Targeting endothelial MYC using siRNA or miR-218 nanoparticles sensitizes chemo- and immuno-therapies by recapitulating the Notch activation-induced tumor vessel normalization.

IF 12.4 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Theranostics Pub Date : 2025-04-13 eCollection Date: 2025-01-01 DOI:10.7150/thno.112023

Xianchun Yan, Ziyan Yang, Xiuli Cao, Liang Liang, Yanyan Duan, Peiran Zhang, Yixuan Feng, Ting Wen, Shanqiang Luo, Lintao Jia, Jiaxing Sun, Hua Han

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引用次数: 0

Abstract

Background: The chaotic, over-activated tumor vasculature promotes tumor growth and erodes most current therapies. Although Notch activation critically regulates angiogenesis, the broad roles of Notch has dampened its druggability. Methods: Gene-modified mice with a Cdh5-Cre^ERT transgene were employed to activate/block Notch signaling in endothelial cells (ECs). Multiple transcriptome analyses were conducted to compare gene expression profiles. qRT-PCR and western blotting were used to determine gene expression level. Immunofluorescence and flow cytometry were used to observe morphological alterations and immune microenvironment in tumors. Nanoparticles (PEI-PEG-cRGD) were used to deliver siRNA into tumor ECs (TECs) in vivo. Results: Genetic Notch activation or blockade in TECs normalizes or deteriorates tumor vessels, respectively. Single-cell RNA sequencing showed that Notch activation selectively reduced the proliferating TEC subset, which accounted for about 30% of TECs and gave rise to other TEC subsets. Notch activation or blockade downregulated or upregulated MYC, respectively. MYC overexpression canceled Notch activation-induced proliferation arrest of TECs in vitro, and a MYC inhibitor normalized tumor vessels in RBPj deficient mice, suggesting that MYC is the authentic Notch target in normalizing tumor vessels. Nanoparticles encapsulated with MYC siRNA (EC-siMYC) or miR-218 (EC-miR-218), a Notch-downstream miRNA suppressing MYC, were able to mitigate Notch inhibition-induced tumor vessel defects. Combination of cisplatin with MYC blockade exhibited improved therapeutic effects. Moreover, MYC blockade promoted T cell infiltration and enhanced anti-PD1 immunotherapy. Conclusions: Together, our data have demonstrated that Notch activation normalizes tumor vessels by repressing the proliferating TEC subset via MYC, and targeting endothelial MYC using nanoparticles bearing siRNA or miRNA is an efficient strategy for tumor anti-angiogenic therapy.

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使用siRNA或miR-218纳米颗粒靶向内皮MYC，通过重现Notch激活诱导的肿瘤血管正常化，使化疗和免疫治疗增敏。

背景：混乱、过度激活的肿瘤血管系统促进肿瘤生长，并侵蚀了大多数现有的治疗方法。尽管Notch激活对血管生成起着关键的调节作用，但Notch的广泛作用抑制了其药物作用。方法：采用Cdh5-CreERT转基因小鼠激活/阻断内皮细胞（ECs） Notch信号通路。多组转录组分析比较基因表达谱。采用qRT-PCR和western blotting检测基因表达水平。采用免疫荧光和流式细胞术观察肿瘤的形态变化和免疫微环境。使用纳米颗粒（PEI-PEG-cRGD）在体内将siRNA递送到肿瘤ECs （tec）中。结果：遗传Notch激活或阻断在tec中分别使肿瘤血管正常化或恶化。单细胞RNA测序显示，Notch激活选择性地减少了增殖的TEC亚群（约占TEC的30%），并产生了其他TEC亚群。Notch激活或阻断分别下调或上调MYC。MYC过表达消除了Notch激活诱导的体外TECs增殖阻滞，MYC抑制剂在RBPj缺陷小鼠中使肿瘤血管正常化，表明MYC是使肿瘤血管正常化的真正Notch靶点。用MYC siRNA （EC-siMYC）或miR-218 (EC-miR-218)（一种抑制MYC的Notch下游miRNA）包封的纳米颗粒能够减轻Notch抑制诱导的肿瘤血管缺陷。顺铂联合MYC阻断治疗效果更好。此外，MYC阻断促进T细胞浸润，增强抗pd1免疫治疗。综上所述，我们的数据表明Notch激活通过MYC抑制增殖的TEC亚群使肿瘤血管正常化，并且使用含有siRNA或miRNA的纳米颗粒靶向内皮MYC是肿瘤抗血管生成治疗的有效策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Theranostics MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

25.40

自引率

1.60%

发文量

433

审稿时长

1 months

期刊介绍： Theranostics serves as a pivotal platform for the exchange of clinical and scientific insights within the diagnostic and therapeutic molecular and nanomedicine community, along with allied professions engaged in integrating molecular imaging and therapy. As a multidisciplinary journal, Theranostics showcases innovative research articles spanning fields such as in vitro diagnostics and prognostics, in vivo molecular imaging, molecular therapeutics, image-guided therapy, biosensor technology, nanobiosensors, bioelectronics, system biology, translational medicine, point-of-care applications, and personalized medicine. Encouraging a broad spectrum of biomedical research with potential theranostic applications, the journal rigorously peer-reviews primary research, alongside publishing reviews, news, and commentary that aim to bridge the gap between the laboratory, clinic, and biotechnology industries.