Bionic natural small molecule co-assemblies towards targeted and synergistic Chemo/PDT/CDT.

IF 11.3 1区 医学 Q1 Medicine Biomaterials Research Pub Date : 2023-05-09 DOI:10.1186/s40824-023-00380-z
Shiyao Fu, Mingao Wang, Bin Li, Xu Li, Jianjun Cheng, Haitian Zhao, Hua Zhang, Aijun Dong, Weihong Lu, Xin Yang
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Abstract

Background: Multi-component nano-delivery systems based on chemotherapy (chemo)- photodynamic therapy (PDT)- chemodynamic therapy (CDT) have gained increased attention as a promising strategy to improve clinical outcomes in cancer treatment. However, there remains a challenge in developing biodegradable, biocompatible, less toxic, yet highly efficient multicomponent nanobased drug delivery systems (DDS). Here, our study presents the screening and development of a novel DDS based on co-assemblies natural small molecule (NSMs). These molecules (oleanolic acid, and betulinic acid) are combined with photosensitizers Chlorine6 (Ce6) and Cu2+ that are encapsulated by tumor cell membranes. This nanocarrier encapsulated in tumor cell membranes achieved good tumor targeting and a significant improvement in tumor accumulation.

Methods: A reprecipitation method was used to prepare the co-assembled nanocarrier, followed by the introduction of Cu2 + into the DDS (OABACe6 NPs). Then, by wrapping the surface of NPs with the cell membranes of 4T1 which is a kind of mouse breast cancer cells (CM@OABACe6/Cu NPs). and analysis of its structure and size distribution with UV-Vis, XPS, FT-IR, SEM, TEM, and DLS. The synergistic effects of in vitro chemotherapy, CDT and PDT and targeting were also validated by cellular and animal studies.

Results: It was shown that CM@OABACe6/Cu NPs achieved good tumor targeting and a significant improvement in tumor accumulation. In the composite nano-assembly, the NSMs work together with the Ce6 to provide effective and safe chemo and PDT. Moreover, the effect of reduced PDT due to the depletion of reactive oxygen species (ROS) by excess glutathione (GSH) in the tumor can be counteracted when Cu2 + is introduced. More importantly, it also confers CDT through a Fenton-like catalytic reaction with H2O overexpressed at the tumor site.

Conclusions: By constructing CM@OABACe6/Cu NPs with homologous targeting, we create a triple synergistic platform for cancer therapy using PDT, chemo, and CDT. We propose here a novel combinatorial strategy for designing more naturally co-assembled small molecules, especially for the development of multifunctional synergistic therapies that utilize NSMs.

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面向靶向和协同化疗/PDT/CDT的仿生天然小分子共组装。
背景:基于化学疗法(chemo)-光动力疗法(PDT)-化学动力疗法(CDT)的多组分纳米递送系统作为一种有希望改善癌症治疗临床结果的策略而受到越来越多的关注。然而,在开发可生物降解、生物相容性好、毒性低、高效的多组分纳米给药系统(DDS)方面仍然存在挑战。在此,我们的研究介绍了一种基于天然小分子(nsm)共组装的新型DDS的筛选和开发。这些分子(齐墩果酸和白桦酸)与被肿瘤细胞膜包裹的光敏剂氯6 (Ce6)和Cu2+结合。这种包封在肿瘤细胞膜上的纳米载体取得了良好的肿瘤靶向性,显著改善了肿瘤的蓄积。方法:采用再沉淀法制备共组装纳米载体,并将Cu2 +引入DDS (OABACe6 NPs)中。然后用小鼠乳腺癌细胞4T1的细胞膜包裹NPs表面(CM@OABACe6/Cu NPs)。并利用UV-Vis、XPS、FT-IR、SEM、TEM、DLS等分析了其结构和尺寸分布。体外化疗、CDT和PDT以及靶向治疗的协同作用也通过细胞和动物实验得到了验证。结果:CM@OABACe6/Cu NPs具有良好的肿瘤靶向性,显著改善肿瘤蓄积。在复合纳米组件中,nsm与Ce6一起工作,提供有效和安全的化疗和PDT。此外,由于肿瘤中过量谷胱甘肽(GSH)消耗活性氧(ROS)而导致的PDT降低的影响可以在引入Cu2 +时抵消。更重要的是,它还通过fenton样催化反应与肿瘤部位过表达的H2O给予CDT。结论:通过构建具有同源靶向的CM@OABACe6/Cu NPs,我们为PDT、化疗和CDT的癌症治疗创造了一个三重协同平台。我们在此提出了一种新的组合策略,用于设计更自然地共组装的小分子,特别是用于开发利用nsm的多功能协同疗法。
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来源期刊
Biomaterials Research
Biomaterials Research Medicine-Medicine (miscellaneous)
CiteScore
10.20
自引率
3.50%
发文量
63
审稿时长
30 days
期刊介绍: Biomaterials Research, the official journal of the Korean Society for Biomaterials, is an open-access interdisciplinary publication that focuses on all aspects of biomaterials research. The journal covers a wide range of topics including novel biomaterials, advanced techniques for biomaterial synthesis and fabrication, and their application in biomedical fields. Specific areas of interest include functional biomaterials, drug and gene delivery systems, tissue engineering, nanomedicine, nano/micro-biotechnology, bio-imaging, regenerative medicine, medical devices, 3D printing, and stem cell research. By exploring these research areas, Biomaterials Research aims to provide valuable insights and promote advancements in the biomaterials field.
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