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一种基于多模态协同治疗的新型肿瘤微环境响应性可生物降解介孔硅纳米系统的制备、生物安全性及细胞毒性研究。

Preparation, Biosafety, and Cytotoxicity Studies of a Newly Tumor-Microenvironment-Responsive Biodegradable Mesoporous Silica Nanosystem Based on Multimodal and Synergistic Treatment.

机构信息

The First Affiliated Hospital of Bengbu Medical College & Tumor Hospital Affiliated to Bengbu Medical College, Bengbu 233004, China.

Department of Cardiothoracic Surgery, Huashan Hospital of Fudan University, Shanghai 200040, China.

出版信息

Oxid Med Cell Longev. 2020 Nov 5;2020:7152173. doi: 10.1155/2020/7152173. eCollection 2020.

DOI:10.1155/2020/7152173
PMID:33488930
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7803173/
Abstract

Patients with triple negative breast cancer (TNBC) often suffer relapse, and clinical improvements offered by radiotherapy and chemotherapy are modest. Although targeted therapy and immunotherapy have been a topic of significant research in recent years, scientific developments have not yet translated to significant improvements for patients with TNBC. In view of these current clinical treatment shortcomings, we designed a silica nanosystem (SNS) with Nano-Ag as the core and a complex of MnO and doxorubicin (Dox) as the surrounding mesoporous silica shell. This system was coated with anti-PD-L1 to target the PD-L1 receptor, which is highly expressed on the surface of tumor cells. MnO itself has been shown to act as chemodynamic therapy (CDT), and Dox is cytotoxic. Thus, the full SNS system presents a multimodal, potentially synergistic strategy for the treatment of TNBC. Given potential interest in the clinical translation of SNS, the biological safety and antitumor activity of SNS were evaluated in a series of studies that included physicochemical characterization, particle stability, blood compatibility, and cytotoxicity. We found that the particle size and zeta potential of SNS were 94.6 nm and -22.1 mV, respectively. Ultraviolet spectrum analysis showed that Nano-Ag, Dox, and MnO were successfully loaded into SNS, and the drug loading ratio of Dox was about 10.2%. Stability studies found that the particle size of SNS did not change in different solutions. Hemolysis tests showed that SNS, at levels far exceeding the anticipated physiologic concentrations, did not induce red blood cell lysis. Further and experiments found that SNS did not activate platelets or cause coagulopathy and had no significant effects on the total number of blood cells or hepatorenal function. Cytotoxicity experiments suggested that SNS significantly inhibited the growth of tumor cells by damaging cell membranes, increasing intracellular ROS levels, inhibiting the release of TGF-1 cytokines by macrophages, and inhibiting intracellular protein synthesis. In general, SNS appeared to have favorable biosafety and antitumor effects and may represent an attractive new therapeutic approach for the treatment of TNBC.

摘要

三阴性乳腺癌(TNBC)患者常复发,放疗和化疗的临床改善效果有限。近年来,尽管靶向治疗和免疫治疗已成为研究热点,但科学进展尚未转化为 TNBC 患者的显著改善。鉴于这些当前的临床治疗缺陷,我们设计了一种以纳米银为核心,以 MnO 和阿霉素(Dox)复合物为周围介孔硅壳的硅纳米系统(SNS)。该系统被包裹上抗 PD-L1 以靶向肿瘤细胞表面高表达的 PD-L1 受体。MnO 本身已被证明可作为化学动力学治疗(CDT),而 Dox 具有细胞毒性。因此,完整的 SNS 系统呈现出一种多模式、具有潜在协同作用的 TNBC 治疗策略。鉴于 SNS 在临床转化方面的潜在兴趣,我们在一系列研究中评估了 SNS 的生物安全性和抗肿瘤活性,这些研究包括物理化学特性表征、颗粒稳定性、血液相容性和细胞毒性。我们发现 SNS 的粒径和 Zeta 电位分别为 94.6nm 和-22.1mV。紫外光谱分析表明,Nano-Ag、Dox 和 MnO 已成功载入 SNS,Dox 的载药率约为 10.2%。稳定性研究发现,SNS 在不同溶液中的粒径没有变化。溶血试验表明,SNS 在远远超过预期生理浓度的水平下,不会引起红细胞溶血。进一步的 和 实验发现,SNS 不会激活血小板或引起凝血异常,对总血细胞数或肝肾功能没有显著影响。细胞毒性实验表明,SNS 通过破坏细胞膜、增加细胞内 ROS 水平、抑制巨噬细胞释放 TGF-1 细胞因子以及抑制细胞内蛋白质合成,显著抑制肿瘤细胞的生长。总的来说,SNS 似乎具有良好的生物安全性和抗肿瘤效果,可能代表治疗 TNBC 的一种有吸引力的新治疗方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/6759173c10bf/OMCL2020-7152173.006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/0af7c1dd04f8/OMCL2020-7152173.001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/e0f7c7a88b2d/OMCL2020-7152173.002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/69aca8c327c9/OMCL2020-7152173.003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/20a9681f22ca/OMCL2020-7152173.004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/8b0966630fbc/OMCL2020-7152173.005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/6759173c10bf/OMCL2020-7152173.006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/0af7c1dd04f8/OMCL2020-7152173.001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/e0f7c7a88b2d/OMCL2020-7152173.002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/69aca8c327c9/OMCL2020-7152173.003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/20a9681f22ca/OMCL2020-7152173.004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/8b0966630fbc/OMCL2020-7152173.005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ac4/7803173/6759173c10bf/OMCL2020-7152173.006.jpg

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