通过靶向线粒体凋亡增强基于自然杀伤细胞的免疫疗法。

Augmenting NK cell-based immunotherapy by targeting mitochondrial apoptosis.

机构信息

Department of Medical Oncology, Dana-Farber Cancer Institute, 450 Brookline Avenue, Boston, MA 02215, USA; Harvard Medical School, Boston, MA 02215, USA.

出版信息

Cell. 2022 Apr 28;185(9):1521-1538.e18. doi: 10.1016/j.cell.2022.03.030. Epub 2022 Apr 20.

DOI:10.1016/j.cell.2022.03.030

PMID:35447071

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9097966/

Abstract

Interest in harnessing natural killer (NK) cells for cancer immunotherapy is rapidly growing. However, efficacy of NK cell-based immunotherapy remains limited in most trials. Strategies to augment the killing efficacy of NK cells are thus much needed. In the current study, we found that mitochondrial apoptosis (mtApoptosis) pathway is essential for efficient NK killing, especially at physiologically relevant effector-to-target ratios. Furthermore, NK cells can prime cancer cells for mtApoptosis and mitochondrial priming status affects cancer-cell susceptibility to NK-mediated killing. Interestingly, pre-activating NK cells confers on them resistance to BH3 mimetics. Combining BH3 mimetics with NK cells synergistically kills cancer cells in vitro and suppresses tumor growth in vivo. The ideal BH3 mimetic to use in such an approach can be predicted by BH3 profiling. We herein report a rational and precision strategy to augment NK-based immunotherapy, which may be adaptable to T cell-based immunotherapies as well.

摘要

人们对利用自然杀伤 (NK) 细胞进行癌症免疫治疗的兴趣正在迅速增长。然而，在大多数试验中，基于 NK 细胞的免疫疗法的疗效仍然有限。因此，非常需要增强 NK 细胞杀伤效力的策略。在本研究中，我们发现线粒体凋亡 (mtApoptosis) 途径对于有效的 NK 杀伤至关重要，尤其是在生理相关的效应细胞与靶细胞比例下。此外，NK 细胞可以使癌细胞对 mtApoptosis 产生敏化作用，并且线粒体敏化状态会影响癌细胞对 NK 介导杀伤的敏感性。有趣的是，预先激活 NK 细胞可使它们对 BH3 模拟物产生抗性。在体外，联合使用 BH3 模拟物和 NK 细胞可协同杀伤癌细胞，并抑制体内肿瘤生长。通过 BH3 分析，可以预测出在此类方法中使用的理想 BH3 模拟物。我们在此报告了一种增强基于 NK 细胞的免疫疗法的合理且精准的策略，该策略也可能适用于 T 细胞为基础的免疫疗法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1f8f/9097966/4ba85405a2e7/nihms-1791025-f0002.jpg

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通过靶向线粒体凋亡增强基于自然杀伤细胞的免疫疗法。

Augmenting NK cell-based immunotherapy by targeting mitochondrial apoptosis.

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