在高岭土表面支持金纳米粒子的生物启发,用于体外治疗人类卵巢癌,并通过 MAPK 信号转导途径调节体内小鼠子宫腺肌症的炎症作用

IF 6.7 3区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Science: Advanced Materials and Devices Pub Date : 2024-04-03 DOI:10.1016/j.jsamd.2024.100714
Dengcai Zhang , Lijuan Wang , Lu Tian , Wenshi Chen , Attalla F. El-kott , Sally Negm , Waleed Eltantawy , Mohammed O. Alshaharni
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引用次数: 0

摘要

以麻黄根提取物作为绿色还原剂和稳定剂,在不使用任何有毒基质的情况下,开发了一种温和、环保的高岭土装饰金纳米粒子制备方法。通过 FE-SEM、TEM 和 XRD 技术评估了制备的金纳米粒子/高岭土的结构特征。TEM 图像显示,Au NPs 在提取物改性的高岭土表面沉积良好,没有聚集。在药物应用方面,通过 DPPH 法评估了其抗氧化功效,得出相应的 IC50 值为 104 μg/mL。通过 MTT 分析确定了纳米生物复合材料对人类卵巢癌细胞(即 PA-1 和 SK-OV-3)的细胞毒性。在这些研究中,对 PA-1 和 SK-OV-3 细胞的 IC50 分别为 250 和 119 μg/mL。在体内设计中,使用他莫昔芬诱导小鼠实验性腺肌病模型。治疗后,测量所有动物的胸腺、脾脏、子宫和体重。然后,通过 qRT-PCR、ELISA 和子宫组织学检查确定炎症因子的表达和子宫肌层浸润情况。应用 Western 印迹、qRT-PCR 和免疫组织化学(IHC)染色来分析 MAPK/ERK 信号通路蛋白的表达。Au NPs/Kaolin生物纳米复合材料通过提高胸腺和脾脏指数以及减少子宫肌层浸润改善了子宫腺肌症的症状。经 Au NPs/Kaolin 生物纳米复合材料处理后,子宫腺肌病模型小鼠子宫和血清中升高的 TNF-α、IL-6 和 IL-1β 水平也有所降低。Au NPs/Kaolin 生物纳米复合材料对子宫腺肌症的改善作用是通过阻止 MAPK/ERK 信号通路实现的,包括降低 p-p38/p38、p-JNK/JNK 和 p-ERK/ERK 蛋白和 mRNA 的表达。
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Bio-inspired deposition of gold nanoparticles onto the surface of kaolin for in vitro management of human ovarian cancer and modulation of the inflammatory response in adenomyosis-induced mice in vivo via the MAPK signaling pathway

A mild and eco-friendly protocol has been developed for the preparation of kaolin-decorated Au nanoparticles mediated by Ephedra root extract as a green reducing and stabilizing agents without any toxic substrates. Structural features of the prepared Au NPs/Kaolin were assessed through FE-SEM, TEM, and XRD techniques. TEM images show the good deposition of Au NPs over the surface of extract-modified kaolin without aggregation. Towards the medicinal application, its antioxidant efficacy was assessed by the DPPH method, and the corresponding IC50 value was obtained as 104 μg/mL. Cytotoxicity of the nanoformulated bio-composite was ascertained through MTT analysis against human ovarian carcinoma cells, i.e., PA-1 and SK-OV-3. The IC50 in those studies was 250 and 119 μg/mL against PA-1and SK-OV-3 cells, respectively. In the in vivo design, tamoxifen was used to induce the experimental adenomyosis model in mice. After treatment, the thymus, spleen, uterine, and body weights of all animals were measured. Then, inflammatory factor expression and myometrial infiltration were determined by qRT-PCR, ELISA, and histology examination in the uterus. Western blotting, qRT-PCR, and immune histochemical (IHC) staining were applied to analyze the MAPK/ERK signaling pathway protein expression. Au NPs/Kaolin bio-nanocomposite ameliorated the adenomyosis symptoms by raising the thymus and spleen index and decreasing the myometrial infiltration. The raised levels of TNF-α, IL-6, and IL-1β in adenomyosis model mice uterus and serum were also reduced after Au NPs/Kaolin bio-nanocomposite treatment. The adenomyosis amelioration of Au NPs/Kaolin bio-nanocomposite was gained by preventing the MAPK/ERK signaling pathway, including decreasing the expressions of protein and mRNA of p-p38/p38, p-JNK/JNK, and p-ERK/ERK.

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来源期刊
Journal of Science: Advanced Materials and Devices
Journal of Science: Advanced Materials and Devices Materials Science-Electronic, Optical and Magnetic Materials
CiteScore
11.90
自引率
2.50%
发文量
88
审稿时长
47 days
期刊介绍: In 1985, the Journal of Science was founded as a platform for publishing national and international research papers across various disciplines, including natural sciences, technology, social sciences, and humanities. Over the years, the journal has experienced remarkable growth in terms of quality, size, and scope. Today, it encompasses a diverse range of publications dedicated to academic research. Considering the rapid expansion of materials science, we are pleased to introduce the Journal of Science: Advanced Materials and Devices. This new addition to our journal series offers researchers an exciting opportunity to publish their work on all aspects of materials science and technology within the esteemed Journal of Science. With this development, we aim to revolutionize the way research in materials science is expressed and organized, further strengthening our commitment to promoting outstanding research across various scientific and technological fields.
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