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诱导多能干细胞来源的自然杀伤细胞疗法的进展

Advances in Induced Pluripotent Stem Cell-Derived Natural Killer Cell Therapy.

作者信息

Qiao Wenhua, Dong Peng, Chen Hui, Zhang Jianmin

机构信息

CAMS Key Laboratory for T Cell and Immunotherapy, State Key Laboratory of Common Mechanism Research for Major Diseases, Department of Immunology, Institute of Basic Medical Sciences, Chinese Academy of Medical Sciences and School of Basic Medicine, Peking Union Medical College, Beijing 100005, China.

Changzhou Xitaihu Institute for Frontier Technology of Cell Therapy, Changzhou 213000, China.

出版信息

Cells. 2024 Nov 29;13(23):1976. doi: 10.3390/cells13231976.

DOI:10.3390/cells13231976
PMID:39682724
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11640743/
Abstract

Natural killer (NK) cells are cytotoxic lymphocytes of the innate immune system capable of killing virus-infected cells and/or cancer cells. The commonly used NK cells for therapeutic applications include primary NK cells and immortalized NK cell lines. However, primary NK cell therapy faces limitations due to its restricted proliferation capacity and challenges in stable storage. Meanwhile, the immortalized NK-92 cell line requires irradiation prior to infusion, which reduces its cytotoxic activity, providing a ready-made alternative and overcoming these bottlenecks. Recent improvements in differentiation protocols for iPSC-derived NK cells have facilitated the clinical production of iPSC-NK cells. Moreover, iPSC-NK cells can be genetically modified to enhance tumor targeting and improve the expansion and persistence of iPSC-NK cells, thereby achieving more robust antitumor efficacy. This paper focuses on the differentiation-protocols efforts of iPSC-derived NK cells and the latest progress in iPSC-NK cell therapy. Additionally, we discuss the current challenges faced by iPSC-NK cells and provide an outlook on future applications and developments.

摘要

自然杀伤(NK)细胞是先天性免疫系统的细胞毒性淋巴细胞,能够杀死病毒感染细胞和/或癌细胞。治疗应用中常用的NK细胞包括原代NK细胞和永生化NK细胞系。然而,原代NK细胞疗法由于其增殖能力受限以及稳定储存方面的挑战而面临局限性。同时,永生化NK-92细胞系在输注前需要进行辐照,这会降低其细胞毒性活性,而诱导多能干细胞(iPSC)来源的NK细胞为克服这些瓶颈提供了现成的替代方案。iPSC来源的NK细胞分化方案的最新改进促进了iPSC-NK细胞的临床生产。此外,iPSC-NK细胞可以进行基因改造,以增强肿瘤靶向性,并改善iPSC-NK细胞的扩增和持久性,从而实现更强有力的抗肿瘤疗效。本文重点关注iPSC来源的NK细胞的分化方案研究以及iPSC-NK细胞疗法的最新进展。此外,我们还讨论了iPSC-NK细胞目前面临的挑战,并对其未来的应用和发展进行了展望。

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本文引用的文献

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Pretreatment with IL-15 and IL-18 rescues natural killer cells from granzyme B-mediated apoptosis after cryopreservation.预处理用白细胞介素-15 和白细胞介素-18 可挽救自然杀伤细胞在冻存后由颗粒酶 B 介导的细胞凋亡。
Nat Commun. 2024 May 10;15(1):3937. doi: 10.1038/s41467-024-47574-0.
2
synNotch-programmed iPSC-derived NK cells usurp TIGIT and CD73 activities for glioblastoma therapy.同步 Notch 编程诱导多能干细胞衍生自然杀伤细胞盗用 TIGIT 和 CD73 的活性用于胶质母细胞瘤治疗。
Nat Commun. 2024 Mar 1;15(1):1909. doi: 10.1038/s41467-024-46343-3.
3
Efficacy of MUC1-targeted CAR-NK cells against human tongue squamous cell carcinoma.MUC1 靶向 CAR-NK 细胞对人舌鳞癌细胞的疗效。
Front Immunol. 2024 Feb 7;15:1337557. doi: 10.3389/fimmu.2024.1337557. eCollection 2024.
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Understanding NK cell biology for harnessing NK cell therapies: targeting cancer and beyond.理解 NK 细胞生物学以利用 NK 细胞疗法:靶向癌症及其他领域。
Front Immunol. 2023 Jul 18;14:1192907. doi: 10.3389/fimmu.2023.1192907. eCollection 2023.
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Quadruple gene-engineered natural killer cells enable multi-antigen targeting for durable antitumor activity against multiple myeloma.四重基因工程自然杀伤细胞能够实现多抗原靶向,从而针对多发性骨髓瘤产生持久的抗肿瘤活性。
Nat Commun. 2022 Nov 29;13(1):7341. doi: 10.1038/s41467-022-35127-2.
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Dual antigen-targeted off-the-shelf NK cells show durable response and prevent antigen escape in lymphoma and leukemia.双抗原靶向现货 NK 细胞在淋巴瘤和白血病中显示出持久的反应,并防止抗原逃逸。
Blood. 2022 Dec 8;140(23):2451-2462. doi: 10.1182/blood.2021015184.
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Harnessing features of adaptive NK cells to generate iPSC-derived NK cells for enhanced immunotherapy.利用适应性自然杀伤细胞的特性生成诱导多能干细胞衍生的自然杀伤细胞,以增强免疫疗法。
Cell Stem Cell. 2021 Dec 2;28(12):2062-2075.e5. doi: 10.1016/j.stem.2021.08.013. Epub 2021 Sep 14.
8
Current advances in overcoming obstacles of CRISPR/Cas9 off-target genome editing.克服 CRISPR/Cas9 脱靶基因组编辑障碍的最新进展。
Mol Genet Metab. 2021 Sep-Oct;134(1-2):77-86. doi: 10.1016/j.ymgme.2021.08.002. Epub 2021 Aug 8.
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