文章摘要
罗雪 杨丹丹 王艳△ 王润芳 任小苗 马迪 张紫薇.量子点细胞毒性及其作用机制[J].,2016,16(3):580-582
量子点细胞毒性及其作用机制
QuantumDot Cytotoxicity and the Underlying Mechanisms
  
DOI:
中文关键词: 量子点  细胞毒性  氧化应激(ROS)
英文关键词: Quantumdots  Cytotoxicity  ROS
基金项目:黑龙江省青年科学基金项目(QC08C79)
作者单位
罗雪 杨丹丹 王艳△ 王润芳 任小苗 马迪 张紫薇 哈尔滨医科大学附属第一临床医院妇产科 
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中文摘要:
      纳米粒子(NPS)在工业和研究中的使用急剧增加,因而这种材料面临一个其潜在毒性的问题。不幸的是,对纳米颗粒与纳 米/ 生物界面可能发生的相互作用没有足够的了解。广大科技工作者正在积极寻求日益关注的纳米技术对人类的影响答案。我们 将从NPS在生物媒体中的浓度,尺寸大小,电荷,和配位体的稳定性方面来了解纳米粒子的性质和他们在生物环境中对细胞毒所 起的作用;并初步探讨已知的机制,量子点可以破坏细胞,包括氧化应激引起的活性氧(ROS)。微小浓度量子点足以造成长期持 久的,甚至是跨代的影响。本文讨论了从纳摩尔到皮摩尔浓度的诱导细胞损伤的量子点(QDS)的浓度,这意味着含镉量子点可以 发挥表观遗传毒性,纳米基因毒性,重金属基因的毒性。在此为评估包括量子点的在内的纳米毒性的的纳米材料,我们采用量子 点作为一个例证,来阐述以科学为基础的发展到纳米毒理学的相关的问题。
英文摘要:
      With the dramatic increase in the use of nanoparticles (NP) in industry and research, question about the potential toxicity of such materials has been raised. Unfortunately, how the novel, technologically-attractive properties of NPs correlate with the interactions that may take place at the nano/bio interface is not known enough. The academic, industrial, and regulatory communities are actively seeking answers to the growing concerns on the impact of nanotechnology on humans. Specifically the concentration, size, charge, and ligand stability of NPs in biological media must be known and of their biological environment contribute to cytotoxicity. In this Account, we initially review the known mechanisms by which QDs can damage cells, including oxidative stress elicited by reactive oxygen species (ROS). Minute concentrations of QDs could be sufficient to cause long lasting, even trans-generational effects. We discuss lesser-known impairments induced in cells by nanomolar to picomolar concentrations of QDs, which imply that cadmiumcontaining QDs can exert genotoxic, epigenetic, and metalloestrogenic effects. A combination of toxicological, genetic, epigenetic and imaging approaches is required to create comprehensive guidelines for evaluating the nanotoxicity of nanomaterials, including QDs. In this Account we adopt quantum dots (QDs) as an illustrative example of the difficulties associated with the development of a rational science-based approach to nanotoxicology.
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