Gold nanoparticles loaded TNF-α and CALNN peptide as a drug delivery system and promising therapeutic agent for breast cancer cells

IF 2.9 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Technology Pub Date : 2022-10-13 DOI:10.1080/10667857.2022.2133073

M. Jabir, N. Abood, Marwa H. Jawad, Kamile Öztürk, Haider Kadhim, S. Albukhaty, Ahmed Majeed Al-Shammari, F. Almalki, Jawaher J Albaqami, G. Sulaiman

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引用次数: 15

Abstract

ABSTRACT We investigated the anti-cancer properties of gold nanoparticles loaded TNF- and CALNN peptides, which we proposed as a potential drug delivery system using in vitro and in vivo models. The binding of GNPs-TNF- and GNPs-TNF-CALNN was characterized using a UV, ELISA and SEM analysis. The outcomes demonstrated that a novel drug delivery system had an anti-proliferative activity against breast cancer cell lines through a mechanism of apoptosis induction. In vivo model involved studying the cytotoxic influence of a drug delivery system GNPs, GNPs-TNF-α and GNPs-TNF-α-CALNN when applied to the transplanted AN-3 cell line. tumor sections were examined using microarray. In-vivo studies demonstrated that GNPs alone had less of a growth inhibitory effect on tumors implanted in mice when compared to GNPs-TNF – CALNN combined therapy. The cytotoxic assay showed that GNPs, GNPs-TNF-α and GNPs-TNF-α-CALNN exhibit selective toxicity towards cancer cells, inducing cell apoptosis through activation of caspase-3 and 7, p53 protein.

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携带TNF-α和CALNN肽的金纳米颗粒作为一种药物传递系统和有前景的乳腺癌治疗药物

摘要:我们研究了负载TNF-和CALNN肽的金纳米颗粒的抗癌特性，并通过体外和体内模型提出了一种潜在的药物传递系统。GNPs-TNF-和GNPs-TNF- calnn的结合用紫外、ELISA和扫描电镜进行了表征。结果表明，一种新型给药系统通过诱导细胞凋亡的机制对乳腺癌细胞系具有抗增殖活性。体内模型研究了GNPs、GNPs- tnf -α和GNPs- tnf -α- calnn给药系统对移植的AN-3细胞系的细胞毒性影响。肿瘤切片采用芯片检测。体内研究表明，与GNPs- tnf - CALNN联合治疗相比，单独GNPs对小鼠植入肿瘤的生长抑制作用较小。细胞毒性实验表明，GNPs、GNPs- tnf -α和GNPs- tnf -α- calnn对癌细胞表现出选择性毒性，通过激活caspase-3和7p53蛋白诱导细胞凋亡。

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

Materials Technology 工程技术-材料科学：综合

CiteScore

6.00

自引率

9.70%

发文量

105

审稿时长

8.7 months

期刊介绍： Materials Technology: Advanced Performance Materials provides an international medium for the communication of progress in the field of functional materials (advanced materials in which composition, structure and surface are functionalised to confer specific, applications-oriented properties). The focus is on materials for biomedical, electronic, photonic and energy applications. Contributions should address the physical, chemical, or engineering sciences that underpin the design and application of these materials. The scientific and engineering aspects may include processing and structural characterisation from the micro- to nanoscale to achieve specific functionality.