用于选择性癌症生物还原治疗的肿瘤微环境响应性载有替拉扎明的核壳聚合物纳米颗粒

Tumor Microenvironment Responsive TPZ-Loaded Core-Shell Polymeric Nanoparticles for Selective Cancer Bioreductive Therapy.

作者信息

Alimohammadvand Sajjad, Shahpouri Mohammad, Adili Aghdam Mohammad Amin, Majdi Hasan, Hamishehkar Hamed, Kaveh Zenjanab Masoumeh, Barzegari Abolfazl, Jaymand Mehdi, Amoozgar Zohreh, Jahanban Esfahlan Rana

机构信息

Department of Medical Biotechnology, Faculty of Advanced Medical Sciences, Tabriz University of Medical Sciences, Tabriz, Iran.

Drug Applied Research Center, Tabriz University of Medical Sciences, Tabriz 5166614733, Iran.

出版信息

Adv Pharm Bull. 2025 Jun 16;15(2):390-405. doi: 10.34172/apb.025.43945. eCollection 2025 Jul.

DOI:10.34172/apb.025.43945

PMID:40922751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12413963/

Abstract

PURPOSE

Tumor hypoxia is a key barrier to successful delivery and activity of anti-cancer agents. To tackle this, we designed hypoxia-responsive Au-PEI-Azo-mPEG nanoparticles (NPs) denoted as APAP NPs for targeted delivery of hypoxia-activated prodrug (HAP), tirapazamine (TPZ) to hypoxic breast cancer cells.

METHODS

AuNPs were first synthesized. And then, were coated with polyethylene imine (PEI) by EDC-NHS chemistry. To realize NP biocompatibility and self-activating potential, a hypoxia-cleavable mPEG-AZO linker shell was coupled to the Au-PEI core. The hypoxia-responsible behavior of nanoparticles was analyzed under 21% O (normoxia) and 1% O (hypoxia) condition in 2D cell culture as well as MDA-MB-231 and MCF-7 spheroids as reliable biomimetics of tumor hypoxia.

RESULTS

APAP NPs elicited comparable cytotoxicity upon MDA-MB-231 cancer cells lowering TPZ IC to 7.46 µg/mL after 24 h. And were capable of enhanced ROS generation (<0.001), and reduced mitochondrial membrane potential under hypoxia condition compared to the control (<0.0001). Further, these NPs induced widespread apoptosis in both 2D and 3D cancer cell culture (<0.0001), significantly reduced cell adhesion density (<0.01), increased cell uptake by ~100 folds under hypoxia condition, and destroyed large MCF-7 spheroids by 72 h.

CONCLUSION

Together, APAP@TPZ as biocompatible, and multi-stage activating platforms afford deepened penetration of HAP to hypoxic tumor core, where PEG detachment and TPZ bioreduction into its active form promote selective and effective eradication of hypoxic breast cancer microtumors.

摘要

目的

肿瘤缺氧是抗癌药物成功递送和发挥活性的关键障碍。为解决这一问题，我们设计了缺氧响应性金-聚乙烯亚胺-偶氮-甲氧基聚乙二醇纳米颗粒（NPs），即APAP NPs，用于将缺氧激活前药（HAP）替拉扎明（TPZ）靶向递送至缺氧乳腺癌细胞。

方法

首先合成金纳米颗粒（AuNPs）。然后，通过EDC-NHS化学方法用聚乙烯亚胺（PEI）包覆。为实现NP的生物相容性和自激活潜力，将缺氧可裂解的甲氧基聚乙二醇-偶氮（mPEG-AZO）连接体壳层与金-PEI核偶联。在二维细胞培养以及作为肿瘤缺氧可靠仿生模型的MDA-MB-231和MCF-7球体中，于21%氧气（常氧）和1%氧气（缺氧）条件下分析纳米颗粒的缺氧响应行为。

结果

APAP NPs对MDA-MB-231癌细胞具有相当的细胞毒性，24小时后将TPZ的半数抑制浓度（IC）降至7.46μg/mL。与对照组相比，在缺氧条件下能够增强活性氧生成（<0.001），并降低线粒体膜电位（<0.0001）。此外,这些纳米颗粒在二维和三维癌细胞培养中均诱导广泛凋亡（<0.0001），显著降低细胞黏附密度（<0.01），在缺氧条件下细胞摄取增加约100倍，并在72小时内破坏大型MCF-7球体。

结论

总之，APAP@TPZ作为生物相容性和多阶段激活平台，可使HAP更深入地渗透到缺氧肿瘤核心，其中聚乙二醇脱离以及TPZ生物还原为其活性形式促进了对缺氧乳腺癌微肿瘤的选择性和有效根除。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8903/12413963/e5d5a94c0538/apb-15-390-g001.jpg

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用于选择性癌症生物还原治疗的肿瘤微环境响应性载有替拉扎明的核壳聚合物纳米颗粒

Tumor Microenvironment Responsive TPZ-Loaded Core-Shell Polymeric Nanoparticles for Selective Cancer Bioreductive Therapy.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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