磁热疗与基因疗法相结合治疗乳腺癌。

IF 6.1 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Kubra Solak, Seyda Yildiz Arslan, Melek Acar, Fatma Turhan, Yagmur Unver, Ahmet Mavi
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引用次数: 0

摘要

本研究介绍了一种新型乳腺癌治疗模型,它利用磁场控制加热来触发癌细胞中的基因表达。我们创造了二氧化硅和胺修饰的超顺磁性纳米粒子(MSNP-NH2),在交流磁场下携带基因并释放热量。设计的热诱导表达质粒(pHSP-Azu)编码抗癌天青素,并通过磁感染进行传递。当 MCF-7 细胞暴露于 75 µg/ml 的 MSNP-NH2、3 µg DNA 和 PEI(PEI/DNA 比为 0.75)(w: w)时,与非致癌细胞(MCF-10 A)不同,MCF-7 细胞的细胞存活率超过 93%,转染效率为 12%。磁性热疗(MHT)通过热诱导增加了azurin的表达,以双重方式导致细胞死亡。磁热疗法和热调控azurin表达相结合,可诱导细胞死亡,尤其是癌细胞,而对MCF-10 A细胞的影响则微乎其微。所提出的策略清楚地表明,同时使用 MHT 和 MHT 诱导的氮素基因表达可选择性地靶向杀死癌细胞,为癌症治疗提供了一个很有前景的方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Combination of magnetic hyperthermia and gene therapy for breast cancer.

This study presented a novel breast cancer therapy model that uses magnetic field-controlled heating to trigger gene expression in cancer cells. We created silica- and amine-modified superparamagnetic nanoparticles (MSNP-NH2) to carry genes and release heat under an alternating current (AC) magnetic field. The heat-inducible expression plasmid (pHSP-Azu) was designed to encode anti-cancer azurin and was delivered by magnetofection. MCF-7 cells demonstrated over 93% cell viability and 12% transfection efficiency when exposed to 75 µg/ml of MSNP-NH2, 3 µg of DNA, and PEI at a 0.75 PEI/DNA ratio (w: w), unlike non-tumorigenic cells (MCF-10 A). Magnetic hyperthermia (MHT) increased azurin expression by heat induction, leading to cell death in dual ways. The combination of MHT and heat-regulated azurin expression induced cell death, specifically in cancer cells, while having negligible effects on MCF-10 A cells. The proposed strategy clearly shows that simultaneous use of MHT and MHT-induced azurin gene expression may selectively target and kill cancer cells, offering a promising direction for cancer therapy.

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来源期刊
Apoptosis
Apoptosis 生物-生化与分子生物学
CiteScore
9.10
自引率
4.20%
发文量
85
审稿时长
1 months
期刊介绍: Apoptosis, a monthly international peer-reviewed journal, focuses on the rapid publication of innovative investigations into programmed cell death. The journal aims to stimulate research on the mechanisms and role of apoptosis in various human diseases, such as cancer, autoimmune disease, viral infection, AIDS, cardiovascular disease, neurodegenerative disorders, osteoporosis, and aging. The Editor-In-Chief acknowledges the importance of advancing clinical therapies for apoptosis-related diseases. Apoptosis considers Original Articles, Reviews, Short Communications, Letters to the Editor, and Book Reviews for publication.
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