Qian-Ru Li , Mei-Ting Niu , Lin-Meng Liu , Jin-Yue Zeng , Ping Ji , Hao Zhou , Jin-Lian He , Wei-Hai Chen , Xian-Zheng Zhang
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引用次数: 0
摘要
放射治疗是临床实践中一种重要的抗肿瘤方法,但由于 X 射线辐射沉积不足和对转移性肿瘤的抑制作用有限,其疗效往往较低。本文精心设计了一种生物启发的铪基金属有机框架(Hf-MOF)纳米放射增敏剂(SHMR),通过放射增敏与一氧化氮辅助免疫微环境重塑的协同作用来促进放射免疫治疗。这种工程化的 SHMR 是通过将 RGD 肽修饰的红细胞膜包裹在硝普钠负载的 Hf-MOF 上而构建的。体外和体内实验证明,在 X 射线照射下,SHMR 可诱导免疫原性细胞死亡,并释放丰富的肿瘤相关抗原,促进树突状细胞成熟和 T 细胞活化。重要的是,SHMR 释放的一氧化氮(NO)不仅能缓解肿瘤缺氧,减轻放疗耐药性,还能重塑肿瘤微环境,从而重塑细胞外基质屏障,增强免疫细胞浸润。具体来说,SHMR与αPD-L1疗法相结合,在双侧肿瘤和转移性肿瘤模型中显示出良好的治疗效果。这项工作创造了一种实用的纳米放射增敏剂,以实现有效的放射治疗和NO介导的肿瘤微环境重建,为放射免疫疗法对抗 "免疫冷 "肿瘤提供了一种前景广阔的策略。
Bioinspired Hf-based metal-organic framework radiosensitizer for nitric oxide-assisted radio-immunotherapy
Radiotherapy is a crucial antineoplastic approach in clinical practice, but it often suffers from low therapeutic efficacy due to inadequate deposition of X-ray radiation and limited inhibition of metastatic tumors. Here, a bioinspired Hf-based metal-organic framework (Hf-MOF) nano-radiosensitizer (SHMR) is elaborately designed for boosting radio-immunotherapy by synergizing radio-sensitization with nitric oxide-assisted immune microenvironment remodeling. The engineered SHMR is constructed by wrapping RGD peptide-modified erythrocyte membrane onto sodium nitroprusside-loaded Hf-MOF. In vitro and in vivo experiments demonstrate that SHMR can induce immunogenic cell death and release abundant tumor-associated antigens to promote dendritic cells maturation and T cells activation under X-ray irradiation. Importantly, nitric oxide (NO) released from SHMR can not only relieve tumor hypoxia to alleviate radiotherapy resistance, but also reprogram tumor microenvironment, thereby reshaping the extracellular matrix barrier and enhancing immune cells infiltration. Specifically, SHMR in conjunction with αPD-L1 therapy exhibits favorable therapeutic outcomes in bilateral tumor and metastatic tumor models. This work creates a practical nano-radiosensitizer to achieve effective radiotherapy and NO-mediated tumor microenvironment reconstruction, providing a promising strategy for potentiating the radio-immunotherapy against “immune-cold” tumors.
期刊介绍:
Nano Today is a journal dedicated to publishing influential and innovative work in the field of nanoscience and technology. It covers a wide range of subject areas including biomaterials, materials chemistry, materials science, chemistry, bioengineering, biochemistry, genetics and molecular biology, engineering, and nanotechnology. The journal considers articles that inform readers about the latest research, breakthroughs, and topical issues in these fields. It provides comprehensive coverage through a mixture of peer-reviewed articles, research news, and information on key developments. Nano Today is abstracted and indexed in Science Citation Index, Ei Compendex, Embase, Scopus, and INSPEC.
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