰RNA 潮湿 吞噬作用 下调和上调 蛋白激酶A 癌症研究 信号转导 髓样 激酶 检查点激酶2
作者
Yingze Li,Mengge Zheng,Zhenyan Zhu,Yajuan Zhang,Peng Ning,Haotian Chen,Rui Gao,Chang Xu,Xueyan Wei,Yali Liu,Yingying Wang,Ruimei Zhou,Yuan Li,Zhenguang Li,Cheng Lv,Chen Liu,Junfang Xu,Zihan Guo,Zhixiang Hu,Lan Fang
出处
期刊:Cell Research [Springer Nature]
卷期号:36 (3): 197-218 被引量:1
标识
DOI:10.1038/s41422-025-01217-1
摘要

Mechanical forces are emerging physical cues that regulate biochemical signals of immune cells for antitumor immunity. Owing to the lack of precise tools to impose intracellular forces, little is known about whether and how organelle-level forces trigger mechanotransduction for antitumor immunity. Here, we developed a magneto-mechanical force-triggered lysosomal membrane permeabilization (MagLMP) strategy to induce durable macrophage repolarization for in vivo applications. Self-assembled magnetic nanomotors are driven by rotational magnetic fields, facilitating dynamic damage to the lysosomal membrane by a finely tuned torque-induced vortex. Intriguingly, galectin 9 (Gal9) was found to be critical for sensing cyclic MagLMP, which dynamically activated AMP-activated protein kinase (AMPK), enhanced activation of nuclear factor kappa B (NF-κB), and induced metabolic alterations for sustained M1-like macrophage repolarization, followed by mounting of antitumor immunity. Through single-cell RNA sequencing of tumor tissues, as well as macrophage depletion-reconstitution models involving intratumoral transfer of Gal9-KO bone marrow-derived macrophages (BMDMs) and AMPK shRNA-transduced Gal9-KO BMDMs, we confirmed the Gal9-AMPK-NF-κB axis as the essential pathway by which MagLMP functions in antitumor therapy. In a mouse model of lung adenocarcinoma in situ, overall survival was extended after intravenous administration of nanomotors followed by cyclic MagLMP, and one third of mice survived for more than 300 days. Together, these results demonstrate an intracellular mechanical strategy that can dynamically manipulate innate immune responses in vivo, providing a tool for durable immunotherapy through organelle mechanotransduction.
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