天然复方催产素通过活性氧依赖途径诱导A549肺癌细胞DNA损伤和细胞凋亡并进行体外实验研究

IF 3.8 4区 工程技术 Q1 BIOCHEMICAL RESEARCH METHODS
Qi Zhang, Feng Ruan, Maonan Yang, Qinghui Wen
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引用次数: 0

摘要

由于肺癌死亡人数的增加和癌细胞对现有治疗方法的耐药性,迫切需要潜在的药物来治疗肺癌。本研究旨在发现天然化合物催产素作为肺癌治疗药物的抗癌潜力。结果表明,毛毡素诱导A549肺癌细胞G2/M期阻滞和活性氧(ROS)依赖性凋亡的表达具有抑制细胞生长的作用。结果表明,催产素可对A549肺癌细胞产生活性氧和核损伤。有趣的是,催产素在mRNA水平上表现出显著的CD47水平下调CD47的表达。PBMC生物相容性研究表明,催产素对正常细胞无毒。综上所述,实验结果表明,催产素通过引起活性氧和核损伤激活途径诱导A549细胞凋亡。在未来,催产素可能成为一种有效的生物安全抗癌药物用于肺癌治疗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Natural compound chaetocin induced DNA damage and apoptosis through reactive oxygen species-dependent pathways in A549 lung cancer cells and in vitro evaluations

Natural compound chaetocin induced DNA damage and apoptosis through reactive oxygen species-dependent pathways in A549 lung cancer cells and in vitro evaluations

There is an urgent need for potential pharmaceutics for lung cancer treatment due to the increased number of lung cancer deaths and the resistance of cancer cells to present therapeutics. The present work aims to discover the anticancer potential of the natural compound chaetocin as a therapeutic for lung cancer treatment. Results showed the significance of chaetocin-induced cell growth inhibition by the expression of G2/M phase arrest and reactive oxygen species (ROS) dependent apoptosis in A549 lung cancer cells. Results concluded that chaetocin could produce ROS and nuclear damage against A549 lung cancer cells. Interestingly, chaetocin exhibits a significant level of CD47 that down-regulates the expression of CD47 at mRNA levels. PBMC biocompatibility study revealed that chaetocin is non-toxic to normal cells. Overall, experimental results suggested that chaetocin induces A549 cell apoptosis, by causing ROS and nuclear damage activation pathways. In the future, chaetocin might be an effective bio-safe anticancer agent for lung cancer treatments.

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来源期刊
IET nanobiotechnology
IET nanobiotechnology 工程技术-纳米科技
CiteScore
6.20
自引率
4.30%
发文量
34
审稿时长
1 months
期刊介绍: Electrical and electronic engineers have a long and illustrious history of contributing new theories and technologies to the biomedical sciences. This includes the cable theory for understanding the transmission of electrical signals in nerve axons and muscle fibres; dielectric techniques that advanced the understanding of cell membrane structures and membrane ion channels; electron and atomic force microscopy for investigating cells at the molecular level. Other engineering disciplines, along with contributions from the biological, chemical, materials and physical sciences, continue to provide groundbreaking contributions to this subject at the molecular and submolecular level. Our subject now extends from single molecule measurements using scanning probe techniques, through to interactions between cells and microstructures, micro- and nano-fluidics, and aspects of lab-on-chip technologies. The primary aim of IET Nanobiotechnology is to provide a vital resource for academic and industrial researchers operating in this exciting cross-disciplinary activity. We can only achieve this by publishing cutting edge research papers and expert review articles from the international engineering and scientific community. To attract such contributions we will exercise a commitment to our authors by ensuring that their manuscripts receive rapid constructive peer opinions and feedback across interdisciplinary boundaries. IET Nanobiotechnology covers all aspects of research and emerging technologies including, but not limited to: Fundamental theories and concepts applied to biomedical-related devices and methods at the micro- and nano-scale (including methods that employ electrokinetic, electrohydrodynamic, and optical trapping techniques) Micromachining and microfabrication tools and techniques applied to the top-down approach to nanobiotechnology Nanomachining and nanofabrication tools and techniques directed towards biomedical and biotechnological applications (e.g. applications of atomic force microscopy, scanning probe microscopy and related tools) Colloid chemistry applied to nanobiotechnology (e.g. cosmetics, suntan lotions, bio-active nanoparticles) Biosynthesis (also known as green synthesis) of nanoparticles; to be considered for publication, research papers in this area must be directed principally towards biomedical research and especially if they encompass in vivo models or proofs of concept. We welcome papers that are application-orientated or offer new concepts of substantial biomedical importance Techniques for probing cell physiology, cell adhesion sites and cell-cell communication Molecular self-assembly, including concepts of supramolecular chemistry, molecular recognition, and DNA nanotechnology Societal issues such as health and the environment Special issues. Call for papers: Smart Nanobiosensors for Next-generation Biomedical Applications - https://digital-library.theiet.org/files/IET_NBT_CFP_SNNBA.pdf Selected extended papers from the International conference of the 19th Asian BioCeramic Symposium - https://digital-library.theiet.org/files/IET_NBT_CFP_ABS.pdf
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